Neway Precision Works Ltd R&D Team

  Thermosets Injection Molding Comparing thermosets injection molding service with thermoplastics injection molding service . Thermosets are known for their exceptional heat resistance due to their crosslinked structure. They retain their dimensional stability even at high temperatures, making them ideal for heat exposure or thermal cycling applications. Thermoset injection molding parts offer advantages such as superior heat resistance, chemical resistance, electrical insulation, and mechanical strength compared to thermoplastics. However, the choice between thermosets and thermoplastics depends on the specific requirements of each application, including factors such as temperature, chemical exposure, mechanical stress, and aesthetic preferences. Injection Molding Thermosets Materials Optional  Phenolic Resin (PF) - Good electrical insulation and heat resistance. Used for circuit boards and billiard balls.  Epoxy Resin (EP) - Strong adhesion and chemical resistance. They are used for

  Thermoplastics Injection Molding Thermoplastics can be divided into general-purpose plastics, engineering plastics, and special plastics according to their performance characteristics, a wide range of uses, and versatility of molding technology. Neway's thermoplastics injection molding service offers superb quality, competitive price, fast turnaround, Etc. multi advantages The main characteristics of general-purpose plastics are wide application, convenient processing, and comprehensive performance. The characteristics of engineering plastics and special plastics are: specific structures and properties of high polymers are particularly outstanding, the molding processing technology is relatively tricky, Etc., and are often used in professional engineering or particular fields and occasions. Thermoplastics Materials Optional for Injection Molding Commodity thermoplastics: Polyethylene (PE), polyvinyl chloride (PVC), polypropylene (PP), polystyrene (PS), acrylonitrile-butadiene-st

  Ceramic Powder Injection Molding The ceramic injection molding (CIM) process combines conventional plastic injection molding technology with the capability to obtain a wide range of ceramic properties. The manufacturing process produces complex, net-shape ceramic components with good mechanical properties. It is suited for small-sized, high-complexity, Multifunctional Ceramic Parts mass production. Contact Neway today to get excellent CIM parts at competitive prices. Ceramic Materials Optional for CIM Parts Alumina (Al2O3) - Most typical material used in CIM. Provides high hardness and wear resistance. Used for industrial components, cutting tools, and bearings. Zirconia (ZrO2) - Offers high fracture toughness and strength. It is stabilized with yttria. Used for valves, seals, and oxygen sensors. Alumina-Zirconia - Composites combining properties of alumina and zirconia. Improved strength and toughness. Silicon Carbide (SiC) - Excellent high-temperature properties. High hardness, st

Titanium Alloy Metal Injection Molding Titanium alloy metal injection molding utilizing grades like Ti-6Al-4V, Ti-6Al-7Nb, and Ti-5Al-2.5Fe facilitates the economical production of intricate, net-shape titanium components. It combines the design flexibility of  plastic injection molding  with the excellent properties of titanium alloys. Key benefits include high strength-to-weight ratios, corrosion resistance, fatigue strength, and biocompatibility. Titanium MIM also enables consolidation of parts, reduced wastage, and manufacturing of geometrically complex shapes not possible with conventional methods. Overall, titanium alloy MIM is cost-effective for manufacturing lightweight, durable titanium components. Titanium Alloy Optional for MIM Titanium Alloy Optional for MIM Ti-6Al-4V (Grade 5): The most widely used titanium alloy offers an excellent strength-to-weight ratio, corrosion resistance, fatigue strength, and high-temperature capability—an ideal general-purpose alloy. Ti-6Al-7Nb (

  Cobalt Alloy Metal Injection Molding Cobalt alloy MIM facilitates the economical production of intricate components with exceptional biocompatibility, wear resistance, and high-temperature strength. Grades like CoCrMo, CoCrW, and MP35N offer superb corrosion protection and bio-functionality for demanding medical device applications. CoNiCrMo enhances strength and corrosion resistance versus CoCr alloys. Haynes 25 provides tremendous high-temperature capabilities up to 1200°C. Stellite 6 delivers outstanding wear performance in high-friction applications. Cobalt alloy metal injection molding provides tailored solutions for biomedical, aerospace, petrochemical, and industrial components needing specialized properties. Cobalt Alloys Optional for MIM Parts CoCrMo (ASTM F75) - Cobalt-chromium-molybdenum alloy is often used for orthopedic implants due to its biocompatibility and corrosion resistance. The typical composition is 61% Co, 28% Cr, and 6% Mo. Normally used in medical device com