Polyamide 6 Profile PA66+LGF60 Polytron A60N01 is Natural, 60% Long Glass Fiber Reinforced, Heat Stabilized POLYAMIDE 66, The Glass Fibers are Chemically Coupled to the Polymer Matrix, The material is supplied in pellets that are typically 12mm in length. Fiber length is the length of the pellets. Typical applications include Injection Molding Applications. Production Process of LGF 1. Through the physical and chemical treatment of the original carbon fiber, it removes impurities, improves surface activity, and provides the mechanical properties and durability of pre-soaked materials. 2. Add resin, additives, etc., form a unique formula. Improve flowability, hardness, temperature stability. 3. The pre-treated carbon fiber is placed on the machine, and the resin is evenly covered on its surface. 4. Use the machine to solidify the material, and the fiber and resin are both sufficiently bonded. 5. According to the requirements of the product, cutting particles. What are the advantages and applications of Polyamide 6? Nylon 6 fibers are tough, possessing high tensile strength, elasticity, and luster. The fibers can absorb up to 2.4% of water, although this lowers tensile strength. The glass transition temperature of nylon 6 is 47 °C. Nylon 6 is generally white as a synthetic fiber but can be dyed in a solution bath before production for different color results. The tenacity of nylon 6 is 6–8.5 gf/D with a density of 1.14 g/cm3. Its melting point is 215 °C and can protect heat up to 150 °C on average. The applications of nylon 6 include construction material in many industries, including the automotive industry, electronic and electrotechnical industry, aircraft industry, clothing industry, and medicine. The advantages of nylon 6 are that its fibers are wrinkleproof and highly resistant to abrasion and chemicals such as acids and alkalis.  Long fiber reinforced thermoplastics are an excellent option to consider for metal replacement at a fraction of the weight. About Xiamen LFT laboratory Warehouse Xiamen LFT has capabilities to provide assistance to you throughout an entire product launch - through product discussion, performance analysis, composite selection, composite pellet production, after-sales tracking. In addition, we provide guidance on injection molding techniques

Polyamide 6 Profile PA66+LGF60 Polytron A60N01 is Natural, 60% Long Glass Fiber Reinforced, Heat Stabilized POLYAMIDE 66, The Glass Fibers are Chemically Coupled to the Polymer Matrix, The material is supplied in pellets that are typically 12mm in length. Fiber length is the length of the pellets. Typical applications include Injection Molding Applications. Production Process of LGF 1. Through the physical and chemical treatment of the original carbon fiber, it removes impurities, improves surface activity, and provides the mechanical properties and durability of pre-soaked materials. 2. Add resin, additives, etc., form a unique formula. Improve flowability, hardness, temperature stability. 3. The pre-treated carbon fiber is placed on the machine, and the resin is evenly covered on its surface. 4. Use the machine to solidify the material, and the fiber and resin are both sufficiently bonded. 5. According to the requirements of the product, cutting particles. What are the advantages and applications of Polyamide 6? Nylon 6 fibers are tough, possessing high tensile strength, elasticity, and luster. The fibers can absorb up to 2.4% of water, although this lowers tensile strength. The glass transition temperature of nylon 6 is 47 °C. Nylon 6 is generally white as a synthetic fiber but can be dyed in a solution bath before production for different color results. The tenacity of nylon 6 is 6–8.5 gf/D with a density of 1.14 g/cm3. Its melting point is 215 °C and can protect heat up to 150 °C on average. The applications of nylon 6 include construction material in many industries, including the automotive industry, electronic and electrotechnical industry, aircraft industry, clothing industry, and medicine. The advantages of nylon 6 are that its fibers are wrinkleproof and highly resistant to abrasion and chemicals such as acids and alkalis.  Long fiber reinforced thermoplastics are an excellent option to consider for metal replacement at a fraction of the weight. About Xiamen LFT laboratory Warehouse Xiamen LFT has capabilities to provide assistance to you throughout an entire product launch - through product discussion, performance analysis, composite selection, composite pellet production, after-sales tracking. In addition, we provide guidance on injection molding techniques

