Product number: PPS-NA-LGF Product color: Natural color Fiber specification: 20%-60% Product feature: 94-VO Flame retardant, High toughness, Low warpage, Fatigue resistance, Good appearance of product. Product application: Water heater impeller, Pump shell, Joint, Chemical pump impeller, Cooling water impeller, Home appliances parts.

ABS Plastic | Acrylonitrile Butadiene Styrene Engineering Thermoplastic ABS (Acrylonitrile Butadiene Styrene) is a widely used engineering thermoplastic known for its excellent impact resistance, mechanical strength, and processing versatility. ABS plastic is an amorphous polymer commonly used in automotive, electrical, consumer, and industrial applications. What Is ABS Plastic? ABS plastic is a thermoplastic polymer produced by polymerizing acrylonitrile, butadiene, and styrene. Each component contributes specific performance advantages: Acrylonitrile – chemical resistance and thermal stability Butadiene – toughness and impact resistance Styrene – rigidity, surface quality, and processability Due to this balanced structure, ABS engineering plastic offers high impact resistance, good dimensional stability, and easy processing, making it one of the most versatile thermoplastics on the market. ABS is non-toxic in solid form, provides good electrical insulation, and is widely accepted as a safe and reliable material for mass production. Main Advantages of ABS Plastic As a general-purpose engineering thermoplastic, ABS plastic offers the following key advantages: Excellent impact resistance and toughness Good mechanical strength with low weight Easy injection molding, extrusion, and machining Good surface finish and paintability Low electrical and thermal conductivity Cost-effective and widely available ABS can withstand repeated heating and cooling cycles, making it suitable for recyclable applications and long-term industrial use. ABS Plastic vs PLA: Material Comparison ABS and PLA are both popular thermoplastics, but they serve very different application requirements. ABS is a tougher and more durable engineering plastic, while PLA is primarily used for prototyping and hobbyist 3D printing. ABS vs PLA: Mechanical Strength ABS offers higher impact resistance and toughness than PLA PLA is stiffer but more brittle ABS vs PLA: Heat Resistance ABS softening temperature: ~105°C PLA softening temperature: ~60°C Due to its superior heat resistance, ABS is better suited for functional parts exposed to elevated temperatures. ABS vs PLA: Dimensional Stability & Accuracy PLA is easier to print and produces dimensionally stable parts during 3D printing. ABS, however, tends to warp during printing but performs better in real-world mechanical applications once molded. ABS vs PLA: Surface Finish Both materials show visible layer lines in FDM printing. ABS can be vapor-smoothed using solvents such as acetone, resulting in a smooth and glossy surface, while PLA typically requires sanding or coating. ABS vs PLA: Environmental Impact PLA is biodegradable under industrial composting conditions ABS is not biodegradable but is recyclable PLA degradation requires controlled industrial conditions and can take decades in natural environments. ABS offers long service life and durability for industrial products. ABS vs PLA: Cost Comparison Both ABS and PLA are low-cost thermoplastics. ABS may be slightly more expensive, but the difference is generally minimal and application-dependent. Typical Applications of ABS Plastic Thanks to its balance of toughness, processability, and cost efficiency, ABS engineering plastic is widely used in: Automotive interior and exterior components Electrical and electronic housings Consumer products and appliances Industrial enclosures and structural parts Injection molded and extruded components

Polyphthalamide has many uses. It is used for electronics and electrical, automotive, cables & wires, and many other applications. 

