Exhibition Information
Innovation product introduction 2012
2012-10-09 11:38:19
Click: 89102
原文:http://www.chinacompositesexpo.com/en/news.php?news_id=256
1. Product Name: Whiten Polyester Veils
Used in FRP products to increase the transparency and light sensitivity of the resin, suitable for most of the FRP processes, such as Pultrusion, Hand laid-up, Filament wound, RTM, SMC, etc.
Whiten polyester veils show better resistant performance to HF, which increases the chemical resistance of the product; the UV resistance of the polyester fiber increases the aging-resistant of the product; the limpness of the fiber provides a powerful protection to moulds and workers. Whiten polyester veils are developed for the saturation of color on the surface of FRP products which were made of polyester veils. However the polyester can help to make a smooth surface and enhance the degree of reflective of the products, it can block the flow of color particle during the processes of forming of FRP products, which can change the chroma of the color. The product matched the system of ROHS.
With the colorfulness requirements up-going, common FRP products cannot meet the requirement of the high-quality markets. The material of whiten polyester veils can increase the transparency and light sensitivity of the resin well and will be widely used for the high quality of colorfulness. It provides entirely new ideas for the performance improvement of the FRP products.
Exhibitor: Shanghai Tianlue Industrial Textile Co., Ltd.
Partner:Shijiazhuang Tianlue Industrial Textile Co., Ltd.
 
  
 
2. Product Name: Advanced prepreg production process and high quality prepreg
The prepreg can be used in many areas, such as aerospace, industry machinery, sports and leisure goods and so on.
The advantages and innovations of advanced prepreg production process and high quality prepreg:
Automatic film line: auto coat-supplying, automatic monitoring and regulation coating fluid level.
β-gauge inspection system: monitor and adjust the amount of coating and automatic reel alternation. Coating precision: 20~50g±1g.
  (1) The production line can inspect flaws, such as hairball, fiber break, crack, fold and so on, then repair or reject them. This way eliminate and reduce handworks, making our prepreg quality more reliable.
  (2) We have the only set of secondary coating system in China; meanwhile we developed the special resin for this system. Secondary coating can improve the prepreg’s viscosity during automatic tape-laying. These conditions can satisfy the special requirement for prepreg’s viscosity on automatic tape-laying.
  (3) Using the method of tension control combined with vibration, we can produce prepreg of FAW75g/m2. Our prepreg of 1600mm width is the widest all over the world.
  (4) Resin uniformity of coating can be detected by the β-gauge inspection system and the automatic monitoring system.
Advanced prepreg production process and high quality prepreg satisfy our customers’ design requirements greatly. Compared with other prepregs, our 1600mm width prepreg reduce the splicing trouble about the process and property that caused by the insufficient width. We get good response from domestic and international customer base and our good process and property are fully affirmed by our customers.
Our prepregs are mainly used in aerospace and industry, such as airplane wings, fuselages and tail structures, automobile and train bodies, and pressure containers. Nowadays 1250mm width and 1000mm width prepregs can’t meet the requirements of the market and our 1600mm width UD prepregs can just supply a gap of this field.
Exhibitor: Sichuan Xinwanxing Carbon Fiber Composites Co., Ltd.
 
  
 
3. Product Name: BYK-Processing additives aids for SMC/BMC compounding in Closed Mold: BYK-P 9065 and BYK-P 9051
BYK possesses decades of years’ experience and knowledge in R & D for products used for SMC/BMC. The unique BYK-processing additives with multi-functional properties significantly guarantee the quality of finished part and reduced scrap rate by controlling production process, such as homogenizing of all components in the formulation and improving flow behavior in the mold, resulting in improved appearance of molded parts. 
No similar products has been found or applied in the market so far. The innovative patent products mentioned hereby are designed especially for SMC/BMC molding compound with benefits and technology characters as below:
 --- Easier raw material handling compared to use of zinc stearate. BYK-Processing additives replace completely the traditionally used zinc stearate working as internal mold release agent
 --- No separation of LS SMC/BMC compounds - reduced cob webbing
 --- Lower scrap rate by
        decreased shrinkage, hence less warpage
        increased gloss and reduced haze
        improved color homogeneity and surface appearance of molded parts
 --- BYK-P 9065 is fixed in the cured resin matrix and does not migrate to the surface of finished parts. No sanding after molding for parts to be painted or bonded leads much less pre-treating and labour cost but in an environmental friendly conditions.
 --- BYK-P 9051 is particularly developed for using in high efficient injection BMC formulation like headlamp without MgO and ZnSt, making more benefit for downstream processing.
The percentage of renewable materials in a product is a key indicator used to evaluate the eco-friendliness of a product which plays an important role in the development of green composite. Thanks to the intensive products and application research, BYK is already offering its customers additives for different reinforced plastics based on renewable materials. The newly developed processing additives for Closed Mold applications already contain a high percentage of renewable materials. Among which, BYK-P 9065 and BYK-P 9051 are just two representative products from BYK processing portfolio family with renewable materials containing over 90%.
The creative product meet fully expectation of market demand and has been well accepted and used by customers home and abroad for as priority in optimizing high end use formulations, such as auto parts, sanitary unit, door skin, headlamp and mass transportation etc.
Growing sales of the products in all countries reflects huge prospect of the new product. Feedback from end users including reduced scrap rate, stable batch reproducible, enhanced flow behavior and surface quality. It provides customers an effective manner in a controlled parameter to ensure qualified production and satisfied final parts.
Exhibitor: BYK-Chemie GmbH
 
    
 
4. Product Name: Three-dimensional spacer fabric reinforced thermal insulation material
We invented a new kind of three-dimensional (3-D) spacer fabric reinforcement for building thermal insulation. The reinforcement can be further filled with foamed cement to produce 3-D thermal insulation board. This new product provides the advantages of light weight, excellent mechanical performances, thermal insulation, moisture proof, low-cost, convenient construction and so on. This 3-D board can meet the requirement of flame retardant grade A and was proved to be an ideal building thermal insulation material.
  (1) Innovative integrally woven network structure.
Thick spacer fabric reinforcement was produced with glass fiber. The fabric provides a low pile density. Special textile technique was developed to prevent warp and weft glass fiber yarns from sliding, and form stable fabric reinforcement.
  (2) Assembly line for foam material filling was established
This product is reinforced with glass fiber 3-D spacer fabric. The foamed cement was filled into this reinforcement. This product provides the advantages of light weight, seismic capacity, high compressive strength, innocuity and so on.
In addition, decorative materials can be further coated on the surface of thermal insulation board. The panel can be automatically produced and have a stable manufacturing quality. Metal, marble and granite could be used as the decorative materials. This material settled the problems of debonding, high cost, complex construction and maintenance in aluminum plate and stone material wall. This product is an ideal building thermal insulation material.
  (3) Excellent mechanical performances
In the fabric reinforcement, pile yarn shuttled between top and bottom layers. The through-thickness fiber yarn improved the flatwise compression strength, flexural and tensile strength effectively. The measured flatwise compression strength and tensile strength were higher than 0.5 MPa. Also the modified foamed cement was used, which provides better thermal insulation and low water absorption rate.
This product was evaluated by National Building Materials Test Center according to GB 8624-2006.
In 2012, Bolong invented a new kind of three-dimensional (3-D) spacer fabric reinforcement for building thermal insulation. The reinforcement can be further filled with foamed cement to produce 3-D thermal insulation board. 28 patents related with this product have been applied.
Exhibitor: Bolong Three Dimensional Composite Co., Ltd.
      
  
 
5.Product Name: Fiberglass Reinforced (PP or PET) thermoplastic fabric
Product can be applied in Car Body, Logistics Box, Light Board Room Wall, Sports Equipment, New Energy, etc.
Features: uniform fiber arrangement of the fabric, not easily deformed, easy to use; good film, fast and adequate wet-out, high production efficiency; products possess exellent mechanical properties; non-volatile toxic gases, environmentally friendly and recyclable. Its product HolyPanTM plate with features: strong, anti-impact, rigid also with flexible, and resistant to physical stress; special honeycomb core structure made of polypropylene is an additional elastic region, and thus can absorb a high energy, and will not cause deformation at its center part. This anti-impact, load-sharing plywood will make HolyPanTM plate possesses good durability at room temperature, by using 20 mm ball drop for impact test, impact strength >80J; and >35J, at -20oC; the weight of 25mm or 30mm plate made from plywood and honeycomb sandwich composition is 4.5kg/m or 4.8kg/m; By using Compofil® -PP (PET) composite products to manufacture the body of the van, it can greatly increase the payload; removable, easy to move; HolyPanTM plate is a thermoplastic material, due to the reinforcement of glass fiber cloth, its operating temperature range is -40 to +80oC; through the test, it proves that HolyPanTM plate has a good UV protection ability, no aging phenomenon as the ordinary plastic sheets, and anti-rimous in the strong ultraviolet radiation,; waterproof, leak-proof, which is the HolyPanTM unique. Also good sealing, even if surface damage, it does not absorb moisture; HolyPanTM plate has high corrosion resistance to oil, grease, and common chemicals; HolyPanTM plate is resistant to salt water erosion, does not decompose; not rot, delamination or rusting; it can lower oil, gas, energy consumption, less emission of harmful gases, reusable; HolyPanTM plate can be 100% recycled; easy to cut; flexible; installation is simple.
Container, logistics containers, airport logistics, dedicated box of weapons and other special containers, special boxes, newsstand, the flood control dam, portable shelter, billboards, floor, train, subway, convenience stores, construction industries can use the magic HolyPanTM plate.
Exhibitor: Zhenshi Group Hengshi Fibergalss Fabrics Co., Ltd.
 
