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  • PA66-NA-LCF30
    LFT-G PA66 Nylon66 compound Long Carbon Fiber 20%-60% higher performance injection molding
    Polyamide series Nylon is the common name of polyamide (PA), is the general term for thermoplastic resins containing repeated amide groups on the main chain of the molecule, including aliphatic polyamide, aliphatic aromatic polyamide and aromatic polyamide. As the first of the five engineering plastics, nylon has an extremely wide range of industrial applications, mainly used in automotive parts, mechanical parts, electronic and electrical appliances, cosmetics, adhesives and packaging materials and other fields. Among them, aliphatic polyamide, mainly nylon 66, is the most productive and widely used. Polyamide66 Nylon 66 (PA66) is a kind of polyamide formed by the condensation of adipic acid and adipdiamine. The molecular formula is shown in the figure Advantages: high strength, corrosion resistance, good wear resistance, and has self-lubrication, flame retardant, non-toxic environmental protection and other excellent performance. Disadvantages: poor heat and acid resistance, low impact strength in dry state and low temperature, water absorption greatly affects the dimensional stability and electrical properties of products. Long carbon fiber filling PA6 Long carbon fiber is an inorganic polymer material with more than 90% carbon content, which is obtained by carbonization and graphitization of organic fibers. The microstructure of long carbon fiber is similar to that of artificial graphite (C atoms arranged in layers). Advantages: light weight, high strength, high modulus, high temperature resistance, wear resistance, corrosion resistance, fatigue resistance, electrical and thermal conductivity, etc. Disadvantages: high cost, relatively difficult to infiltrate, poor transparency, defects difficult to check, etc. According to the source of carbon fiber, long carbon fiber can be divided into: Polyacrylonitrile-based long carbon fiber Asphaltic long carbon fiber Viscosified long carbon fiber Long carbon fiber composite material is a very useful structural material, it is not only light, high temperature resistance, but also has a high tensile strength and elastic modulus, is the manufacturing of spacecraft, rockets, missiles, high-speed aircraft and large passenger aircraft indispensable components of the material. It is also widely used in transportation, chemical industry, metallurgy, construction and other industrial sectors as well as sports equipment. Datasheet for reference The density of A66/CF composite material is less than 1.3, which is less than one sixth of the density of steel (7.85), achieving the purpose of lightweight, which is conducive to energy saving and consumption reduction. In the PA66/CF composite system, the length of CF is about 0.5 ~ 0.7mm, the interface between PA66 matrix and carbon fiber is fully combined, and nylon 66 is well wrapped around carbon fiber. The fracture surface of PA66/CF sample is rough, and the PA66/CF composite is a ductile material. Compared with PA66, the mechanical properties of PA66/CF composites are significantly improved. Trade fairs we attended Xiamen LFT composite plastic Co., Ltd. is a brand-name company that focuses on LFT&LFRT. Long Glass Fiber Series (LGF) & Long Carbon Fiber Series (LCF). The company's thermoplastic LFT can be used for LFT-G injection molding and extrusion, and can also be used for LFT-D molding. It can be produced according to customer requirements: 5~25mm in length. The company's long-fiber continuous infiltration reinforced thermoplastics have passed ISO9001&16949 system certification, and the products have obtained lots of national trademarks and lots of patents.
