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  • PBT-NA-LGF
    LFT-G PBT Long Glass Fiber Reinforced Thermoplastic Resin Compounds Pellets Engineering
    What is PBT? Polydibutyl terephthalate is a crystalline thermoplastic engineering plastic polymerized by dimethyl terephthalate (DMT) and 1,4-butanediol. PBT can also be called thermoplastic polyester plastic, in order to be used by different processing operators, generally how many additives will be added, or mixed with other plastics, with the proportion of additives is different, can manufacture different specifications of products. Due to its special properties, PBT is an ideal material for special applications in electrical engineering and electronics. 1. mechanical properties: high strength, fatigue resistance, dimensional stability, creep is also small (there is little change under high temperature conditions) 2. heat resistance aging: enhanced UL temperature index of 120~140℃(outdoor long-term aging is also very good) 3. solvent resistance: no stress cracking 4. water stability: PBT is not easy to decompose in water 5. insulation performance: excellent (wet, high temperature can also maintain stable electrical performance) What is fiberglass? Glass fiber (formerly known as glassfiber) is an inorganic nonmetallic material with excellent properties. It is made of pyrophylla, quartz sand, limestone, dolomite, borocalcium, boromite and seven ores as raw materials by high-temperature melting, wire drawing, winding, weaving and other processes. The diameter of its monofilament ranges from several microns to more than twenty microns, equivalent to 1/20-1/5 of a hair, and each fiber filament is composed of hundreds or even thousands of monofilament. Fiberglass products are relatively environmentally friendly within the controllable range. PBT has very weak hygroscopic properties. The tensile strength of the non-enhanced PBT is 50MPa, and the tensile strength of the glass fiber reinforced PBT is 170MPa. PBT crystallizes very quickly, so it is easy to bend and deform parts during injection molding due to uneven cooling. The shrinkage rate of general PBT materials is between 1.5% and 2.8%. PBT materials with 30% glass fiber reinforcement shrink between 0.3% and 1.6%. 1. high temperature resistance After testing, when the temperature reaches 300℃, there is no effect on the strength of glass fiber. 2. high tensile strength The tensile strength of glass fiber is 6.3~6.9g/d in the standard state, and 5.4~5.8g/d in the wet state. 3. good electrical insulation Glass fiber has excellent electrical insulation, is a high-level electrical insulation material, and is also used in insulation materials and fire shielding materials. 4. Burn Glass fiber can be melted into glass beads at high temperature, which meets the requirements of fire prevention and control in the construction industry. 5. good sound insulation The combination of glass fiber and gypsum can achieve a good sound insulation effect Why filled PBT with glass fiber? Adding glass fiber to PBT is a common method of PBT enhancement modification. Glass fiber and PBT resin bonding force is good, after adding a certain amount of glass fiber to PBT resin, not only can maintain the original advantages of PBT resin chemical resistance, processability and so on, but also can greatly improve its mechanical properties, and overcome PBT resin notch sensitivity. Impacts of Long Glass Fiber Reinforced PBT Compounds 01Wear resistance PBT has excellent wear resistance and is advantageous where resistance to friction and wear is required. In applications such as mechanical transmission components and bearings, the wear resistance of PBT has been effectively utilized. 02Mechanical properties PBT has excellent mechanical properties after modification. It has high strength and fatigue resistance, good dimensional stability and low creep. Therefore, PBT is often used for parts that need to withstand larger loads and be used for a long time. 03Thermal stability PBT has excellent thermal stability, can maintain its performance under high temperature conditions, and is not prone to thermal decomposition or deformation. This makes PBT an ideal choice for withstanding high-temperature working environments, such as wire connectors and insulating parts in electronic and electrical equipment. 04Flame retardancy PBT has good flame retardant properties after modification and can meet the flame retardant requirements of some special fields. UL94 is a standard for testing the flame retardant properties of materials. The flame retardant grade of PBT engineering plastics can reach UL94 V-0 level, which means that in the flame test, the burning time of the PBT sample is shorter than 10 seconds, and there is no flame retardant during the burning process. dripping phenomenon. This makes PBT molding materials widely used in fields with high requirements for flame retardancy, such as the electronic and electrical industry, providing reliable guarantee for safety performance.