PEEK-Long carbon fiber Polyetheretherketone (PEEK), the complete English name for polyetheretherketone, is a specialty engineering plastic with excellent performance, and has more advantages than other specialty engineering plastics, such as wear resistance, high temperature resistance, high strength and high modulus, flame retardant and radiation resistant, and so on. In addition polyetheretherketone (PEEK) has good thermal stability and melt flow above the melting point, so polyetheretherketone (PEEK) also has the typical processing properties of thermoplastics. PEEK resin is nontoxic, lightweight, corrosion-resistant, and one of the closest materials to the human skeleton, which is well compatible with the musculature, so it is often used instead of metal to make human bones. Carbon fiber-reinforced PEEK composites make up for the weaknesses of toughness and deviations in impact strength. Carbon fiber-reinforced PEEK composites can exhibit high mechanical strength and hydrolytic stability under conditions such as hot water, steam, solvents, and chemical reagents, and can be used to prepare various medical devices that require high-temperature steam sterilization. Advantages of PEEK-LCF PEEK has high rigidity, good dimensional stability, low coefficient of linear expansion, and can withstand great stress without significant elongation over time, and its low density and good processing properties make it suitable for parts with high requirements for fineness. Among these elements, carbon fiber materials overlap highly with the characteristics of PEEK. Carbon fiber is not only one of the typical lightweight materials, it is also outstanding in terms of mechanical properties. As a result, carbon fiber reinforced PEEK composites can reduce weight by at least 70% compared to traditional metal materials. PEEK material itself is very wear-resistant, and good interface bonding with carbon fibers to further enhance its wear resistance, through the carbon fiber reinforced PEEK composite parts and cobalt alloy materials for wear comparison experiments, the results show that: at 23 ℃, using the M-200 wear machine at 400 rpm after 100 minutes of wear, found that the carbon fiber reinforced PEEK composite surface smooth The wear marks were small, and the carbon fiber bonded well with PEEK without fiber extraction. In contrast, the cobalt alloy surface wear marks are very obvious, even a large number of wear particles appear, the metal internal impurities image visible. PEEK exhibits high mechanical strength and hydrolytic stability in hot water, steam, solvents and chemical reagents, etc. Datasheet for reference PEEK-LCF application Q&A 1. What are the types of thermoplastic carbon fiber composites? Carbon fiber thermoplastic composites are composites with carbon fiber as the reinforcing material and thermoplastic resin as the matrix. From the reinforcement method of carbon fiber, it can be divided into long-cut carbon fiber (LCF) reinforced thermoplastic composites, short-cut carbon fiber (SCF) reinforced thermoplastic composites and continuous carbon fiber (CCF) reinforced thermoplastic composites. Long-cut carbon fiber and short-cut carbon fiber mainly refer to the application length of carbon fiber materials, there is no strict fixed distinction between the two, generally between a few millimeters to a few centimeters, the more common specifications are 6mm, 12mm, 20mm, 30mm, 50mm. Carbon fiber thermoplastic composites can also be classified according to the thermoplastic resin. There are many common thermoplastic resins, such as PE, PP, PVC, etc. However, thermoplastic resin composites with carbon fiber reinforcement are mostly used in aerospace, precision equipment and other demanding working environments, therefore, carbon fiber thermoplastic composites are more often made of polyether ether ketone (PEEK), PPS, polyimide ( PI), polyetherimide (PAI) and other mid- to high-end thermoplastic resins as the matrix to achieve the optimization of material performance. 2. How does thermoplastic carbon fiber composite material achieve low cost and environmental protection? Thermoplastic carbon fiber composites are used to make parts for high-end machinery. They have excellent machinability, vacuum forming, stamping mold plasticity, and bending processability. For example, Teijin has been able to add a recycling process to the process according to specific needs, and to shred and mold the corners of thermoplastic carbon fiber composite materials after stamping to make recycled materials for making small products or for molding nuts and studs on carbon fiber prototypes. This method can greatly reduce the loss of raw materials, improve the efficiency of the use of thermoplastic carbon fiber composite materials, reduce the overall cost, and thus achieve the purpose of environmental protection. In addition, thermoplastic carbon fiber composites can reduce the molding cycle time compared with thermoset carbon fiber composi...