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  • PA66-NA-LGF30
    lft-g PA66 filled long glass fiber 30% specification Polyamide66 reinforced modified plastic
    What is PA66-LGF?  All through mechanical, physical, chemical and other effects to improve the original properties of nylon 66 can be called nylon 66 modification. Nylon 66 modified application range is also very wide, almost all the properties of nylon 66 resin can be improved by modifying methods, such as appearance, aging resistance, wear resistance, flame retardant and cost. Glass fiber reinforced modification is a common way to physically modify plastic materials. The glass fiber reinforced PA66 material not only improves the physical properties, but also improves the stability of products. Long Glass Fiber & Short Glass Fiber Nylon particles of short glass fiber: The size is about 3-4mm and the aspect ratio is 50-250 Nylon particles of long glass fiber: The size is about 6-25mm, with the aspect ratio > 400 In addition, the distribution of glass fibers in the two particles is also different. As shown in the figure above, PA GF 50 natural (2916) is a 50% short glass fiber material based on PA66 alloy, while PA LGF 50 natural (5504) is the corresponding 50% long glass fiber material. From the comparison of physical properties, it can be seen that the rigidity, strength and modulus have been improved to some extent. In particular, notch impact performance has been qualitative leap. Technological process Application Packing details Certifications Xiamen LFT composite plastc Co., Ltd Xiamen LFT composite plastic Co., Ltd. is a brand-name company that focuses on LFT&LFRT. Long Glass Fiber Series (LGF) & Long Carbon Fiber Series (LCF). The company's thermoplastic LFT can be used for LFT-G injection molding and extrusion, and can also be used for LFT-D molding. It can be produced according to customer requirements: 5~25mm in length. The company's long-fiber continuous infiltration reinforced thermoplastics have passed ISO9001&16949 system certification, and the products have obtained lots of national trademarks and lots of patents. For more information about LFT company, visit the company's website at www.lft-g.com. Thank you for your attention!
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  • PA6-NA-LCF50
    LFT-D PA6 Long Carbon Fiber modified plastic high toughness strength 12mm sample available
    What is PA6? Nylon6 (PA6), also known as polyamide 6, English name: Polyamide6 or Nylon6, PA6 for short; That is, polycaprolactam, obtained from caprolactam ring-opening polycondensation. It is translucent or opaque opalescent resin, with superior mechanical properties, stiffness, toughness, wear resistance and mechanical shock absorption, good insulation and chemical resistance. Widely used in automotive parts, electronic and electrical parts and other fields. What are the advantages and disadvantages of PA6? Main advantages of PA: 1. High mechanical strength, good toughness, high tensile and compressive strength. 2. outstanding fatigue resistance, parts after repeated bending can still maintain the original mechanical strength. 3. high softening point, heat resistant. 4. smooth surface, small friction coefficient, wear-resistant. 5. corrosion resistance, very alkali and most salts, also resistant to weak acid, oil, gasoline, aromatic compounds and general solvents, aromatic compounds are inert, but not resistant to strong acids and oxidants. 6. with self-extinguishing, non-toxic, odorless, good weather resistance. 7. Excellent electrical performance. Good electrical insulation, nylon volume resistance is high, high breakdown voltage resistance, in dry environment, can be used as power frequency insulation material, even in high humidity environment still has good electrical insulation. 8. light weight, easy to dye, easy to form. Main disadvantages of PA: 1. easy to absorb water. High water absorption, saturated water can reach more than 3%. The dimensional stability and electrical properties are affected to some extent, especially the thickening of thin-walled parts. Water absorption also greatly reduces the mechanical strength of plastics. 2. Poor light resistance. In a long-term high temperature environment, it will oxidize with oxygen in the air, turn brown at the beginning, and then break and crack. 3. injection molding technology requirements are more strict: the existence of trace moisture will cause great damage to the quality of molding; The dimensional stability of the product is difficult to control because of thermal expansion. The existence of sharp Angle in the product will lead to stress concentration and reduce the mechanical strength; If the wall thickness is not uniform, it will lead to the distortion and deformation of the parts. High precision of equipment is required in post-processing. 