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  • PPA-NA-LGF
    LFT-G PPA reinforcement filling long glass fiber pellets for car parts large products
    PPA plastic PPA is made by polycondensation of aliphatic diamine or diamine with benzene ring-containing diamine or diamine. Compared to aliphatic polyamides, the introduction of a rigid benzene ring in the molecular chain results in a significant increase in mechanical strength and heat resistance, as well as a significant decrease in water absorption. Compared with aromatic polyamides, semi-aromatic polyamides have more flexible aliphatic structures in the molecular weight and lower melting points, which effectively improves the processing performance of aromatic polyamides. Because PPA has both the excellent performance of aromatic polyamide and aliphatic polyamide good molding processability, after years of development has become one of the most important varieties of special engineering plastics, is widely used in electronic and electrical appliances, automotive industry and other fields. PPA filling Long glass fiber compounds Glass fiber reinforced PPA composites are considered to be the best resin for replacing steel with plastic because of their high temperature resistance, high strength and low density. Long glass fiber reinforced PPA composites have better physical and mechanical properties than conventional short-cut fiber reinforced pellets. LCF & SGF Datasheet for reference Applications Customers & Us
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  • PLA-NA-LCF30
    LFT-G Polylactic acid filled long carbon fiber Polymers high performance
    What is long carbon fiber PLA? While biobased polylactic acid (PLA) thermoplastics are relatively eco-friendly and easy to recycle, composites such as carbon fibre are much stronger. 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. What is long carbon fiber? Long carbon fiber reinforced composites offer siginificant 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. 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 PLA materials Long carbon fiber PLA is an ideal material for frame, support, shell, propeller, chemical instrument and so on. Drone makers and RC enthusiasts especially like it, too. Ideal for applications requiring maximum stiffness and strength. Details Number PLA-NA-LCF30 Color Original black (can be customized) Length 12mm (can be customized) MOQ 20kg Package 20kg/bag Sample Available Delivery time 7-15 days after shipment Port of Loading Xiamen Port Exihibition 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
    LFT-G high quality Nylon PA12 filled LGF self-own factory for automotive parts
    PA12 materials PA12 is nylon 12, also known as poly dodecalactam, poly laurolactam, is a long carbon chain nylon. Nylon 12 in the existence of non-polar methylene groups, and a large number, which makes the nylon 12 molecular chain of the greater flexibility; nylon 12 amide groups in the polarity, and cohesion energy is very large, and its molecules can be formed between the hydrogen bonding, so that the molecular arrangement of the more regular. Therefore, the crystallinity of nylon 12 is high, and the strength is also high. Nylon 12 (PA12) low water absorption, good low temperature resistance, good airtightness, alkali resistance, grease resistance is excellent, resistance to alcohols and inorganic dilute acids and aromatics performance is medium, mechanical properties and electrical properties are also good, and is a self-extinguishing material. PA12 filling Long carbon fiber compounds
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  • PA6-NA-LCF
    LFT-G High Quality Nylon Polyamide 6 Long Carbon Fiber Reinforced Plastics
    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
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  • CPP-NA-LCF
    Xiamen LFT Polypropylene filled Long Carbon Fiber modified plastic high strength and rigidity
    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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  • PEEK-NA-LCF30
    Xiamen LFT-G PEEK high quality modified thermoplastic fill long carbon fiber for automotives
    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 filling Long Carbon Fiber? 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 of PEEK for reference Application of PEEK CF 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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  • PA66-NA-LCF40
    Xiamen LFT-G Polyamide 66 Long Carbon Fiber filled wear resistance for auto parts