PLA & LGFPLA – Eco-Friendly and Reinforced Bioplastics PLA (Polylactic Acid) is a non-natural polyester and one of the most promising "green plastics." Known for its biocompatibility, biodegradability, and high mechanical strength, PLA can be completely degraded by microorganisms into CO₂ and water, making it non-toxic and environmentally friendly. PLA offers mechanical properties similar to polypropylene, while providing the gloss, clarity, and processability of polystyrene. With a lower processing temperature than polyolefins, PLA can be molded via injection molding, extrusion, blow molding, spinning, and other general plastic processes. Its applications range from disposable packaging and fibers to nonwovens, and extend to medical, chemical, pharmaceutical, and 3D printing industries. Long Glass Fiber Reinforced PLA (LGFPLA) Glass fiber is an inorganic non-metallic material with excellent insulation, heat resistance, corrosion resistance, and mechanical strength. When used to reinforce PLA, it creates Long Glass Fiber PLA (LGFPLA), a high-performance thermoplastic composite with glass fibers 10–25mm long, forming a 3D structure for superior strength and stability. LGFPLA is available as columnar pellets, typically 12mm (for injection molding) or 25mm (for compression molding) in length, with glass fiber content from 20% to 60%. Colors can be customized to match client requirements. Advantages of LGF vs SGF (Long Fiber vs Short Fiber PLA) Longer fiber length improves mechanical properties and part durability. High specific stiffness and strength, with excellent impact resistance — ideal for automotive parts. Improved creep resistance and dimensional stability for precise molding. Outstanding fatigue resistance and long-term reliability. Stable performance in high temperature and humid environments. Minimal fiber damage during molding due to fiber mobility within the mold. Technical Specifications Product Number Color Length Fiber Specification Package Sample Port of Loading Delivery Time PLA-NA-LGF Natural or customizable 6–25mm 20%–60% 25kg/bag Available Xiamen Port 7–15 days after shipment Lab & Factory Xiamen LFT Composite Plastic Co., Ltd. Xiamen LFT Composite Plastic Co., Ltd. specializes in developing and producing long glass fiber (LGF) and long carbon fiber (LCF) reinforced thermoplastic composites (LFT-G, LFRT, LFT). Our materials are lightweight, high-strength, impact-resistant, and environmentally friendly, offering excellent corrosion and chemical resistance along with superior molding performance. Our products are used across industries including automotive, aerospace, military, electrical, medical, sports equipment, and daily consumer goods, producing components such as gears, rollers, pulleys, pump impellers, fan blades, and more.

Product model: TPU-NA-LGF Product fiber content: 20%-60%

Fiber specification: 20%-60% Product feature: High strength, High toughness and durability

PA66-LGF Long Glass Fiber Reinforced Nylon PA66, or Nylon 66, is a high-performance polyamide widely used in engineering plastics. It offers excellent mechanical properties including tensile strength, flexural strength, and impact resistance, along with superior thermal and chemical stability. With lightweight, high wear resistance, good electrical insulation, and self-extinguishing properties, PA66 is ideal for automotive, electrical, industrial equipment, and construction applications. Why Reinforce PA66 with Long Glass Fiber? While PA66 is versatile, it has limitations: high water absorption, low compressive strength when wet, poor alkali resistance, and potential deformation at ultra-low temperatures. Long glass fiber (LGF) reinforcement addresses these challenges. Adding LGF significantly improves impact resistance, thermal deformation resistance, mechanical performance, molding processability, and chemical resistance. LGF acts as a robust internal skeleton, enhancing the durability and reliability of PA66 components. PA66-LGF Technical Datasheet *The datasheet is tested by Xiamen LFT and provided for reference only.* Applications of PA66-LGF PA66 reinforced with 30% long glass fiber is ideal for high-performance applications such as: Automotive components and structural parts Power tool housings and mechanical parts Industrial equipment components For specialized applications, please consult our technical team. PA66-LGF Product Details Number Color Length Sample MOQ Port of Loading Delivery Time Payment Terms PA66-NA-LGF30 Original color (customizable) 12mm (customizable) Available 25kg Xiamen Port 7-15 days after shipment Discussed Xiamen LFT Composite Plastic Co., Ltd Xiamen LFT Composite Plastic Co., Ltd. is a leading manufacturer specializing in long fiber reinforced thermoplastics (LFT & LFRT), including Long Glass Fiber (LGF) and Long Carbon Fiber (LCF) series. Our thermoplastic LFT can be applied in LFT-G injection molding, extrusion molding, and LFT-D molding. We provide products according to customer requirements with fiber lengths from 5 to 25mm. Our continuous infiltration reinforced thermoplastics have passed ISO9001 & 16949 certifications and hold numerous national patents and trademarks. Our Services Technical parameters and leading-edge design of LFT & LFRT materials Mold front design recommendations Technical support for injection molding and extrusion molding processes