4. will absorb water, alcohol and swelling, not resistant to strong acid and oxidant, can not be used as acid-resistant materials. There are many advantages of PA6, but also many disadvantages, these disadvantages limit the play of the advantages, so people thought of modifying methods to enhance its application. What is the Long Carbon Fiber reinforced PA6? Long carbon fiber reinforced composites offer significant weight savings and provide optimum strength and stiffness properties in reinforced thermoplastics. The excellent mechanical properties of long carbon fiber reinforced composites make it an ideal replacement for metals. Combined with the design and manufacturing advantages of injection molded thermoplastics, long carbon fiber composites simplify the re-imagining of components and equipment with demanding performance requirements. Its widespread use in aerospace and other advanced industries make it a "high-tech" perception of consumers - you can use it to market products and create differentiation from competitors. What is the differences between Long Carbon Fiber and Short Carbon Fiber? Compared with the short fiber, it has more excellent performance in mechanical properties. It is more suitable for large products and structural parts. It has 1-3 times higher (toughness) than short fiber, and the tensile strength (strength and rigidity) is increased by 0.5-1 times. TDS for reference only Application cases Product details Number Color Length MOQ Sample Package Port of Loading Delivery time PA6-NA-LCF50 Original color or as required About 12mm 20kg Available 20kg/bag Xiamen Port 7-15days after shipment Frequently asked questions 1. The product is easy to brittle, so changing to use long fiber reinforced thermoplastic materials can solve this problem? A: The overall mechanical properties must be improved. The characteristics of long glass fiber and long carbon fiber are the advantages in mechanical properties. It has 1-3 times higher (toughness) than short fiber, and the tensile strength(strength and rigidity) is increased by 0.5-1 times. 2. Are there any special progress requiremets of long carbon fiber injection molding products? A: We must consider the requirements of long carbon fiber for the injection molding machine screw nozzle, mold structure and injection molding process. Long carbon fiber is a relatively high cost material, and need to evaluate the cost performance problem in the selection process. 3. The cost of long fiber products is higher. Does it has a high recycling value? A: The...
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  • PA6-NA-LGF30
    PA6 Nylon6 Polyamide6 composite Long Glass Fiber modified plastic 12mm in length original color
    PA6 material PA6 is one of the most widely used materials in the current field, and PA6 is a very good engineering plastic with balanced and good performance. The raw materials for the manufacture of nylon 6 engineering plastic are extensive and inexpensive, and it is not restricted by the technological monopoly of foreign companies. However, in order to make good use of this inexpensive and excellent material, we must first understand it. Today, we will start with glass fiber reinforced PA6 engineering plastics, because it is the most important category of PA6 engineering plastics. Just like any other engineering plastics, PA6 has advantages and disadvantages, such as high water absorption, low temperature impact toughness and dimensional stability is relatively poor. So engineers will use different methods to make PA6 better, which we call modification. At present, the most common method is to blend and modify PA6 with glass fiber (GF). Today, we will take a look at the mechanical properties of PA6 engineering plastics under the glass fiber GF system for reference and help us select materials. PA6-LGF 1. Influence of glass fiber content on PA6 engineering plastics We can find from the application and experiment that the content index is often one of the biggest influencing factors in fiber reinforced composites. As the glass fiber content increases, the number of glass fibers per unit area of the material will increase, which means that the PA6 matrix between the glass fibers will become thinner. This change determines the impact toughness, tensile strength, bending strength and other mechanical properties of glass fiber reinforced PA6 composites. In terms of impact performance, the increase of glass fiber content will greatly increase the notch impact strength of PA6. Taking long glass fiber (LGF) filling PA6 as an example, when the filling volume increases to 35%, the notch impact strength will increase from 24.8J/m to 128.5J/m. But the glass fiber content is not more is better, short glass fiber (SGF) filling volume reached 42%, the impact strength of the material reached the highest 17.4kJ/㎡, but continue to add will let the gap impact strength showed a downward trend. In terms of bending strength, the increase of the amount of glass fiber will make the bending stress can be transferred between the glass fiber through the resin layer; At the same time, when the glass fiber is extracted from the resin or broken, it will absorb a lot of energy, thus improving the bending strength of the material. The above theory is verified by experiments. The data show that the bending elastic modulus increases to 4.99GPa when the LGF (long glass fiber) is filled to 35%. When the content of SGF (short glass fiber) is 42%, the bending elastic modulus reaches 10410MPa, which is about 5 times that of pure PA6. 