    Physical properties of nylon materials Excellent mechanical properties: high mechanical strength, good toughness. Excellent self-wetting, wear resistance: small coefficient of friction, long service life as a transmission component. Excellent heat resistance: PA66 heat distortion temperature is very high, can be used for a long time at 150 degrees Celsius, PA66 after glass fiber reinforced, the heat distortion temperature of 252 degrees Celsius or more. Excellent electrical insulation properties: its volume resistance is very high, high breakdown voltage resistance, is an excellent electrical/electronic insulation materials. Introduction of Nylon66 filled LCF pellets PA66 is a high-performance engineering plastics, moisture absorption, poor dimensional stability of products, strength and hardness and metal. In order to overcome these shortcomings, as early as the 1970s, people use carbon fiber and glass fiber to enhance to improve its performance. PA66 reinforced with carbon fiber fiber materials in recent years the development of faster, because PA66 and carbon fiber are excellent performance in the field of engineering plastics materials, the composite material comprehensive embodiment of the superiority of the two, such as strength and rigidity than the unenhanced PA66 is much higher than that of the high-temperature creep is small, the thermal stability of a significant improvement in the dimensional accuracy of the good, wear-resistant. At present, PA66 carbon fiber composite materials are mainly short-cut or long carbon fiber reinforced particles, has been widely used in the automotive industry, sporting goods, textile machinery, aerospace materials and other fields. Carbon fiber is lightweight, high tensile strength, abrasion resistance, corrosion resistance, creep resistance, electrical conductivity, heat transfer, etc. It is very similar to glass fiber, but superior to glass fiber. Compared with glass fiber, the modulus is 3 times higher, which is a material with high rigidity and high strength. Datasheet of PA6-LCF for reference From the experiments of the technical department, we know that the bending strength, bending modulus of elasticity, impact strength and plane shear strength of the carbon fiber PA66 fiber-added material increase with the increase of carbon fiber content, transverse shear strength slightly decreased, overall the strength of the material has increased dramatically. Application of PA66-LCF Certificate Quality Management System ISO9001/16949 Certification National Laboratory Accreditation Certificate Modified Plastics Innovation Enterprise Honorary Certificate Heavy metal REACH & ROHS testing Factory & Lab Q & A 1. Is there a unified reference data for carbon fiber product performance? The performance of specific carbon fiber filaments is fixed, such as Toray's carbon fiber filaments, T300, T300J, T400, T700 and so on, there are a series of parameters can be traced. However, there is no uniform standard to measure the carbon fiber composite products. Firstly, the different types of raw materials selected will lead to different performance of the products, and then due to the choice of matrix and the different design of the products, it will lead to different performance of the products. In addition to some common carbon fiber tubes, carbon fiber boards and other conventional parts, most of the carbon fiber products in the production of the sample before the test to determine whether the performance of the product is in line with the use of the expected standard, and as a base point, so as to carry out the production and use of large quantities. 2. Are carbon fiber composite products expensive? The price of carbon fiber composite products is closely related to the price of raw materials, the level of technology and the quantity of products. Some products of the industrial environment requirements are high, the performance of carbon fiber products and materials have special requirements, which requires the selection of specific raw materials, raw materials, the higher the performance of the natural price of the more expensive, such as the application of orthopedic carbon fiber PEEK thermoplastic materials. Of course, the more complex the production process, the greater the working time and workload, and the production cost increases. However, the larger the order quantity, the lower the cost per piece, once the mass production of a particular carbon fiber product has been established. In the long run, the superior performance of carbon fiber will prolong the service life of the product, reduce the number of maintenance, and is also very beneficial to the reduction of the cost of use. 3. Are carbon fiber composite products toxic? Carbon fiber composites are made of carbon fiber filaments mixed with ceramics, resins, metals and other matrices, generally not toxic. For example, the above mentioned PEEK material is a food grade resin, this material has good compatibility...
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  • PA6-NA-LCF
    LFT-G High Quality Nylon Polyamide 6 Long Carbon Fiber Reinforced Plastics
    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
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