  
 
6. Product Name: ViPro High Performance High Modulus Glass Fabric
The fabric is the main parts of more than 5 MW high-power offshore wind turbine blade and conventional blade, high performance composite industry (pultruded sections, sports equipment, top grade board, plate, etc.)
The limitations of E glass fibers cannot meet the requirements of various high performance composite products; High-power wind blade has a higher requirement for strength, modulus, fatigue resistance and other properties of glass fiber fabric;
Although the S-glass fiber and carbon fiber have the superior performance, its high manufacturing cost is beyond the tolerance range of the vast majority of the composites industry, ViPro price only a bit higher than the E-glass, much lower than the S-glass fiber and carbon fiber;
Compared with E-glass, ViPro fiber strength increased by about 25%, modulus increased by about 14%; softening temperature increased by 80° C;
ViPro fabric tensile strength increased about 13% than E-Glass fabric;
ViPro fabric tensile modulus increased about 11% than E-Glass fabric;
ViPro fabric shear and compression performance has greatly improved than E-Glass fabric;
ViPro fabric tension - tension fatigue strength increased approximately 16% (1 million cycles) than EE-Glass fabric;
ViPro fabrics make blade larger, lighter weight, longer life, and lower cost.
Main innovations of the products:
  (1) The mechanical properties of Vipro fabric substantially improved comparing with ordinary E-glass fabrics;
  (2) Good weathering resistance (ultra-high resistance of acid and alkali) is significantly better than the regular E-glass fabrics;
  (3) The unique ± 40° and ±30° angle design of biaxial and triaxial product (BX1000 and TLX1600) makes the shear and compression performance of the glass fiber significantly improved;
The advantages of the three aspects are particularly important to the high-power offshore wind turbine blades.
At present, the type of product is mainly used for 6 MW offshore wind turbine blades and main parts of some conventional blades; We are actively developing for high performance pultruded sections, top grade boards, sports equipment and other high-performance composites industries, which will be our future direction of development and market reserves.
Exhibitor: Zhenshi Group Hengshi Fibergalss Fabrics Co., Ltd.

      
 
7. Product Name: Compofil®-PPS
Compofil®-PPS is a high-performance roving made of interwound continuous glass fiber and PPS fiber. It can be used directly to manufacture thermoplastic composites with no need for extra resin by various process including mould pressing, vacuum molding, filament winding, etc. The applications include aerospace industry, automotive, construction, sports and new energy industries.
Compofil®-PPS is a high-performance roving made of interwound continuous glass fiber and PPS fiber. Successes of the new product have filled gaps in the international and develop the new applications. Applying the specialized blending technology, glass fibers and PPS fibers are commingled into “Compofil” roving. The innovative new product offers the following unique benefits:
  (1) Excellent mechanical properties, especially specific strength. Compared with traditional metal alloys material, specific reference data as follows: Magnesium alloy materials: tensile strength is about 250-400MPa, density is 2.5-2.6g/ml; Titanium alloy materials: tensile strength is about 500-1100 MPa, density is 4.5g/ml; Compofil®-PPS material: tensile strength is about 800-1000MPa, density is 2.0-2.1g/ml. The Compofil®-PPS material’ specific strength is 3.4 times the magnesium alloy materials and 2.5 times the titanium alloy materials. The materials are given excellent specific strength, which develop the field of use "plastic steel" in aerospace, automobile, architecture industry, etc.
  (2) Excellent flame retardant properties; without external flame retardants, the flame retardancy are V-0, which solved the widespread problem of composite flame retardant, especially thermoplastic materials.
  (3) Excellent high temperature resistance; the material can be used in the temperature 200-230oC.
  (4) Excellent dimension stability and Corrosion resistance.
Compofil®-PPS have been tested by JUSHI TESTING CENTER (national recognized testing laboratory): the products meet the design requirement, and be according with environment, and have passed the MSDS certification.
Compofil®-PPS have been accepted by high-end market because of the specific strength, high temperature resistance, flame retardant, the products are applied in aircraft parts and auto Structural parts, which show a bright future.
Exhibitor: JUSHI GROUP CO., LTD.
 
  
 
8. Product Name: ITW-Plexus Structural Adhesives
ITW-Plexus Structural Adhesives is a two-part methacrylate adhesive (Abbr. MMA). Plexus Adhesives cure at room temperature, producing tough, flexible bonds that withstand impact and dampen vibration. They also resist solvents, UV exposure, saltwater, weathering, and temperature extremes/cycling. Plexus Adhesives require little or no surface preparation (primers, sanding, or grinding).They bond metal, composites, engineered plastics, and create bonds so strong that the substrates will delaminate before the bonds fail.
As a wide range of applications, high strength bonding material, ITW-Plexus Structural Adhesives have superior performance advantages.
Compared with the traditional mechanical connection, Plexus Adhesives enable the substrate to achieve a higher strength of the joints that have a more favorable anti-aging performance and anti-fatigue performance, and can avoid stress concentration, perforation and welding scars.
Compared with the one-component Polyurethane Structural Adhesive and Epoxy Structural Adhesive, Plexus Adhesives have broader application prospects, for its integrated performance is more excellent:
  (1) Faster curing time, little or no surface preparation, resist moisture, Easier to operate;
  (2) Excellent fatigue resistance and impact resistance, even in the high-frequency vibration, still have excellent bonding;
  (3) Can be used in a wider temperature range, and can still maintain good performance in high and low temperature conditions;
  (4) Recyclable, in line with environmental requirements;
  (5) Stronger than Polyurethane Structural Adhesive, Tougher than Epoxy Structural Adhesive.
In addition, ITW-Plexus Structural Adhesives show excellent anti-fatigue and anti-aging properties.
By using the patented technology of the Core-Shell structure, ITW-Plexus Structural Adhesives get very excellent anti-fatigue properties. In the conditions of high-frequency vibration caused by frequent loading/ unloading, road bump or vehicle acceleration, ITW-Plexus Structural Adhesives still show a good fatigue resistance.
Fatigue resistance test shows that the fatigue resistance of ITW-Plexus Structural Adhesives is significantly superior to the traditional Epoxy Adhesives, Polyurethane Adhesives, Silicone Rubber Adhesives and Acrylic Adhesives.
ITW Plexus Adhesives produce 90% lower VOC emissions than resins or putties and are Greenguard certified.
Boatbuilding Certifications:
American Bureau of Shipping
Det Norske Veritas
Lloyd's Register
Wind Energy Certification
MA530, 560-1, 590 are GL certified.
ITW-Plexus structural adhesives are widely used in the railway industry, involving Air conditioning system, Middle roof, Side roof, Window wallboard, Middle roof ribs, Train headdress, Metal parts and Floor.
ITW-Plexus structural adhesives can be used for bonding metals(e.g. stainless steel, aluminum) and composites (e.g. FRP, SMC and RTM). The joints bonded by Plexus adhesives have high strength and excellent aging resistance.
ITW-Plexus structural adhesives are certified by Underwriter Laboratories (UL) for use in sign bonding.
In the field of transportation manufacturing,ITW-Plexus Structural Adhesives also have a wide range of applications. For example: Luggage compartment door and Passenger door of bus, Spoiler and FRP door of car, Cab of Engineering machinery, Carriage of truck, and Interior/ External decoration of vehicle.
For yacht industry, ITW-Plexus structural adhesives also reflect excellent performance, its high strength exceed the traditional hand lay-up process. Some Plexus Adhesives fill the gap up to 37mm, and have no Stream hung and Vertical flow on vertical plane. Plexus Adhesives require little or no surface preparation for FRP Hull, have greater fatigue resistance compared to mechanical connection, and can tolerate salt water immersion and corrosion.
Exhibitor: ITW
 
  
 