2. Influence of glass fiber retention length on PA6 composites The fiber length of the glass fiber also has an obvious effect on the mechanical properties of the material. When the length of the glass fiber is less than the critical length (the length of the fiber when the material has the tensile strength of the fiber), the interface binding area of the glass fiber and the resin increases with the increase of the length of the glass fiber. When the composite material is broken, the resistance of the glass fiber from the resin is also greater, so as to improve the ability to withstand the tensile load. When the length of glass fiber exceeds the critical, the longer glass fiber can absorb more impact energy under impact load. In addition, the end of the glass fiber is the initiation point of crack growth, and the number of long glass fiber ends is relatively less, and the impact strength can be significantly improved. The experimental results show that the tensile strength of the material increases from 154.8MPa to 164.4MPa when the glass fiber content is kept at 40% and the length of the glass fiber increases from 4mm to 13mm. The bending strength and notched impact strength increased by 24% and 28%, respectively. Moreover, the research shows that when the original length of the glass fiber is less than 7mm, the material performance increases more obviously. Compared with short glass fiber, long glass fiber reinforced PA6 material has better appearance warping resistance, and can better maintain mechanical properties under high temperature and humidity conditions. TDS for your reference PA6 can be made into long glass fiber reinforced material by adding 20%-60% long glass fiber according to the characteristics of the product. PA6 with long glass fiber added has better strength, heat resistance, impact resistance, dimensional stability and warping resistance than without glass fiber added. Following TDS show the data of PA6-LGF30. Application PA6-LGF has the largest proportion of applications in the automotive industry, by electronic and electrical applications, and also involving machinery and engineering ...
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  • PP-NA-LCF30
    LFT-G brand PP LCF long carbon fiber 30% modified plastic higher strength original color
    Carbon Fiber Reinforced Plastic Carbon fiber reinforced plastic composite (CFRP) is a lightweight, strong material that can be used to make a wide range of products used in everyday life. It is a term used to describe fiber reinforced composites with carbon fiber as the main structural component. Note that the "P" in CFRP can also stand for "plastic" rather than "polymer." Typically, CFRP composites use thermosetting resins such as epoxy, polyester, or vinyl esters. Despite the use of thermoplastic resins in CFRP composites, "carbon fiber reinforced thermoplastic composites" often uses its own acronym, CFRTP composites. LFT-G focuses on LFT&LFRT. Long Glass Fiber Series (LGF) & Long Carbon Fiber Series. Compared with Short Carbon Fiber, Long Carbon Fiber has more excellent performance in mechanical properties. It is  more suitable for large products and structural parts. It has 1-3 times higher (toughness) than Short Carbon Fiber, and the tensile strength(strength and rigidity) is increased by 0.5-1 times. Properties of CFRP composites Composites reinforced with carbon fiber are different from other FRP composites that use traditional materials such as glass fiber or arylon fiber. Advantages of CFRP composites include: Light weight: Conventional fiberglass reinforced composites using continuous fiberglass and 70% fiberglass (glass weight/gross weight) typically have a density of 0.065 lb/cubic inch. A CFRP composite with the same 70% fiber weight might typically have a density of 0.055 lb/cubic inch. Increased strength: Carbon fiber composites not only weigh less, but CFRP composites are stronger and stiffer per unit weight. This is true when comparing carbon fiber composites to glass fibers, and even more so when comparing metals. For example, when comparing steel to CFRP composites, a good rule of thumb is that a carbon fiber structure of the same strength typically weighs 1/5 as steel. You can imagine why car companies are looking into using carbon fiber instead of steel. When comparing CFRP composites to aluminum (one of the lightest metals used), the standard assumption is that an aluminum structure of the same strength might weigh 1.5 times as much as a carbon fiber structure. Of course, there are many variables that can change this comparison. Grades and qualities of materials may vary, and for composites, the manufacturing process, fiber structure and quality need to be considered. Disadvantages of CFRP composites Cost: As amazing as the material is, there's a reason carbon fiber can't be used in every situation. Currently, the cost of CFRP composites is too high in many cases. Depending on current market conditions (supply and demand), the type of carbon fiber (aerospace grade versus commercial grade), and bundle size, carbon fiber prices can vary significantly. On a per-pound basis, carbon fiber can cost anywhere from five to 25 times more than fiberglass. The difference is even greater when comparing steel with CFRP composites. Electrical conductivity: This can be a plus or minus for carbon fiber composites, depending on the application. Carbon fiber is extremely conductive, while glass fiber is insulating. Many applications use fiberglass instead of carbon fiber or metal, strictly because of electrical conductivity. For example, in the utility industry, many products require the use of