Polyamide 6 Profile PA66+LGF60 Polytron A60N01 is Natural, 60% Long Glass Fiber Reinforced, Heat Stabilized POLYAMIDE 66, The Glass Fibers are Chemically Coupled to the Polymer Matrix, The material is supplied in pellets that are typically 12mm in length. Fiber length is the length of the pellets. Typical applications include Injection Molding Applications. Production Process of LGF 1. Through the physical and chemical treatment of the original carbon fiber, it removes impurities, improves surface activity, and provides the mechanical properties and durability of pre-soaked materials. 2. Add resin, additives, etc., form a unique formula. Improve flowability, hardness, temperature stability. 3. The pre-treated carbon fiber is placed on the machine, and the resin is evenly covered on its surface. 4. Use the machine to solidify the material, and the fiber and resin are both sufficiently bonded. 5. According to the requirements of the product, cutting particles. What are the advantages and applications of Polyamide 6? Nylon 6 fibers are tough, possessing high tensile strength, elasticity, and luster. The fibers can absorb up to 2.4% of water, although this lowers tensile strength. The glass transition temperature of nylon 6 is 47 °C. Nylon 6 is generally white as a synthetic fiber but can be dyed in a solution bath before production for different color results. The tenacity of nylon 6 is 6–8.5 gf/D with a density of 1.14 g/cm3. Its melting point is 215 °C and can protect heat up to 150 °C on average. The applications of nylon 6 include construction material in many industries, including the automotive industry, electronic and electrotechnical industry, aircraft industry, clothing industry, and medicine. The advantages of nylon 6 are that its fibers are wrinkleproof and highly resistant to abrasion and chemicals such as acids and alkalis.  Long fiber reinforced thermoplastics are an excellent option to consider for metal replacement at a fraction of the weight. About Xiamen LFT laboratory Warehouse Xiamen LFT has capabilities to provide assistance to you throughout an entire product launch - through product discussion, performance analysis, composite selection, composite pellet production, after-sales tracking. In addition, we provide guidance on injection molding techniques

What is LFT Materials? LFT long fiber reinforced thermoplastic engineering materials,compared to ordinary short fiber reinforced thermoplastic materials (fiber length is less than 1-2 mm), the LFT process produces thermoplastic engineering material's fibers in lengths of 5-25 mm. The long fibers are impregnated with the resin through a special mold system to obtain long strips that are fully impregnated with the resin ,and then cut to the length as required. The most used base resin is PP, by PA6, PA66, PPA,PA12,MXD6,PBT, PET,TPU,PPS, LCP,PEEK, etc. Conventional fibers include glass fiber, carbon fiber,special fibers include basalt fiber and quartz fiber, etc. Depending on the end use, the finished products can be used for injection molding,extrusion, molding, etc., or directly used for plastic instead of steel and thermoset products. Long carbon fiber reinforced composites can solve your problems when other methods of reinforced plastics do not provide the performance you need or if you want to replace metal with plastic. Long carbon fiber reinforced composites can cost-effectively reduce the cost of goods and effectively improve the mechanical properties of engineering polymer. Long fibers can be uniformly distributed inside the product to form a network skeleton, thus improving the mechanical properties of the material product. What is Polyamide 66 Long Carbon Fiber Reinforcement? Nylon 6,6, also written as nylon 6-6, nylon 66, or nylon 6/6, is a more crystalline version of nylon 6.  It is also referred to as polyamide 66 or PA 66.  It has improved mechanical properties due to its more ordered molecular structure.  Nylon 66 for machining has improved temperature resistance and lower rates of water absorption when compared to standard nylon 6. The advantages of nylon 6,6 are that the yield strength is higher than nylon 6 and nylon 610.  It has high strength, toughness, rigidity, and low coefficient of friction in a wide temperature range.  In addition, it is oil resistant and resistant to chemical reagents and solvents. However, PA66 has strong hygroscopicity and poor dimensional stability, which limits its application.  In order to obtain nylon 66 engineering material with higher strength, it should be modified by carbon fiber reinforcement. The mechanical properties of long carbon fiber reinforced nylon 66 (LCFR-PA66) are obviously better than those of short carbon fiber reinforced nylon 66 (SCFR-PA66), and the molding processing performance is also better.  It can be molded by various molding methods such as injection molding and compression molding, and complex components can also be formed. Therefore, long carbon fiber reinforced nylon 66 can be widely used in building materials, aerospace, electronic devices, furniture and other fields, especially in the automotive industry application market. The production process of long carbon fiber reinforced nylon 66 is different from that of short carbon fiber reinforced nylon 66. The short carbon fiber reinforced nylon 66 particle is chopped under the friction and shearing of screw and barrel, and the short carbon fiber reinforced nylon 66 particle is obtained with the length of carbon fiber monofilament about 0.5mm.  The length of some carbon fiber monofilament in the final product is lower than the critical length of reinforcement, and the carbon fiber is easy to be extracted from the nylon 66 matrix when the product is stressed.  The strength of carbon  fiber is not fully utilized, and the mechanical properties of the product are not high. Long carbon fiber reinforced nylon 66 has better reinforcement effect and dimensional stability, and the rigidity, tensile, bending, impact resistance and fatigue resistance of the manufactured products are better, and the service life is longer. Q & A Q: Does long glass fiber and long carbon fiber injection have special requirements for injection molding machines and molds? A: There are certainly requirements. especially from the product design structure, as well as the injection molding machine screw nozzle and mold structure injection molding process must consider the requirements of long fiber. Q. 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.  Q. How to choose the reinforcement method and length of the material when using long fiber reinforced thermoplastic material? A: The selection of materials depend on the requirements of the products. It is necessary to assess how much the content is enhanced and how muc...