9. Product Name: high performance long fiber products for LFRT PP applications
For LFRT (Long-fiber reinforce thermoplastic) molding process,  the fiberglass roving designed by Chongqing Polycomp International Corp. (CPIC) obtains good infiltration and moderate reaction with PP resin. Besides, it obtains low fuzz, good dispersion and excellent conversion, which is more suitable for high speed traction processes. It is the key material for LFRT-PP production. The LFRT-PP products provide excellent mechanical properties, especially for notched impact strength which is 3 times higher than that of the chopped fiber reinforced PP. Because of the excellent cost and environmental-friendly performance, the fiberglass roving can be used to reinforce thermoplastics such as PP, PBT, PA etc., as a possible alternative for the chopped strands. The LFRT-PP products can be obtained by injection molding and compression molding processes. Due to the advantage of light weight, the LFRT-PP can be used in automobile industry for metal replacement, and are gradually developed in building templates, air container and bullet tank.
With short molding cycle time and high production efficiency, the long fiber reinforced thermoplastic PP products (LFRT-PP) can be used for injection, extrusion, compression, lamination and other molding processes. Compared to chopped strands reinforced materials, the glass fiber content of LFRT-PP can be 70%, and the retention length of the fiber in composite can reach up to 30mm, so the LFRT-PP has excellent tensile modulus, flexural modulus, compression modulus, creep resistance, fatigue resistance. In addition, when employing high fiberglass content, the LFRT-PP obtains high modulus and low shrinkage. The LFRT-PP can be used in automotive components instead of metallic materials, resulting in obvious weight loss. At present LFRT-PP has been successfully used in car doors, bumpers, dashboard, lower shroud, battery cover, glass lifter cover, spare tire rack, etc. The LFRT-PP is developing quickly for its excellent cost performance; therefore the high-performance fiberglass has become the key development trend. CPIC takes full advantage of its own technology advantages in the glass formula and sizing technology, and has developed the international advanced high performance roving 4305N products for LFRT-PP application, with the following characteristics:
  (1) With appropriate hardness, low fuzz, good abrasive resistance, excellent dispersion and easy joint-together under tension, the dedicated special direct roving which is designed for LFRT process is more suitable for high speed traction processes. When applying to coating process, the produce efficiency can be highly improved by 300m/min.
  (2) Employing boron & fluorine free fiberglass with higher modulus, strength and elongation, the LFRT-PP complies with REACH regulations in Europe, which makes the LFRT molding process more environmental-friendly. Therefore, the fiberglass rovings designed by CPIC are of environmentally friendly, high-performance fibers. In addition the LFRT-PP product is also a kind of recycled thermoplastic material.
  (3) Adapting special sizing for surface treatment, the fiberglass and the reinforced products both have excellent gloss. The fiber has a good infiltration and reactivity with polypropylene (PP) matrix resin, which bring out excellent enhancement effects.
  (4) The LFRT-PP products provide excellent mechanical properties, anti-aging properties, anti-fatigue properties, and especially high notched impact strength.
  (5) The final molded products gain excellent dynamic fatigue resistance and low anisotropy.
Performance tests were done by CPIC and its customers. The high-performance long-fiber products for LFRT applications manufactured by CPIC obtain excellent mechanical properties. ECT glass which employs the long-fiber is boron & fluorine free, obtaining excellent corrosion resistance, complying with REACH regulations. The enhanced LFRT-PP-GF with 50% pellets provides excellent mechanical properties, 120MPa tensile strength and 186MPa flexural strength.
The high performance long fiber products for LFRT applications manufactured by CPIC has been recognized by many customers home and abroad, such as POLYRAM in Israel, RTP, Celanese, Guangzhou Jinhua, etc. With the booming of automotive industry and the requirement for high performance, high strength, lightweight automotive, fiberglass reinforced composite materials, especially for the LFRT, will be widely used and the annual growth rate will remain 2 digits.
Exhibitor: Chongqing Polycomp International Corp.
 
   
 
10. Product Name: Coated Glass Fiber Veil for Gypsum Board
The product is a specialty coated non-woven fiber glass material with a mineral-filled coating. It represents a new generation of facing material to replace paper on gypsum boards, suitable for both interior and exterior building applications. The coated non-woven material is made in USA/EU.
Made of strong glass fiber, the product technology is featured with high strength and low water absorption, and is engineered to achieve excellent performance in water resistance, mold and mildew resistance, and weathering resistance. The coated non-woven glass mat reinforces the gypsum boards, and enhances their flexural strength, stiffness and surface hardness, as well as resistance to abrasion, impact and nail pull. The product contains no formaldyhide and harmful ingredients in its composition.
Traditional gypsum wallboard is produced with a paper facing, but paper has significant shortcomings: it absorbs moisture in humid environments and can therefore support mold and mildew growth. Paper is also flammable. Therefore, this product is a far better choice than the current specialty papers to protect gypsum boards in demanding applications such as wet rooms and exterior building constructions. It offers a healthy and safe living environment.
Owens Corning Engineered Solutions leverages its leading position in glass fiber technology and non-woven mat manufacturing with a novel coating technology to deliver solutions for key segments and markets.
Market prospects of the new products: The residential and Commercial Building business within Owens Corning Engineered Solutions is focused on transforming the specific segment of the gypsum board market with the introduction of new value-added glass mats and coated mats to replace traditional paper-faced gypsum boards based on innovative technologies and partnerships with key customers. Coated fiberglass gypsum products are currently used for roofing, exterior, and interior building applications.
End-user product information---KCC Water Resistant Gypsum Board WATERWIN™: Application of the Glass facer technology enhances the resistance against water and fungus. The products can be installed in places of high humidity, such as bathroom and balcony.
  (1) Perfect blockage from water. Special external material and water resistant gypsum makes it possible to be used as the final outer layer for a wall.
  (2) Tile adhesion is enhanced. Compared to the paper gypsum board, tile adhesion to Glass Tissue is stronger.
  (3) Prevents fungus. Saves cost by decreasing additional waterproof construction.
Exhibitor: Owens Corning
Partner:KCC Gypsum

                     Glass Fiber Veil Coated Gypsum Board                   Owens Corning Glass Fiber Veil
    
 
11. Product Name: New Type30™ SE2307 Single End Roving for high  performance filament-wound epoxy pipe
A study of corrosion in China in 2001 estimated the annual cost of corrosion at 498 billion Yuan. China GDP that year was 9.6 trillion Yuan. That put China’s cost of corrosion at 5.2 percent of GDP. Common examples of corroding infrastructure include ruptured pipe, premature failure of oil pipelines. By employing optimum corrosion practices including greater use of composites, an estimated of 25 to 30 percent of the annual cost of corrosion can be avoided. China’s annual savings could then be as much as 1.3% of GDP.
The New Type30™ SE2307 Single End Roving is designed to contribute to this goal. Made with corrosion resistant boron-free Advantex® -glass, and developed for high performance epoxy pipe, SE2307 can be used in a broad range of application fields:
 --- Oil and Gas                         
 --- Water Distribution
 --- Infrastructure
 --- Marine
 --- Petrochemicals
 --- Energy and Power
One of the key requirements for the high performance filament-wound epoxy pipe is to have good hydro-thermo stability under pressurized condition for a long period of time (20+ years) for the installed pipe. The current single end roving products in the market often cannot meet this strict requirement.  In order to address the deficiency of the current products, Owens Corning initiated a program to develop the new single end roving for the pipe industry.  In addition to the improved long-term hydro-thermo stability, other properties were considered in the development:
 --- Good filament-winding processability: low wet process tension, little/no white streaks in the finished pipes, smooth pipe surface;
 --- Little/no fuzz with low unwinding tension
 --- Good pipe burst strength
 --- Good cyclic fatigue strength for the pipes.
 --- In order to achieving the broad range of goals, the development took into account a number of desired attributes from the sizing chemicals. These may include:
 --- Functioning as a toughening agent for the thermoset resin
 --- Possessing high functional groups for effective cross-linking to bond glass and resin matrix
 --- Serving as an effective wetting agent to improve fiber/matrix compatibility
 --- Enhancing the hydrophobicity of the sized glass surface to improve water resistance
 --- SE2307, made with boron-free Advantex®-glass, will provide excellent corrosion resistance, increased service life to the filament-wound pipe installed in the field; and will reduce the material cost and pipe waste for the pipe industry.
Qualification trials done by a major pipe end-user have demonstrated that SE2307 has low winding tension, little fuzz and good processability in the filament-winding operations. The finished pipe samples showed smooth surface with little white streaks and good mechanical strength performance, and confirmed the results of the previous Owens Corning internal evaluations. 
The high performance epoxy pipe market is a dynamic complex market, using the epoxy resin with 3 different curing systems (aliphatic amines, aromatic amines, and anhydrides) and supplying 4 different industry: power & energy (refineries, power plants, off-shore platforms), industrial (petrochemical), transportation (marine) water distribution (water desalination, water treatment, sewage, etc).
End users needs are high mechanical properties, durability, corrosion resistance, low weight and meeting standards.
The new Type30™ SE2307 Single End Roving will enable Owens Corning customers to produce high performance pipes, meet the most demanding industry’s requirements, reduce costs, and enhance product life cycle.
Exhibitor: Owens Corning
 
  
 
12. Product Name: The Framework Antenna Cover
This antenna cover used in the field of aerospace is developed by Shanghai FRP Research Institute Co., Ltd
This product features a multi-layer frame structure which hasn’t been found in China. It has high mechanical properties, high transmitted electromagnetic wave, anti-radiation and resistance to high & low temperature shift requirements, and it is a functional structure. The project team integrated mechanical, electrical, material, process and mold design to ensure that the product meets its using requirements.
This product is used in satellites, space shuttles and other equipment. It has electromagnetic wave transmissivity of 98%, and can withstand the maximum gravity acceleration (7-8g) caused by rocket launching, high and low temperature (±120oC) impact, long-term high and low temperature shift.
The customer (804 Research Institution) has a very high evaluation for this final product, and there are related subsequent model products and orders from the customer.
Exhibitor: Shanghai FRP Research Institution Co., Ltd.
Partner:804 Research Institution
 
  
 