fiberglass. This is one of the reasons why the ladder uses fiberglass as the ladder rail. The chance of electric shock is much lower if the fiberglass ladder comes into contact with the power cord. The situation with CFRP ladders is different. Although the cost of CFRP composites remains high, new technological advances in manufacturing are continuing to provide more cost effective products. Application of PP-LCF Long Carbon Fiber as the reinforcement material of CFRP, its proportion is only 1/4 of iron, specific strength is 10 times that of iron, elastic modulus is 7 times that of iron, carbon fiber excellent physical properties are played in various fields from sports goods to aircraft. Details of product Number Length Color Sample Package Delivery time Port of Loading Freight PP-NA-LCF30 5-25mm Original color (can be customized) Available 20kg a bag 7-15days after shipment Xiamen Port Depending on your destination Related products                        PA6-LCF                                            PA66-LCF About Xiamen LFT Composite plastic Co., Ltd. A new material enterprise that develops and produces its own brand of LFT long glass fiber and long carbon fiber. It fills the blank of domestic high-end long carbon fiber LFT materials, and is more customized and shortened the production cycle compared with foreign companies. In addition, our company has sales and service offices in Zhejiang, Jiangsu, Guangzhou, Chongqing, etc. ...
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  • PP-NA-LGF20
    LFT-G PP-NA-LGF20 polypropylene general grade long glass fiber 20% composite plastic 12mm
    What is long glass fiber? Long glass fiber reinforced plastic is on the basis of the original pure plastic, adding long glass fiber and other additives, so as to improve the scope of use of materials. Why filling Long Glass Fiber? 1. After long glass fiber reinforcement, long glass fiber is a high temperature resistant material, therefore, the heat resistance temperature of reinforced plastics is much higher than before without long glass fiber, especially nylon plastics; 2. After long glass fiber reinforcement, due to the addition of long glass fiber, limited the mutual movement between polymer chains of plastics, therefore, the shrinkage rate of reinforced plastics decreases a lot, rigidity is greatly improved; 3. After long glass fiber reinforcement, the reinforced plastic will not stress crack, at the same time, the anti-impact performance of plastic is improved a lot; 4. After long glass fiber reinforcement, long glass fiber is a high strength material, which also greatly improves the strength of plastic, such as: tensile strength, compression strength, bending strength, improve a lot; 5. Long glass fiber reinforced after, due to the addition of long glass fiber and other additives, the combustion performance of reinforced plastics decreased a lot, most of the material can not ignite, is a kind of flame retardant material. Why choose Long Glass Fiber instead of Short Glass Fiber? Compared with short fiber reinforced thermoplastic composites, LFT has the following advantages: • Long fiber length, significantly improve the mechanical properties of products. • High specific stiffness and strength, good impact resistance, especially suitable for automotive applications. • Improved creep resistance, good dimensional stability, high parts forming accuracy. • Excellent fatigue resistance. • Better stability in hot and humid environments. • The fiber can move relatively in the molding mold during the molding process, and the fiber damage is small. Appearance of PP-LGF      Application of PP-LGF Automotive parts Front end module, door module, shift mechanism, electronic accelerator pedal, dashboard skeleton, cooling fan and frame, battery carrier, bumper bracket, underbody protection plate, sunroof frame, etc., used to replace reinforced PA or metal materials. Household appliance Washing machine drum, washing machine triangle bracket, one brush machine drum, air conditioning fan, etc., used to replace short glass fiber reinforced PA, APS metal materials. Communications, electronics, electrical appliances High-precision connectors, igniter components, coil shaft, relay base, microwave oven transformer coil frame/frame, electrical connector, solenoid valve package, scanner components, etc. Others Power tool housing, water pump or water meter housing, impeller, bicycle skeleton, skis, ground locomotive pedals, military/civil safety helmets, safety shoes, etc. are used to replace short glass fiber reinforced PA, PPO, etc. TDS for reference About us Xiamen LFT composite plastic Co., Ltd. is a brand-name company that focuses on LFT&LFRT. Long Glass Fiber Series (LGF) & Long Carbon Fiber Series (LCF). The company's thermoplastic LFT can be used for LFT-G injection molding and extrusion, and can also be used for LFT-D molding. It can be produced according to customer requirements: 5~25mm length. The company's long-fiber continuous infiltration reinforced thermoplastics have passed ISO9001 &16949 system certification, and the products have obtained lots of national trademarks and patents. We will offer you: 1. LFT&LFRT material technical parameters and leading edge design; 2. Mold front design and recommendations; 3. Provide technical support such as injection molding and extrusion molding.