ABS is another preferred type of engineering plastic that is valued for its chemical and thermal stability, strength, toughness, and glossy finish.  Its host of desirable properties make it a versatile material.  It is used in everything from consumer products like toys and bicycle helmets to automotive applications such as interior trim pieces, housings for electronics, and more. After adding glass fiber to ABS, the rigidity, heat resistance and dimensional stability of the composite are significantly improved. In addition, the cost performance of ABS plus glass fiber is extremely good, which can meet the needs of manufacturers while reducing costs. About ABS-LGF compounds The main application scope of modified ABS: 1.  Auto parts: instrument panels, fenders, car interiors, car lights, reversing mirrors, car audio; 2.  Electronic and electrical components: IT equipment, OA equipment shells, converters, etc., power sockets, etc.; 3.  Electronic appliances: switches, power switches, controllers, monitors, monitor housings, electrical housings, electrical brackets; 4.  Home appliances: electrical components, electrical control boxes What Are the Advantages of ABS Injection Molding? The advantages of ABS injection molding are: 1. High Productivity - Efficiency Injection molding is a highly efficient and productive manufacturing technology and is the preferred method of manufacturing ABS parts. The process creates limited waste and can produce large volumes of parts with limited human interaction. 2. Design of Complex Parts Injection molding can produce multi-featured, complex components that can include metal inserts or overmolded soft-grip handholds.  3. Increased Strength ABS is a strong, lightweight thermoplastic that is widely used in a number of industries due to these properties. As such, injection molding in ABS is ideal for applications that require increased durability and overall mechanical strength. 4. Flexibility of Color and Material ABS is easily colored with a wide range of colors. It must be noted however that ABS has poor weathering resistance and can be degraded by UV light and prolonged outdoor exposure. Fortunately, ABS can be painted and even electroplated with metal to improve its environmental resistance.  5. Decreased Waste Injection molding is inherently low-wastage production technology due to the large production volumes that injection molding was designed for. When millions of parts are made per year, any amount of wastage adds up to a significant cost over time. The only wastage is the material in the sprue, runners, and the flashing between mold halves.  6. Low Cost of Labor Due to the highly automated nature of injection molding, very limited human intervention is required. Reduced human intervention results in reduced labor costs. This reduced labor cost ultimately results in a low cost per part. Materials Details Number ABS-NA-LGF Color Natural color or Customized Length 6-25 mm Package 25kg/bag MOQ 25kg Lead time 2-15 days Port of Loading Xiamen Port Trade terms EXW/FOB/CFR/CIF/DDU/DDP About Xiamen LFT Xiamen LFT Composite Plastic Co.,LTD was established in 2009, is a brand-name global suppliers of long fiber reinforced thermoplastic materials integrating product research & developmen （R&D）, production and sale marketing. Our LFT products have passed the ISO9001&16949 system certification and have obtained lots of national trademarks and patents, covering the fields of automotive, military parts and firearms, aerospace, new energy, medical equipment, power wind energy, sports equipment, etc. LFT long fiber reinforced thermoplastic engineering materials,compared to ordinary short fiber reinforced thermoplastic materials (fiber length is less than 1-2 mm), the LFT process produces thermoplastic engineering material's fibers in lengths of 5-25 mm. The long fibers are impregnated with the resin through a special mold system to obtain long strips that are fully impregnated with the resin ,and then cut to the length as required.   The most used base resin is PP, by PA6, PA66, PPA,PA12,MXD6,PBT,TPU,PPS, ABS,PEEK, etc. Conventional fibers include glass fiber, carbon fiber. Depending on the end use, the finished products can be used for injection molding,extrusion, molding, etc., or directly used for plastic instead of steel and thermoset products.