13. Product Name: Long Fiber Reinforced Plastic Pallet
Unitization implement of packaging of scattered goods.
Recently, most of the domestic and abroad pallets are made of wood; a small number of them are made of pure plastic or metal. But none of these pallets can meet the requirements of high load bearing and light weight at the same time.
  (1) We are the first domestic manufacturer of high-performance fiber reinforced composite pallet.
  (2) The product, long fiber reinforced plastic pallet, is produced by the advanced online injection molding. The fiber length remained in the product is 10mm~50mm. The pallet can be used without auxiliary steel tube, and its weight is 20% less than other pallets of same load level.
  (3) The pallet possesses the property of high strength, high tenacity, high impact resistance and excellent load bearing. Its dynamic load is 2000kg; rack load is 1500kg and static load is 8000kg.
  (4) With its excellent cryogenic property, the pallet can be normally used in the environment of -40oC.
  (5) The use of the RFID electronic tag is convenient for the logistics management.
  (6) It has better decay resistance, waterproofness, moisture resistance and grease proof. It has smooth surface which is easy to clean.
  (7) The favorable aging resistance greatly increases its turnover cycle and the service life. In normal condition, it can be used for 10 years, which significantly reduces its use-cost.
  (8) The combined type makes it more flexible. It is free to expand the pallet’s specification, free to add the anti-skidding unit. Turn the pallet into the nested structure can save the space of transport.
  (9) The product is more environmentally friendly. It can reduce deforestation and reach 100% recyclability, which reduce our impact on the environment and provide a sustainable development solution.
  (10) It has comprehensive cost advantage.
The technique data:
  (1) The product has been texted by National Packaging Product Quality Supervision and Inspection Center and China Packaging Research & Testing Center, passed the Bending Test, Fork Lifting Test, Stacking Test and Corner Drop Test, which adopting the latest international standard of ISO8611. The test results are all much better than other similar plastic products. The number of recycling time is much higher than common plastic pallets and wood pallets, which makes its integrative cost lower.
  (2) The product matched the request of PONY Test ROHS 2011/65/EU, passed the determination progress of limited substance content in electrical and electronic products of IEC62321 Edition 1.0:2008. The product has not related heavy metal and harmful elements, and no effect on the environment and ecology.
  (3) The product can be reclaimed 100%.
  (4) The product has an excellent cryogenic property without any damage in drop test at -40℃, which supplements the vacancy of plastic pallets in cold chain industry of our country.
  (5) The use of the product will supplements the vacancy of high performance and high quality pallets of our country, furthermore, it will decrease the physical distribution cost greatly, increase the profit margin of manufacture industry, play an inestimable effect to the economic development of our country.
Since the product was put into the market, customers are very satisfied about its ratio of load bearing and self-weight, and give high integrative performance evaluation. Now the pallet market is developing quickly, there are still numerous insufficiency cannot be satisfied every year. The product has a characteristic of lightweight and high strength, with low cycle cost, could satisfy most demands, has wide market prospect.
Exhibitor: Beijing Sinoma Composite Auto Parts Co., Ltd.
 
  
 
14. Product Name: Carbon fiber composite materials automobile wheel
Using carbon fiber composite materials automobile wheel, it can greatly reduce the weight, and make the car wheel to be good damping performance and toughness. It will improve the strength of the wheels and security, in order to achieve the purpose of energy conservation and emission reduction.
This project implementation will break through the key technology of the low cost carbon fiber composite wheel’s mass production, form the pre-production ability of carbon fiber composite wheel and lay a solid foundation for the industrialization process. meanwhile, it will vigorously promote our country carbon fiber industry chain upstream and downstream technology development and market development, create economic value for the enterprise and the local industry development, provide technical support and guarantee to the transformation and upgrading of automobile industry and composite material industry to meet the need of the "Twelfth Five Years" plan and other strategies. So far, in the future technology blueprint of the world major automobile manufacturers, they will use a large number of carbon fiber composite materials to realize the lightweight and high performance qualitative breakthrough.
The product passed our own test and the test of the XIAMEN WIEL SPORTS CO., LTD. The result of carbon automobile wheel hub’s impact test: height of the fall: 230mm, tire press: 2.0kgf/cm2, weight limit: 690kg, test load: 690kg. No abnormality in test result. The wheel hub’s road test: 1500kg load capacity and riding 3000 kilometers, no abnormality. The wheel hub’s bending fatigue test: no crack after 250,000 times’ twisting left and right.
Carbon fiber is a new type of composite material; it has the feature of light weight, high strength, and high stiffness, designability and better formability, which makes the product structure more efficiency. It is estimated that by 2025, most of the world's car body and main structure of the chassis will use carbon fiber composite materials. The material revolution of the car will overturn the process of stamping and welding. It has a profound impact on speeding up the design and application of lightweight treduction, improving the overall level of our auto industry, as well as improving the international competitiveness of the auto industry and promoting our national industry.
Exhibitor: XIAMEN HONGJI WEIYE INDUSTRIAL CO., LTD.
Partner:Ningbo Institute of Materials Technology & Engineering Chinese Academy of Sciences; China Aviation Industry Group Beijing Institute of Aerial Materials; China National Petroleum Corporation Jilin Branch
 
  
 
15. Product Name: Low-E translucent FRP panel
Used in industrial roofing skylight and wall, institutional roofing skylight and wall, roofing and window of transportation vehicle, etc.
  (1) Compared with the domestic products: a) it is the first domestic low-E translucent FRP panel; b) it retains most of the visible light transmission, while shielding the room from most of IR (infra red) and UV (ultra violet), reducing thermal efficiency and the usage of air condition; c) Low temperature coating technology is invented to avoid the damage of resin structure;
  (2) Compared with the foreign products: there is no information shows that there have similar products exist at abroad.
  (3) High temperature coating technology and film technology are widely used in low-E glass, but high temperature coating technology is not suitable for FRP panel that mainly made by high polymer material.
  (4) Approximate ratio in sunlight: IR 50%--55 %( mainly thermal energy); visible light 45%---50 %( mainly light); UV 2%---5%;
  (5) It has the test report of CBMTC (Chinese building material test center);
  (6) The application of patent is pending.
With light weight, high strength and easy installation, FRP translucent panel is popularly used in the roofing and walls of public, industrial, and civilian buildings and applied to transportation vehicles by parts.
Traditional FRP panels do not have the function of blocking IR from outside, which may cause a lot of IR enter the room and waste energy. On the contrary, Low-E translucent FRP panel can help to reduce an ineffective energy waste of the air condition.
Exhibitor: Suzhou More V Composite Material Co,.Ltd
Partner:Hebei More V Composite Material Co,.Ltd
 
  
 
16. Product Name: SMC Pure electric car batteries box of assembly
This product is used for pure electric vehicles, used to protect the whole battery pack from sealing, waterproofing, and insulation effect and so on.
  (1) Choose special hollow glass beads as SMC material packing, SMC density is 1.45 g/cm3, 26% lighter than the common SMC. 
  (2) Formulated with a surfactant, to reduce the surface tension of the mixed slurry, the material glass content can be 47%, the intensity was significantly higher than that of the SMC material on the market (the highest fiber content of only 30%);
  (3) In the case without any bolts or fastening connector, using a special glue the battery compartment with internal and external metal bond. The battery box assembly has been tested and can withstand enough pressure, eliminating the need for a battery pack the extra weight due to the connecting parts.
The total investment of this program is 1.35 million yuan, payback period of 30 months and three years of cumulative added profit 1.6 million yuan, 975,000 yuan new tax.
Using SMC materials produced electric car battery box assembly in pure electric vehicles, reduces vehicle weight, saves a lot of energy in the process of moving, meanwhile making long-term electric vehicle battery life;
Our company participates in the pure electric vehicle SMC battery box of this application field in initial period, and declared national patent and the patent number is 201210071711.9.
Received second. class prize of 2012 annual Shanghai building material industry technical innovation awards
With more and more car makers to the attention of the car lightweight, SMC materials in electric car battery pack pure applications, will replace metal. At present our company is one of the leader in this field .we have researched SMC material properties, moulding the continuous improvement of the technology, efficient management, effective price control measures for many years, for my company in pure electric cars in the future of the auto parts assembly trolley on the series accumulates promotion to lay a solid foundation, also for the future in the electric car in other parts SMC promotion created a good platform.
Exhibitor: Shanghai Yaohua Dazhong Advanced Materials Co., Ltd.
 
  
 
17. Product Name: CFRP lasso
Applied in construction field, carbon fiber structure has the feature of qualitative light, durable, high strength, and can reduce the consumption of good performance by using less steel. At the same time, carbon fiber structure can effectively increase usable floor area.
Compared with the traditional structure technology, carbon fiber structure technology has the following advantages:
  (1) High strength and light weight. The density of carbon fiber composite materials is lighter than 1/5 of the steel, while the strength is 8-10 times of the steel; Carbon fiber cloth is light and thin, and the reinforced process basically do not increase the weight and size of the structure, and it also won't reduce the effective space of the building.
  (2) Good durability. Carbon fiber composite material with good stability. It has good resistance to alkali, acid, salt, and other chemical corrosion. This character makes carbon fiber composite material has great advantage in corrosive environment.
  (3) Great fatigue resistance. The fatigue strength of ordinary metal is 40% ~ 50% of its tensile strength, while CFRP material’s is 70% ~ 80% of its tensile strength.
  (4) Damping performance is good. CFRP has high natural frequency of vibration, which can avoid early resonance. At the same time with its high internal resistance, it can reduce quickly after excitation.
  (5) Less consumption of steel, and saving energy. The maximum force of CFRP composite core can reach 708 N. As is known to all, "tension" is more beneficial than "pressure" to steel. In real life the rebar in building is pressed, which need a lot of rebar to reinforced; the rebar in CFRP lasso Suspension building is in tension, at the same time the strength of carbon fiber composite materials is 8-10 times of the steel. Therefore CFRP lasso Suspension building can greatly reduce the usage of steel.
  (6) Increase the usable floor area. With the small size of the skeleton of the building, we can effectively increase the usable floor area of the room. What’s more, the bottom of the building is off the floor, and our building does not need foundation on floor. Its foundation is converging on the high tower in the middle, which can save lots of the materials.
  (7) Widely application and facilitating construction. This kind of reinforcement technique can be widely used in various structure types, all kinds of form and each place in the structure; and it will not change the form of and the appearance of the structure.
  (8) Increase the beauty of the architecture. The full-glass decoration outside the building will increase the daylighting effect.
The built of CFRP lasso suspension building highlights the lightweight and high strength of CFRP, increases the usable floor area and makes the building more artistic. At the same time, it greatly reduces the usage of steel and other resources. It fit the principle of energy conservation and emission reduction, and also satisfies people's aesthetic pursuit.
Exhibitor: Nanjing Loyalty Composite Equipment Manufacture Co., Ltd.
Partner:Fareast, DSM, State grid,Zhongfu lianzhong Composite, YuanSheng, etc.
 