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  • PEEK-NA-LCF30
    LFT-G PEEK high quality modified materials fill long carbon fiber for automotives good performance
    What is PEEK? Polyether ether ketone (PEEK) is a semi-crystalline thermoplastic polymer material with rigid benzene ring, compliant ether bond and carbonyl group which can promote the intermolecular force in its molecular chain. PEEK has excellent wear resistance, electrical insulation, anti-radioactivity, chemical stability, biocompatibility and thermal stability. In addition, PEEK is reusable and has a high recovery rate. PEEK is widely used in aerospace, electronic and electrical appliances, biomedicine, Marine protection, automobile industry and other fields. PEEK material is an inert material with low surface free energy, and its mechanical properties and frictional properties cannot meet the needs of some special fields. Therefore, it is necessary to modify PEEK composite material to improve its comprehensive properties. At present, filling modification and blending modification are the main methods for preparing PEEK composite materials. Filler modified reinforcement materials mainly include fiber, inorganic particles and whisker; The polymer used for blending modification should have similar polarity and solubility to PEEK. The interface modification method can improve the interface adhesion and enhance the comprehensive properties of PEEK composites. What is PEEK-LCF? As a filling system, fiber can effectively carry part of the load, and the synergistic action between fiber and PEEK can improve the comprehensive performance of composite materials. Carbon fiber and glass fiber are widely used as filler modified composites because of their high strength, high modulus and high durability. Long carbon fiber (LCF) can be used as heterogeneous nucleating agent to promote the crystallization of PEEK in composite materials, which can effectively improve the mechanical and tribological properties of composite materials. PEEK/CF composites of different lengths were prepared by injection molding, and their infiltrating and tribological properties were studied. The results show that the addition of CF increases the contact Angle and decreases the hydrophilicity of the composites. But the friction coefficient of composites is reduced and the friction resistance is improved. Long carbon fiber (LCF) has better effect on reducing friction coefficient than short carbon fiber (SCF). TDS for reference Application Q&A 1. What are the advantages of long carbon fiber materials? A: Thermoplastic LFT Long carbon fiber material has high rigidity, good impact strength, low warpage, low shrinkage, electrical conductivity and electrostatic propertiea, and its mechanical properties are better than glass fiber series. Long carbon fiber has the characteristics of lighter and more convenient processing to replace metal products. 2. Are there any special process requirements of long carbon fiber injection molding products? A: We must consider the requirements of long carbon fiber for the injection molding machine screw nozzle, mold structure and injection molding process. Long carbon fiber is a relatively high cost material, and need to evaluate the cost performance problem in the selection process. 3. The cost of long fiber products is higher. Does it has a high recycling value? A: The thermoplastic LFT long fiber material can be recycled and reused very well. We will offer you: 1. LFT & LFRT material technical parameters and leading edge design 2. Mold front design and recommendations 3. Provide technical support such as injection molding and extrusion molding
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  • PA12-NA-LCF30
    Nylon12 PA12 modified plastic long carbon fiber reinforced mateials higher toughness
    PA12 Long carbon fiber The scientific name of PA12 is polydodecactam, also known as nylon 12. The basic feedstock of its polymerization is butadiene, which can rely on petrochemicals. It is a semi-crystalline - crystalline thermoplastic material. PA12 is a good electrical insulator and will not be affected by moisture as other polyamides. It has good impact resistance mechanical and chemical stability. There are many improved varieties of PA12 in terms of plasticizing and reinforcing properties. Compared with PA6 and PA66, these materials have lower melting point and density, and have very high moisture recovery. TDS Application Exhibition We will offer you: 1. LFT & LFRT material technical parameters and leading edge design; 2. Mold front design and recommendations; 3. Provide technical support such as injection molding and extrusion molding.