PA6 & PA6-LGF Long Glass Fiber Reinforced Nylon PA6, also known as Nylon 6, is a high-performance polyamide widely used in engineering plastics, fibers, and films. It is a thermoplastic polymer with repeating amide groups (-NH-CO-) in the main chain, offering strong mechanical properties and versatile processing capabilities. What is PA6 Plastic? PA6 is an aliphatic polyamide that provides excellent strength, wear resistance, and chemical resistance to weak acids, alkalis, and certain organic solvents. Its lightweight and processable nature make it widely applied in fibers, engineering plastics, and thin films. However, the polar amide groups in PA6 easily form hydrogen bonds with water molecules, which can result in high moisture absorption, dimensional changes, and reduced impact strength in dry or low-temperature conditions. Advantages of PA6 High mechanical strength and toughness with excellent tensile and compressive properties Outstanding fatigue resistance, maintaining strength after repeated bending High softening point, heat resistant Low friction and wear-resistant surface Corrosion resistance to alkalis, salts, weak acids, oils, and most solvents Self-extinguishing, non-toxic, odorless, and good weather and biological resistance Excellent electrical insulation even in high humidity environments Lightweight, easy to dye, and easy to mold due to low melting viscosity Limitations of PA6 High moisture absorption (up to 3% when saturated) Poor light and thermal stability; prolonged high-temperature exposure may cause discoloration and surface cracking Strict injection molding requirements; trace moisture can affect product quality Dimensional stability is sensitive to thermal expansion and wall thickness variations Not resistant to strong acids or oxidizing agents; unsuitable for acid-resistant applications Why Reinforce PA6 with Long Glass Fiber? To overcome the natural limitations of PA6, long glass fiber (LGF) reinforcement is applied. PA6-LGF composites combine the lightweight, chemical, and heat resistance of PA6 with the mechanical strength and dimensional stability of long glass fibers. LGF reinforcement improves tensile, compressive, and flexural strength, reduces shrinkage, enhances fatigue resistance, and provides improved thermal and chemical stability. This makes PA6-LGF ideal for high-performance structural components. Applications of PA6-LGF PA6 reinforced with 30% long glass fiber (30% LGF) is widely used in: Power tool shells and components Engineering machinery parts Automobile structural and functional components The composite improves mechanical strength, dimensional stability, heat resistance, aging resistance, and fatigue resistance. Its fatigue strength can be up to 2.5x that of unreinforced PA6. Processing and Forming Tips for 30% PA6-LGF Shrinkage is reduced to ~0.3% compared with 1–1.5% for pure PA6. Excessive fiber content may cause surface floating fibers and poor compatibility. 30% LGF is recommended for balanced performance. Recycled material content should be kept below 25% to avoid color and mechanical property degradation. Gradual cooling after molding prevents warping due to fiber orientation during injection molding. Mold design, gate position, and temperature control are critical. Customers & Staffs Certificates

Polypropylene, also known as PP, is a polyolefin or saturated polymer. It is a low-density thermoplastic with good resistance to heat. Other characteristics of PP include: chemical resistance, elasticity, toughness, fatigue resistance, and electrical insulation capability. 

Grade: General grade, Heat-resistant grade, UV-resistant grade, Toughen resistant grade Fiber specification: 20%-70%

With its unique balance of strength, barrier performance, and stability, MXD6-LGF is the ideal solution for demanding applications.

Polyphthalamide (PPA) is a semicrystalline, aromatic polyamide. It is in the polyamide, or nylon, family. Compared to Nylon 6/6, it is stronger, stiffer, less sensitive to moisture, and has higher thermal capabilities. In addition, it has significant resistance to chemical fatigue and mechanical creep.