  
 
18.    Product Name: Low Density SMC Molded Big Motorboat
Used in transportation field.
Technology characters:
The density of the SMC material for the big motorboat is only 1.4g/cm3 which is much lower than other ordinary SMC material (1.85 g/cm3). The low density significantly reduces the weight and makes the product in accordance of the light weighting requirements. Meantime, the mechanical properties are very good, truly light and strong. The product use once-molded technology with short production cycle and can be put into mass production. As a SMC product with great bulk, the big motorboat requires a very high performance of the press equipment. The hydraulic press must have a big work table and a high distance. Viewed from the molding process, products of great bull also make very strict demands. In order to increase the surface hardness, the inmold coating is applied during the molding process. The product would get a painted effect with high solidity during the molding. That would reduce the operating steps and also save the labor cost. Low density SMC Molded Big Motorboat has a strong character of innovation in raw material, technology, equipment and inmold coating.
Major indicators,
  (1) fiber glass content: 27±3%
  (2) density: 1.4±0.05g/cm3
  (3) tensile strength: ≥90 MPa
  (4) flexural strength: ≥170 MPa
  (5) flexural modulus: ≥9 GPa
  (6) shrinkage: 0-0.06%
  (7) color: Black
In economic, instead of traditional manual lay-up, the once-molded technology is more high efficient and of high economic value.
In environmental and ecological aspects, this kind of molding technology highly raises the productivity, improves the working environment and also reduces the labor cost.
In current market of motorboat, hand making is still the main technology which has many shortcomings: poor environment, low-precision, low-efficiency, low- reliability and so on. Our product can avoid such defects of hand making by utilizing advanced high-performance SMC material and molding process. New motorboat with low-density but high strength can replace the old handmade products and would certainly have a good market.
Exhibitor: Zhenshi Group Huamei New Composites Co., Ltd.
 
  
 
19. Product Name: carbon fiber porous structure integral/overall forming components
Used in aerospace and aviation, shipbuilding, mechanical engineering, unmanned aerial vehicles, weapon components, electrical equipment and robots.
The complex construction forming can be realized by means of three dimensional braiding machine and hot pressing forming technology, however, due to the expensive equipment cost, high processing cost, low mass production capability and complicated post-processing of the three dimensional braiding machine and the autoclave, many enterprises are faced with a situation that they have design but don’t have production capacity. By means of this patented technology, the problem of product’s forming difficulty after designing of the enterprise which has no three dimensional braiding machine equipment is solved. This technology is applicable to the forming of structural products which have structural complexity, many mechanical points of support, large curved surface of the contour, high strength and light weight. The components of space joint/connector, unmanned aerial vehicle empennage, main girder, and aerofoil etc. which are produced by means of this technology are characterized by integration forming (without binding point), structural complexity, high strength, light weight, low forming cost and so on.
The space joint/connector designed and manufactured for an institute of Aerospace Science and Technology Corporation has received praise and approval of the related leaders.
Many domestic police and civil UAV (unmanned aerial vehicle) manufacturers have already been equipped with the high strength, ultralight unmanned aerial vehicle components.
The UAV cone-shaped main girder has been tested and verified on the long voyage unmanned aerial vehicle.
This technology can meet the requirements of material replacement and structural forming for the products categories of large-size engineering machinery (robot joint arm), military launcher, long voyage unmanned aerial vehicle, robot and weapons.
Exhibitor: Shandong Shuangyi Group Co., Ltd.
   
  
 
20. Product Name: Continuous fiber reinforced nylon 6 composite floor pan of electric cars
Lightweight structure technology for the body of electric cars is one of the most effective ways for energy saving and improved driving performance. The floor pan, as a primary structure part, contributes to a significant reduction in body weight. The product of continuous fiber reinforced nylon 6 composite floor pan can be used for electric cars with monocoque body or body chassis frame construction. The manufacturing process can also be extended to fabricate other types of automotive panels and be applied in other fields.
Fiber-reinforced composites have been widely used in aerospace, navigation, national defense, automotive, civil engineering and other fields due to their excellent properties such as light weight and high strength. The composite floor pan of electric cars manufactured by thermoset epoxy composites has many problems such as long cycle time, low-lever automation, poor impact resistance, release of VOC and poor recyclability, which limit its application to a great extent.
Conventionally, it is assumed that continuous fiber fabric has a difficulty in handling and is inappropriate for mass production, although it is excellent in strength and stiffness. Continuous fiber reinforced nylon 6 composite floor pan is produced by a rapid and low-cost process of RTM incorporating in-situ polymerization of caprolactam monomers, which transplants the process of traditional thermoset composites to the manufacturing of thermoplastic composites. A 3~60min molding can be achieved by maintaining the polymerization and crystallization system of monomers. This short cycle RTM process is suitable for automotive parts made of continuous fiber reinforced thermoplastic resin, which will enable the mass production of primary structure parts with high mechanical properties in a high-lever automation.
Mechanical properties of continuous GF/APA6 composites (glass fiber plain fabric) :
 --- tensile strength: 440.23 MPa; tensile modulus: 22.02GPa;
 --- flexural strength: 424.73 MPa; flexural modulus: 23.78GPa.
Mechanical properties of continuous CF/APA6 composites (carbon fiber twill fabric) :
 --- tensile strength: 957.18MPa; tensile modulus: 52.19GPa;
 --- flexural strength: 495.89MPa; flexural modulus: 38.02 GPa.
With the challenges of safety, energy saving and environmental protection in the global automotive industry, electric car technologies are a strategic part dramatically reducing the energy and environmental burdens. Thermoplastic composite constructions open up great potential in electric cars for weight reduction, which have been growing steadily, especially in automotive and aerospace applications, due to their recyclability, improved impact resistance and rapid processing ability. At present, discontinuous fiber-reinforced thermoplastic composites have been widely used to manufacture secondary structure parts in the automotive industry, while primary structure parts such as floor pan have an increasing demand for continuous fiber-reinforced thermoplastic composites to meet the requirements for high mechanical properties. The continuous fiber / nylon 6 composite floor pan can be fabricated in a mass production rate by RTM with in-situ polymerization, which overcomes limitations of manufacturing and cost associated with traditional continuous fiber-reinforced composites. It shows great potential in industrial applications and will further promote the development of new markets for composite in the range of tens of billions of RMB.
Exhibitor: Ningbo Institute of Material Technology & Engineering, Chinese Academy of Sciences
 
  
 
21. Product Name: High Pressure Vessel
Low weight cylinders for CNG vehicles
Zero Permeation Lightweight Compressed Natural Gas Composite Cylinder
Type 4 Gastank™ 32 cylinder produced by Gastank Sweden AB using:
 --- zero permeation liner made of Akulon® Fuel Lock from DSM
 --- fully wrapped composite vessels made of high performance HiPer-tex™ fibre from 3B-the fibreglass company
Characteristics of Gastank™ 32:
 --- United Nations ECE R110 certified for use on board of vehicles
 --- Service pressure: 200 bar
 --- 57% lighter than the same capacity steel cylinder
 --- No loss of gas via permeation (tested by Powertech Labs Inc. Canada)
United Nations ECE R110 certified for use on board of vehicles
The product is the light CNG (compressed natural gas) vessel for vehicles. It belongs to the IV type vessels, not the domestic II type vessels:
  (1) It is made from high strength fibers, not ordinary fiberglass, produced by 3B;
  (2) Special techniques were used for the connection between the valves and the inner containers to prenvent leak ( The specific technique is the trade secret);
  (3) The use of inner containers with good high temperature resistance and zero penetration.
Greenes: Very good product regarding weight and CO2 emission
Exhibitor: Gastank Sweden 
Partner:3B-the fibreglass company
 
  
 
22. Product Name: Modified polyurethane composite tower (scale model)
They can be used for 110 KV and 220 KV power transmission lines. They have lighter weight, excellent corrosion resistance and better electrical insulation compared with traditional power transmission tower made of steel.
At present more pull linear composites towers are used in European and American countries, which covers large area. Traditional metallic towers need wide line corridor because of their poor insulation performance. The width of line corridor is hoped to be reduced under the premise of their stiffness and strength to save the land resources for our country has litter available land area per capita. No pull linear composites towers can reduce the lines corridor width maximally under the premise of their stiffness and strength through the structure optimization.
Using polyurethane as matrix, the composite materials' interface bond properties can be improved efficiently, thus improving mechanical properties, electric insulation resistance performance and environmental aging resistance performance of the composite materials. Using glass fiber small angle winding forming process can give full play to the enhancement role of axial fibers and improve effectively the axial stiffness of the tower. After testing, all the technical indexes can reach use requirement of transmission line tower. This large composite materials tower has been developed successfully for the first time in China, and has been set up and put into operation in Jiangning base of State Grid Corporation of China.
The composite materials tower was designed by Wuhan Nari LLC of State Grid Electric Power Research Institute, and resin matrix of the tower is modified polyurethane prepared by Wuhan University of Technology.
The electrical performances are test by electrical equipment testing center of the State Grid Electric Power Research Institute and the mechanical properties are test by the China Electric Power Research Institute.
Composite materials towers have been widely used in Europe and America because of their excellent comprehensive performance. While in China,composite materials tower has been listed as one of catalogue of the key products in resin matrix composites materials fields of new materials industry During the 12th Five-Year Plan. Both low level (12KV and 35KV etc.) composite materials tower and higher level (110KV and 220KV etc.) composite materials cross arm have been put into operation. All-composite materials transmission towers of 110KV and 220KV have a broad application prospect.
Exhibitor: Wuhan University of Technology, Wuhan Nari LLC of State Grid Electric Power Research Institute
 
  
 