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  • PA66-NA-LCF30
    PA66 Polyamide66 natural black filled lcf long carbon fiber made in China high quality
    PA66 Nylon (PA) has a series of excellent properties, such as high mechanical strength, chemical resistance, oil resistance, wear resistance, self-lubrication, easy processing and forming, and has become one of the thermoplastic engineering plastics widely used at home and abroad. But in the practical application, the performance requirements of nylon are different under different conditions or environment. For example, electric drill and motor shell, pump impeller, bearing, diesel engine and air conditioning fan and other parts require nylon material to have high strength, high rigidity and high dimensional stability; Because of the poor toughness of nylon at low temperature, it is necessary to toughen it. In some outdoor applications, nylon materials must be weather-resistant modification in long-term outdoor environment. PA66-LCF Long carbon fiber reinforced nylon has excellent damping properties in 3D printing and has better performance than glass fiber reinforced nylon. In the design of tools for industrial applications, traditional techniques have used aluminum or alternative metal alloys because metal components perform better and meet the requirements of the tool. In many cases, thermoplastics can meet the strength requirements of such tools, but not the rigidity requirements for performing test tasks. Carbon fiber reinforced nylon is an ideal substitute for metal. Due to the combination of the light weight of nylon and the mechanical strength and thermal properties of carbon fiber, the strength and stiffness of carbon fiber composite nylon material is significantly improved, and its mechanical strength even exceeds that of 3D-printed PEEK and PEKK. In the automobile industry, from internal and external components such as vehicle anchors and instruments to engine housing, metal parts can be replaced. As we all know, automotive carbon fiber is widely used in automobile manufacturing due to its strong thermal and mechanical properties. As a substitute for metal parts, carbon fiber reinforced nylon has a wide range of application prospects in the automobile industry, which can realize the possibility of weight reduction and design optimization, as well as environmental protection and economic advantages. TDS Application Package Patents
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  • PA6-NA-LCF30
    PA6 LFT-G brand composite long carbon fiber polyamide 6 for manufacturing helmets
    PA6 raw material Polyamide 6, also known as polycaprolactam or nylon 6(PA6), is a semi-transparent to opaque yellowish or milky white thermoplastic resin. The relative density of PA6 is 1.12~ 1.14g /cm3, the melting point is 219~225℃, the tensile strength is 68~83MPa, the compression strength is 82~88MPa, the low temperature resistance is good (-75℃ is not brittle), the wear resistance, self-lubricating and oil resistance is good. Due to the excellent structure and properties of PA6, more and more researchers at home and abroad have carried out important research and development on PA6, including exploring new polymerization chemicals for production, changing its structure and properties, and finding new processing methods, etc. PA6-LCF Long carbon fiber (LCF) reinforced nylon composites with high specific strength, high specific modulus, high temperature resistance and other excellent properties, expand the application space of nylon high technology field, is one of the most important reinforced composites at present. TDS Tested by us, for reference only. Application Injection technology About us Come and contact us now!