HDPE High density polyethylene (HDPE), a granular product. Non-toxic, odorless, crystallinity of 80% ~ 90%, softening point of 125 ~ 135 ℃, the use of temperature up to 100 ℃; hardness, tensile strength and creep is better than low-density polyethylene; wear resistance, electrical insulation, toughness and cold resistance is better; good chemical stability, at room temperature, insoluble in any organic solvents, resistant to corrosion of acids, alkalis and various salts. Long glass fiber Glass fiber reinforced plastic is based on the original pure plastic, adding glass fibers and other additives, so as to improve the scope of use of the material. Generally speaking, most of the glass fiber reinforced materials are used in the structural parts of the products, which is a kind of structural engineering materials, such as: PP, ABS, PA66, PA6, HDPE, PPA, TPU, PEEK, PBT, PPS and so on. Advantages After glass fiber reinforcement, glass fiber is a high temperature resistant material, therefore, the heat-resistant temperature of reinforced plastics is much higher than before without glass fiber, especially nylon plastics. After the glass fiber reinforcement, due to the addition of glass fiber, the plastic polymer chain is restricted to move with each other, therefore, the shrinkage of reinforced plastics decreases a lot, and the rigidity is greatly improved. After glass fiber reinforced, the reinforced plastic will not stress cracking, at the same time, the impact resistance of the plastic improves a lot. After the glass fiber reinforcement, the glass fiber is a high strength material, which also greatly improves the strength of the plastic, such as: tensile strength, compression strength, bending strength, improve a lot. After glass fiber reinforcement, due to the addition of glass fiber and other additives, the combustion performance of the reinforced plastics decreases a lot, most of the materials can not be ignited, it is a kind of flame-retardant material. Datasheet Contact us

What is Polyamide 66 plastic? PA66 melting point 260~265℃, glass transition temperature (dry state) is 50℃. Density is 1.13~1.16 g/cm3. PA66 has low water absorption, excellent dimensional stability and high rigidity. Higher melting point, can be used for a long time in harsh environments, in a wide range of temperatures can still maintain sufficient stress, continuous use temperature of 105 ℃. Long glass fiber reinforced composite Glass fiber reinforced plastic is based on the original pure plastic, filling glass fibers and other additives, so as to improve the scope of use of the material. Generally speaking, most of the glass fiber reinforced materials are used in the structural parts of the products, which is a kind of structural engineering materials, such as: PP, ABS, PA66, PA6, TPU, PPA, PBT, PEEK, PBT, PPS and so on. Advantages 1)After glass fiber reinforcement, glass fiber is a high temperature resistant material, therefore, the heat-resistant temperature of reinforced plastics is much higher than before without glass fiber, especially nylon plastics. 2)After the glass fiber reinforcement, due to the addition of glass fiber, the plastic polymer chain is restricted to move with each other, therefore, the shrinkage of reinforced plastics decreases a lot, and the rigidity is greatly improved. 3)After glass fiber reinforced, the reinforced plastic will not stress cracking, at the same time, the impact resistance of the plastic improves a lot. 4)After the glass fiber reinforcement, the glass fiber is a high strength material, which also greatly improves the strength of the plastic, such as: tensile strength, compression strength, bending strength, improve a lot. 5)After glass fiber reinforcement, due to the addition of glass fiber and other additives, the combustion performance of the reinforced plastics decreases a lot, most of the materials can not be ignited, it is a kind of flame-retardant material. Datasheet for reference Applications PA66's comprehensive performance is good, with high strength, good rigidity, impact resistance, oil and chemical resistance, abrasion resistance and self-lubricating advantages, especially hardness, rigidity, heat resistance and creep performance is better. Datails Grade Fiber specification Main characteristics Applications General grade 20%-60% high toughness (especially at low temperatures), excellent creep and fatigue resistance, low warpage Automobiles, electronic and electrical appliances, sports equipment, power tools, high-speed rail parts, etc. Toughen resistance grade 20%-50% high impact strength, light texture Automobiles, electronic appliances, sports equipment, power tools, tool handles, high-speed rail parts, gears, etc. Lab & Factory About company Xiamen LFT Composite Plastic Co.,LTD was established in 2009, is a brand-name global suppliers of long fiber reinforced thermoplastic materials integrating product research & development（R&D）, production and sale marketing. Our LFT products have passed the ISO9001&16949 system certification and have obtained lots of national trademarks and patents, covering the fields of automotive, military parts and firearms, aerospace, new energy, medical equipment, power wind energy, sports equipment, etc.

PA 12 (also known as Nylon 12) is a good general-use plastic with broad additive applications and is known for its toughness, tensile strength, impact strength and ability to flex without fracture. PA 12 has long been used by injection molders due to these mechanical properties.

PP is a polymer made by coordination polymerization of propylene monomer, and is one of the five general plastics PE, PP, PVC, PS and ABS.