23. Product Name: Carbon Fiber Imaging Mirror Shell
Used in High-precision imaging mirror
The main materials of imaging mirror shell are high-performance carbon fiber reinforced epoxy composites, with a zero-expansion design. The main shell structure is made up of cylindrical segment, tapered section and cylindrical section. the top and the middle parts of the shell has separately a triangle circumferential valgus flanges, between which three longitudinal ribs are uniformly distributed along the product circumferential surface ,and the three longitudinal ribs also exists between the bottom and the middle valgus flanges.
The domestic like products are made ​​of metallic materials. Foreign products are also metallic materials. The information of such composite products cannot be found.
This product is innovative in the mold design technology, the one-piece molding co-curing technology.
The working environment of imaging mirror shell is severe:
Working temperature: -55 ~ +100℃.
Storage Temperature: -110 ~ +100℃
Working humidity: ≤ 85%
The products are accepted upon examination and meet the design requirements. The products have been delivered to the users and meet the usage requirements.
The product may be applied to other aerospace components and products for civilian use.
Exhibitor: Harbin FRP Institute
 
  
 
24. Product Name: Thermoplastic Composite Materials Small Wind Turbine Blade
Wind turbine blade is a critical component of wind power system equipments. The manufacturing cost accounts for 20-30 percents of the fan’s total cost. At present, the forming manufacture of thermoplastics small wind turbine blade mainly adopt injection technical skill with low cost, environmental protection and recyclable and suitable for the small size thermoplastics wind turbine blade structures. The design advantage of the integration between overall structure and processing molding is widely designed and used especially in the small wind generator and wind-light complementary system integration technology. Material selection: long class fiber reinforced polypropylene composites (PP-40 LGF). Injection molding manufacture small wind turbine blade. The company can produce thermoplastics Composite materials small wind turbine blade of 0.46-2.35m.
Long Glass Fiber Reinforced Thermoplastics, LFT is high-powered glass fiber reinforced thermoplastic composites with outstanding character of light-quality, high-performance, low-price, easy-recycle and available in cycle and repeat as well as a new materials with high performance, engineering and environmental which can replace some expensive nylon engineering plastics and metal materials. Meaning while, it has the advantage of high specific strength, specific modulus, good impact resistance, low shrinkage rate of mode and good heat resistance and is able to design and produce the material according to different functional requirements. The products contain the advantages of stable size, low warping degree, good fatigue resistance and available in creep which therefore are more and more widely designed and used in the half-structure and full-structure compound material.
After many years of technology research and application study by Beijing Nashengtong Advanced Materials & Technology Co. Ltd, company has solved the critical core technology of melt dipping and scattered of the long fiber. By using long glass fiber reinforced polypropylene composites (PP-40 LGF) instead of the normal short glass fiber reinforced polyamide (PA6-30SGF) injection pre-forming manufacture small wind turbine blade, we fulfilling the good interface bonding (chemical and physical) of fiber and thermoplastic. Our product has passed the test of the authoritative testing department (American SGS Company), which makes a test of the blade materials and structure design features, mechanical properties, weather resistance and corrosion resistance and other performances. The experience results show that:
Using LGF-PP thermoplastic Composites manufacture wind-light complementary generate system integrate technical small wind turbine blade has better comprehensice mechanical properties and pre-forming properties. Especially with low density, high rigidity, good low temperature resistance and anti-impact properties, good creep degeneration resistance and the comprehensive cost of production reduce 30 to 40 percents. Thus we can substitute it for the small wind turbine blade that manufactured by short glass fiber reinforced polyamide (PA6-30SGF) completely.
The former of the notched impact strength of the cantilever beam increases 2 times compared with the latter under normal temperature. The former of the notched impact strength of the simple beam increases 2.7 times compared with the latter under normal temperature. The former increases 3.44 times compared with the latter under the same low temperature(-60℃). The former is less than the latter in the tensile strength and tensile modulus. The both are almost near in the bending strength and bending modulus. The former is less than the latter of 100 times in bibulous rate. The former is less than the latter of 10 times in die shrinkage rate. The former reduces the weight nearly 20 percents than the latter. The weather resistance, low temperature resistance and corrosion resistance of the former is better than the latter.
Through our company’s strict test of the materials and products so as to realize quantities production of the small wind turbine blade which have fully reached the structure design of small wind turbine blade and a series of performance requirements. The comprehensive performance exceeds the performance of normal short glass fiber reinforced polyamide (PA) engineering plastics used by small wind turbine blade. And get satisfied success and consumer’s high praise. Guangzhou Red Eagle Wind Energy Technology Company, Yang Zhou Shenzhou Wind Turbine Co., LTD and Jin Hua Zhong Public Power Science and Technology Co., LTD have used this production of 50,000 pieces which have realized the engineering practical applications.
This innovative scientific research laid an important foundation for the domestic to realize the high performance and homered of small wind turbine blade production and had very significant scientific meaning and important economic value. It will bring more contribution to the development of wind-light complementary generating system integration technology small wind turbine industry of our country.
Exhibitor: Beijing Nashengtong Advanced Materials & Technology Co., Ltd.
Partner: Beijing Chemical Engineering Technology University
               Guangzhou Red Eagle Wind Energy Technology Company
 
  
 
25. Product Name: Carbon/Carbon Crucible
The product is a container and a bearing component in the high temperature, which is used in the single crystal silicon furnace of the photovoltaic and semiconductor fields and the metal melting furnace of the metallurgy field and so on. The main effects are the double potency of the structure and function use in the high temperature.
Compared with the like products in the domestic and oversea, carbon/carbon crucible of the Xi’an Chaoma Technology Co.,Ltd. (Chaoma Technology) has the following innovation and key points in the technology aspects.(a) optimization structure designing—this innovation provide the users with convenience for the detach frequently and save the using space of the furnace; (b) unique carbon fiber preform confectioning, which can prevent the product from laminating and craking and improve the thermal transmission efficiency; (c) quickly uniform densification process — shorten the densification cyclic and reduce the production cost; (d) erosion resistant processing, which can advance the properties and prolong the service lifetime of the crucible.
Service lifetime is the main index for the carbon/carbon crucible as the bearing component in the furnace. According to the static data, the servile lifetime of the Chaoma Technology's 20 inch carbon/carbon crucible is over 150 furnace times, which is 6 times than the import iso-pressing graphite crucible's 25 furnace times and 2.5 times than the like carbon crucibles' 60 furnace times in the domestic and oversea. Also the each furnace cost is half less than the import iso-pressing graphite crucible's. In a word, the carbon/carbon crucible of Chaoma Technology has an obvious performance-cost advantage.
Each performance index above reaches the advanced level in the domestic and abroad. The process implementation is very intensive as the producing cost is very low of the carbon/carbon crucible. There are no waste slag and spent water in the production process. Neither environmental hazard nor ecology backlashes has in the entire producing and using procedures. So the carbon/carbon crucible is environmental friendliness and ecofriendly.
Chaoma Technology explored the carbon/carbon crucible in 2007 and the product's technology is in the international level through years of research. Hundreds and various specification of carbon/carbon crucibles have been offered to the many single crystal corporations in domestic. Chaoma Technology has created the long-term corporation relationship with several single crystal companies.
The market demand of the carbon crucible is huge, which has a extensive market prospect and several billon potentiality. After a large-scale production, the productivity for carbon crucible of Chaoma Technology has reached 2000 sets per year, and the sales income, net profit, tax are 1~2 hundred million yuan, 1500-4000 ten thousand yuan and 700-1500 ten thousand yuan, respectively. In general, the carbon/carbon crucible has the unlimited economic returns.
Exhibitor: Xi’an Chaoma Technology Co., Ltd.
 
  
 
26. Product Name: Open-close Mould for FRP Pipe
As the prerequisite to the production of FRP pipe, the open-close mould is mainly used to manufacture the FRP process pipe, RPMP, liner and body of the FRP tank.
A series of process in the FRP pipe production, such as the liner making, winding, curing, trimming and demoulding, are depend on the mould, so consider with the FRP pipe production cost, the mould is the key factor for the FRP pipe manufacturer.
The traction slider of the oil tank moves up and down, which adjust the perimeter of the open-close mould and change the mould diameter. Open the mould to the maximum to do the series manufacturing process of liner making, winding, curing and trimming. Then close the mould to the minmum size, which can make the mould separate with the pipe. After that, the simple demoulding work will be ok. The innovation contains:
  (1) When open-close mould is used to make the FRP tank liner, it is multiuse. There are two ways to make the liner of the FRP tank at present: the first one is spraying. This way should adopt the tank mould. One diameter mould can only make one diameter tank, and so you need moulds with different diameters if you want to make different tanks, which will vastly increase the production cost. The other way is hand lay-up process. By this way, the tank’s liner of any diameter can be made. But as we can see, the labor cost today is increasing hugely, and so hand lay-up process will make the cost of the tank keep high level. While for the open-close mould, when it is closed, a seam can be left. So you can cut the liner along the seam and join again as you will. As a result, by using one diameter open-close mould, tank liners of many diameters can be made, which will largely decrease the fixed cost of the tank manufacturers. 
  (2) Reasonable Design. The FRP pipe mould at present mainly adopts the FRP outer shell and steel frame. The steel frame guarantees the stabilization while the FRP outer shell guarantees the dimensional accuracy. Open-close mould adopts one central shaft to connect and also support the steel inner ring. It satisfies the requirements of stabilization and dimentional accuracy, at the same time, it dones’t need the FRP outer shell. Compared with the common one, the cost of the open-close mould is almost same while the weight decrease around 40%.
  (3) Easy and simple to handle, increase the finished product ratio. The demoulding process for the common FRP pipe mould is: to hold the pipe bell end, then drag the mould from the pipe by the traction force. Through this way, because of the large friction between the inner liner of the pipe and the outer surface of the mould, the bell end of the pipe is easily to be damaged and then the pipe has to be scrapped. For the open-close mould, the demoulding process only be done after it’s perimeter has been decreased. So the friction between the outer surface of the mould and the inner surface of the pipe will decrease also, which will make the demoulding in high quality.
  (4) Wide usage range. The common pipe mould is used to manufacture only the FRP pipe. While open-close mould, it not only can be used for the FRP pipe, but also for the FRP tank because it has no taper.
  (5) Decrease the total cost of the plant. Compared with the common mould with the same diameter, the weight of the open-close mould decrease almost 40%. Based on this, FRP pipe and tank manufacturers can correspondingly adjust a series of relating steps, such as decrease the power of mould driving device, reduce the size of supporting device and design tons of the hauling-up device, which can decrease the cost in total.
DN: φ1000mm—φ4000mm
Length: 3000mm—12000mm
Max thrust of oil tank: 10T
Roughness of surface: Above
Exhibitor: FRP Building Material Co., Ltd.
Partner:Shijiazhuang Huaqiang FRP International Trading Co., Ltd.
 