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  • PP-NA-LCF30
    LFT-G PP polypropylene long carbon fiber reinforced material high performance black
    Long Carbon Fiber In recent years, due to the growing demand for lightweight in various industries around the world (automotive, aerospace, military, building and civil engineering, etc.), and the increasingly strict requirements for the use of environmentally friendly and sustainable materials, the use of fiber reinforced thermoplastic composites in various industries has been increasing. Especially for carbon fiber reinforced composites, there is still a high recycling value after the products are discarded after completing their life cycle, and through effective recycling technology and methods, the cost of carbon fiber reinforced composites can be significantly reduced. The recovery method of fiber reinforced thermoplastic composites is closely related to the shape and forming method of fiber reinforced in resin. Take carbon fiber reinforced thermoplastic composites as an example. The reinforced forms of carbon fiber mainly include short fiber reinforced, long fiber reinforced and continuous fiber reinforced, and the main preparation method is melt forming. For thermoplastic resins with high melting point, such as polyetherimide (PEI) and polyetherether ketone (PEEK), solvent forming can be adopted. Due to the linear molecular structure of thermoplastic resin, it is easy to transform from solid state to liquid state at high temperature. Therefore, thermoplastic composite materials can be recycled by remelting and reshaping method, which is more recyclable than thermosetting resin matrix composite materials. PP-LCF datasheet Application Our materails all can be recycled At present, more and more companies are developing recycling methods for fiber reinforced thermoplastic composites. For example, the 2014 Chevrolet Corvette uses composite materials containing recycled carbon fiber in 21 body panel components, including doors, boot LIDS, side coops and fenders. Ford Motor Company has used recycled long carbon fiber and polypropylene (LCF/PP) composites to replace the original ASA engineering plastic as the rigid part of the A-pillar bracket in its 2018 Explorer sport utility SUV. About LFT-G Xiamen LFT composite plastic Co., Ltd. is a brand-name company that focuses on LFR&LFRT. Long Glass Fiber Series (LGF) & Long Carbon Fiber Series (LCF). The company's thermoplastic LFT can be used for LFT-G injection molding and extrusion, and can also be used for LFT-D molding. It can be produced according to customer requirements: 5~25mm length. The company's long-fiber continuous infiltration reinforced thermoplastics have passed ISO9001&16949 system certification, and the products have obtained lots of national trademarks and patents. In particular, the carbon fiber LFT series produced by our company has broken the technical blockade of foreign countries. For domestic: automotive, military parts, firearms, aerospace, new energy, medical equipment, electric wind energy, sports equipment and other fields require high-performance thermoplastic special engineering plastics. And other new technology innovation industries provide product and technical support.
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  • PLA-NA-LCF30
    LFT-G PLA polylactic acid long carbon fiber reinforced material black color 24h online reply
    PLA-LCF Polylactic acid or PLA is a bio-based polymer made using lactic acid from the sugar fermentation process. It was originally intended as a more environmentally friendly alternative to crude oil-based polymers and is technically biodegradable (albeit under industrial compost conditions). In addition to being the most widely used polymer in the desktop 3D printing space, PLA also has a variety of applications in packaging, disposable cups and more. Although it is very cost effective, easy to process and easy to 3D print, pure PLA has poor thermal and mechanical stability and is therefore not suitable for any high performance applications. One way to improve material properties is to use additives such as carbon fiber reinforced materials, as carbon fiber composites can provide an excellent mix of mechanical properties and heat resistance. Long carbon fiber reinforced PLA is an outstanding material that is strong, lightweight, has excellent layer bonding and low warpage. It has excellent layer adhesion and low warpage. Long carbon fiber PLA is stronger than other 3D-printed materials. Long carbon fiber filaments are not as strong as other 3D materials, but tougher. The increased rigidity of carbon fiber means increased structural support but reduced overall flexibility. It is slightly more brittle than regular PLA. When printed, the material is a dark glossy color that shimmers slightly under direct light. characteristic The fracture strain is moderate (8-10%), so the silk is not brittle, but strong toughness Very high melt strength and viscosity Good dimensional accuracy and stability Easy to handle on many platforms High attractive matte black surface Excellent impact resistance and lightness Application of long carbon fiber filliing PLA material Long carbon fiber filling PLA is an ideal material for frames, braces, shells, propellers, tools, instruments, etc. Virtually no bending will occur. Drone makers and RC enthusiasts especially like it. Ideal for applications requiring maximum stiffness and strength. Technology Package International trademarks and patents Related products                             PP-LCF                                                        PA6-LCF
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