  
 
27. Product Name: BluCure™ Technology
BluCure™ Technology is a sustainable resin curing technology with the novelty of being 100 % Cobalt free. It is officially launched and available to resin as well as composite component manufacturers worldwide.
DSM and AkzoNobel have officially launched the BluCure™ umbrella brand covering innovative Cobalt-Free resins curing technology and products.
These novel curing solutions are more sustainable alternatives to conventional, Cobalt-based systems. BluCure™ Products are either Cobalt-free accelerators or Cobalt-free pre-accelerated resins and meet strict criteria:
 --- 100% Cobalt-free
 --- Handling like conventional systems possible and therefore easy-to-use in composite manufacturing processes
 --- Applicable in multiple manufacturing techniques.
 --- No compromise on performance for cured products,
even better performance possible
 --- Not labeled as mutagenic, carcinogenic or toxic to human beings
 --- Do not contain chemical components listed in the SVHC List
DSM has been the first resin manufacturer in the world to introduce three pre-accelerated Cobalt-free resins for ambient temperature cure based on the BluCure™ Technology, being Atlac® 580 A 10 (VE resin for Hand Lay up), Atlac® 580 A 20 (VE resin for Vacuum Infusion), and Synolite™ 7877-P-1 (UP resin for Hand Lay up).
AkzoNobel has already commercially launched its Nouryact™ CF12 and Nouryact™ CF13 Copper- based accelerators, Nouryact™ CF20 Manganese-based accelerators, and presented recently to the market its novel Nouryact™ CF 30 Iron-based accelerators. All these are BluCure™ Products.
Anticipating increasing environmental pressure on Cobalt, both DSM and AkzoNobel have been working independently for years on the development of Cobalt free curing systems. Both companies have successfully scaled up the technologies and both have filed a broad range of patents covering many types of accelerator systems and materials, which form a strong basis of the unique BluCure™ Technology. 
In terms of overall mechanical, thermal and chemical resistance properties, Cobalt-Free laminates have similar performance characteristics as their Cobalt-containing equivalent. For some accelerators and resins, we have seen that the new systems even give a better cure than the Cobalt containing reference resulting in a faster buildup of Barcol and reduction of residual styrene. In some applications, this may eliminate the need for post-cure.
The BluCure™ Technology is easily accessible to all composite component and resin manufacturers around the world through license, both DSM and AkzoNobel, the two initiators of this novel & sustainable technology believe BluCure™ will be instrumental for ensuring the whole composite industry with continued profitable and sustainable growth.
By applying BluCure™ composite component as well as resin manufacturers can count on: 
 --- Continued process operations
 --- Being a good employer by providing a safe and healthy working environment for their workers
 --- No worries about environmental permits
 --- Operation and product environment friendly
 --- Creating value and continued profit
Exhibitor: DSM & AkzoNobel
 
  
 
28. Product Name: Winding Machine of Glass Fiber Reinforced Plastics Elbow  based on computer controller
The Winding Machine of Glass Fiber Reinforced Plastics Elbow based on computer controller is the newly developed machine of our company, which can wind various kinds of Elbow. The device can realize hoop winding and cross winding automatically. The yarn tension is even during the winding process. Elbow winding is formed at one time. The products have good quality and high strength.
Now the method of production for elbow are manual winding and manual paste etc. The quality of productions is hard to control, and the production efficiency is low, especially for the processing of medium and high pressure elbow. In our country many manufacturers are looking for the new technology and new equipment of automatic processing for glass fiber reinforced plastic elbow. According to the market demand, our company has developed a computer control fiber glass elbow winding machine. The machine has new structure that controls by 4 axes, which can make both hoop winding and cross winding; Winding parameters can be set according to the technical requirement; Calculations and processing of the winding pattern can be completed by the control system automatically. The yarn tension is even during the winding process therefore the products have good quality. The products which have good interaction between man and machine is easy to operate and has applied for patents for inventions, Patent No.2001 1 0261021.5, also has obtained national patent, Patent No.ZL2011 2 0331210.0.
  (1) Hoop winding and cross winding can be realized and the location of the   equipment is exact
  (2) Diameter range of the production: ø50mm~ ø300mm、ø300mm~ ø600mm.
  (3) Angle range of winding: 0 º~90 º.
  (4) Speed of winding: 25rpm.
  (5) Swing range of guide wire head: ≤90 º
  (6) Car speed of X, Y axis: Up to 20 m / min.
  (7) Total power: 3KW.
Resent years, many manufacturers are looking for the new technology and new equipment of automatic processing for glass fiber reinforced plastic elbow in order to replace manual operation, to improve product quality and production efficiency. All the equipments of automatic processing for glass fiber reinforced plastic elbow are imported, and are difficult to be accepted by general factory. The equipment produced by our company has good quality and is affordable. It can replace imported equipment completely to realize automatic processing for glass fiber reinforced plastic elbow.
Exhibitor: Jizhou Yifeng Spraying Equipment Factory
 
 
  
 
29. Product Name: Compression moulding complete equipment for on-line blended long-fiber reinforced thermoplastic composite materials
This complete equipment is mainly applied to promote compression moulding technology for on-line blended long-fiber reinforced thermoplastic composite materialsin domestic composites industry and automotive industry. This complete equipment can produce automotive structural parts and semi-structural parts via on-line compression moulding of thermoplastic composite materials. And the parts produced are of the features of light weight, high strength, corrosion resistance and impact resistance which can satisfy the performance requirements of automotive parts. Furthermore, the one-step moulding technology is of low cost, good designability, and high degree of automation, which can satisfy the automotive industry requirements of high yield, high quality and low cost.
Haiyuan compression moulding complete equipment for on-line blended long-fiber reinforced thermoplastic composite materials comprises:
  (1) Hydraulic press of thermoplastic composite materials
  (2) Two-stage twin-screw extruder
  (3) Long glass fiber on-line monitoring and delivering device; glass fiber cutting and metering device
  (4) Double-edged two-way high-speed blank cutting device
  (5) Far infrared ray heat-preservation conveyor with stepless speed regulation and mesh-belt type
  (6) Manipulator clips for holding and releasing materials
Compared to the similar equipment at home and abroad, this equipment’s main innovations are as follows:
  (1) Equipment technology and performance
    a) Twin-screw blending device for glass fiber and resin
 --- For the similar equipment abroad, the fiber feeding amount is decided by the screw rotating speed. The melt pressure fluctuates as the rotating speed varies; therefore, the glass fiber with set length is easy to be bent and cut. And the measuring accuracy of glass fiber is low, thus the quality of the parts produced cannot be guaranteed.
For Haiyuan equipment, a successive glass fiber fix-length cutting device is equipped besides the extruder; the fiber feeding amount is precisely decided by the cutter roll’s rotating speed.
High measuring accuracy (3g), tolerance ±0.1﹪;
The rotating speed and melt pressure of the screw won’t be affected; the glass fiber with set length is not easy to be bent and cut;
The number of fiber strands can be sensed; the rotating speed can be automatically adjusted to keep the extruding materials amount stable; if the number of fiber strands absented reaches 5, the device will automatically alarm and shut down.
 --- A special heat-preservation narrow-opening extrusion die is designed to have the glass fibers in the blended extruded blank array regularly. Compared to the parts whose glass fibers are irregularly arrayed, the parts with regularly arrayed glass fibers have a higher strength.
 --- Special-designed screw assembly and technological parameter can decrease the rate of fiber being bent and cut, increase the homogeneity fibers arrayed in the melt, realize a rate exceeding 50% of the glass fiber whose length is ≥10mm arrayed in the parts, and have the parts strength meet the property of high fluidity GMT materials with the same glass fiber content.
 --- Far infrared ray heat-preservation conveyor with stepless speed regulation and mesh-belt type can guarantee the heat preserved allocate evenly and thoroughly inside and outside the blank, therefore, the blank will keep the preferred temperature and fluidity during pressing. Meanwhile, the pressing force needed will reduce, the blank will fill up the cavity rapidly, and the rate of qualified products will increase.
    b) Hydraulic press of thermoplastic composite materials (which have already won Equipment Innovation Award 2011)
 --- Speed of pressing and returning can reach 800mm/s
 --- Time to reach the full pressure is <0.5s, which can meet the high speed and fast pressing requirements for producing on-line blended long-fiber reinforced thermoplastic composite materials.
  (2) Technology
    a) For the similar equipment abroad, the successive fiber is drawn by the twin-screw into the feeding inlet, and then the successive fiber is wound up by the twin-screw and meshed and cut by the mesh block. The fiber cut is enfolded by the melt to make sure it cannot disperse; after working for a long time, the cutter edge of the mesh block abrades, therefore the fiber length varies; the mesh block is located on the bottom of the cylinder body, therefore the detecting of abrading and the replacement are difficult.
For Haiyuan equipment, the successive fiber is cut before being fed to blend with the melt.
Arraying of fibers is more homogeneous.
Length of fiber can be maintained better.
If the cutter edge abrades, it will be detected in time and replaced conveniently.
    b) For the similar equipment abroad, the successive fiber is heated and dehumidified first, and then is carded and dispersed, therefore, the energy consumption is relatively high.
For Haiyuan equipment, the waste heat of the melt is used to heat and disperse the glass fiber, which make the air of waste heat convect with cut fiber via the air dispensation and material feeding pipeline.
This method is energy-saving.
Glass fiber and the melt film can be blended homogeneously and impregnated thoroughly, so as the parts strength will be higher.
Compression moulding technology for on-line blended long-fiber reinforced thermoplastic composite materials is no doubt an important way to realize automotive light weight. However, due to the monopoly by manufacturers abroad of this technology, the cost to import a compression moulding production line for on-line blended long-fiber reinforced thermoplastic composite materials is around 35 million. Therefore, this technology has not yet been widely applied in China because of its high expense.
Under this background, Haiyuan broke the international technology barriers to develop compression moulding complete equipment for on-line blended long-fiber reinforced thermoplastic composite materials successfully, to realize the localization and self-development of core equipment and fill in the gap of this technology in domestic China, which have a epoch-making significance in China automotive industry.
Exhibitor: Fujian Haiyuan Automatic Equipments Co., Ltd.
 
  
 
30. Product Name: SealX Tech
In many applications such as marine, industrial and wind turbine blades, core materials are increasingly used for sandwich production. Resin consumption on the core material’s surface has thus become a focal point. SealX is specifically optimized to respond to this development. The new sealing technology offers a dramatic reduction of resin uptake of the infused core material. While this reduction is above 50% for their AIREX® PET cores, it is reported to be above 80% for their BALTEK® SB and SBC balsa cores. Depending on sandwich design, resin uptake can constitute around 15% up to 40% of the infused core materials’ total costs.
Production Place: Switzerland
SealX Technology at a glance:
 --- resin uptake reduced by over 50 %
 --- substantial reduction in weight and cost
 --- high core-skin adhesion, unchanged by new SealX technology
 --- designed for resin flow processes (e.g. infusion, RTM)
The following diagram illustrates the resin uptake of dif­ferent PET core materials in the 100 kg/m3 density range. With a mere 0.4 kg/m2 the new AIREX® T92 SealX clearly outpaces any available PET core material and sets totally new standards.
New SealX technology has been extensively tested and proven. We have got DNV certificate for this new technology. Despite the reduced resin uptake, SealX features the same excellent skin adhesion as any conventional PET and Balsa core material. Furthermore, all mechanical properties of the core – including fatigue resistance – are unaffected by the new SealX technology thus assuring a smooth transition for customers wishing to profit from this new product.
SealX technology has been attracted interests among the clients since it’s first launched at JEC Paris 2012.
Per square meter of sandwich structure, AIREX® T92 SealX can reduce the resin uptake by some 1.2 kg. Over the entire structure this allows to substantially reduce a product‘s weight and cost - a rare combination! At the meantime, new SealX has set a new standard in resin uptake and total cost control.
Exhibitor: 3Tee Composites (Shanghai) Co., Ltd.
Partner:AIREX, BALTEK
 
  
 
31. Product Name: The composite closed mold bag pressure molding process
The company has used the invention patent produce a group of trial production of a molding reinforced structure. Its main uses are:1、The cylindrical body120 degrees stiffened structure:Can be applied in power industry, towers, lamp posts, masts and others. 2、Vehicle body、Fuselage reinforced a molding structure: Can be used for aviation, aerospace; car train; weight reduction, energy saving. 3、Bridge one-circle molding structure: Production of bridge deck, bridge, cuboid structure such as a aircraft wing boxes. 4、Wind turbine blade stiffened structure: For wind turbine blade, without bonding.
Composite material has been used to the outside shell or non bearing structure, but in today's international the development trend of composite material to the main load-bearing structure development, to large-scale development.
The technology will transfer resin impregnated fibers use compressed gas through single / multi air sac or bag to the pre-designed position, which is a new method that never been used before worldwide. The method achieved in the mold of posterior composites change to the original state, achieve the design patterns, create the ideal reinforcement structure, thereby improving the product structure strength, with the same resin and fiber was made of high strength member, suitable for mechanized production. It is a environmental-friendly low-cost process. Currently we have a group of trial production of a molding internal ribbed structure use new technology, specific as follows:
  (1) The cylindrical body120 degree stiffened structure:
The existing technology is mainly through pultrusion and filament winding. It is very difficult to process 90 degree ribs by pultrusion and 0 degree ribs by winding. It is not easy to process irregular shape cross section through two methods, while the inner stiffened structure cannot be made. Poor rigidity, the advantage of glass fiber and carbon fiber does not come out. However we developed a cylindrical body 120 degree reinforced structure, which can produce uniform and irregular cross section, 90 degree and 0 degree ribs, inside reinforcing rib simultaneously. It largely improves the stiffness and strength of products, especially the rod deflection. Node also well connected, only in the three sectors in the field production three fan-shaped, which is vital for the transmission tower. Its advantages including low production cost, less equipment investment and high efficiency.
  (2) Vehicle body, Fuselage reinforced one-circle molding structure:
The previous process uses metal materials as primary structure, composite materials mainly used to make secondary structure or skin and fuselage. we try to introduce one-circle molding of the vehicle body to form composite stiffened structure, reduce the usage of metal structure materials or manufacture full composite material body or vehicle main structure, reduce the weight of planes, cars and trains to achieve the purpose of energy saving.
  (3) Bridge one-circle molding structure:
Bridge, bridge deck, aircraft wing cuboid structure, we adopt a molding of large cross section structure, composite bridge deck are mainly FRP sandwich plate, connected with the Extrusion board, combination plate, and by using the patented process can produce large cross section, large span, one-circle forming bridge deck and bridge, to provide much the strength and fatigue properties.
  (4) Wind turbine blade stiffened structure:
The patented process one-circle forming blade can reduce the working load of existing technology. First to product two blades then bonded with reinforcement ribs. One-circle molding has higher intensity, and reduces the working procedure, less cost required。
  (5) Node: Node problem is always the bottleneck of the development of composite material constraints, the 120 degree cylinder reinforced structure achieve the connection between pipes through the composite bag pressure technology, the node will not destroy the original strength, and provide convenient multi-pipe connection. Ensure node torque perfectly combined with anti-tension, anti-torsion and anti-fatigue properties.
  (6) Cross arm: 120 degrees of stiffened structures produced by the cross arm can be coated with silicone rubber, improve the insulating property of cross arm.
High strength composite material is the most active part in new material subject. We adopt new technology of forming a series of structures including cylindrical within 120 degrees of reinforced structure, the bridge deck structure, vehicle body stiffened structure and blade stiffened structure. These will effectively promote composite material by the previous mainly used for enclosure and secondary structure, to the main load-bearing structure development, in order to reflect the composite lightweight, high strength, high fatigue resistance performance, and satisfy the mechanized production, low cost, in line with the national environmental protection and energy saving requirements, which will extend the application fields of composite materials, especially the development in the composite wire poles, towers, bridges, offshore wind power blades, cars, lightweight trains. Especially the joint problem solving, promotes the wide application of composites.
Exhibitor: Beijing Rainbow Yuxing Technology Development Co., Ltd.
 
  
 
32. Product Name: [CFRP] carbon fiber reinforced plastic molding press.
In July 2010 Japanese SANKI-SEIKO Corporation www.sanki-seiko.co.jp has successfully developed its 5minutes forming [CFRP] carbon fiber reinforced plastic molding press. This success lays a solid foundation for future light weighting of automobile production. Products are scheduled to enter the Chinese market next year. It will bring great changes to the carbon fiber reinforced plastic products production technology.
Speed, pressure can be adjusted with servo control in high precision. Compared with the traditional model, power consumption is reduced by 70% and above. Compression, achieved without mold weight interference, can be upper weight determination of pressure control function. Touch screen is designed with time chart format, through the screen running status can be conformed. At the same time, forming conditions and timer calendar, can also be set on the touch-screen. It can also remember 100 different product forming conditions. Complicated temperature control set is simplified through the touch screen. Forming condition analysis and data acquisition function are also included, data validation can be done from the touch screen without connecting to a personal computer. These features can also be used to record pressure, speed and temperature. The computer reads the data and carried out in Excel analysis.     By mounting the vacuum pumping device, not only can it obtain the vacuum conditions matches the products, but also the time, state, degree of vacuum and other related parameters setting. As an option, it also has mold temperature regulating function.
Autoclave (AC) can produce products, but cannot satisfy the users’ demand of low cost, mass production. The use of Sankiseiko production of carbon fiber reinforced plastic molding press can lower the molding time from more than 4 hours to now just 5 minutes, the cost of production is thus reduced by more than 50%.
Exhibitor: SNKI SEIKO CO., LTD (Shanghai office)
Partner:A Japanese Kanto technical industrial office, Challenge Co., Ltd.
Mitsubishi Rayon, Nissan Motor
 
  
文章来源:http://www.chinacompositesexpo.com/en/news.php?news_id=256