Neway Precision Works Ltd R&D Team

  MIM 440C Stainless Steel Metal Injection Molding service Martensitic 440C stainless steel  metal injection molded parts  offer exceptional hardness, strength, and corrosion resistance. The high carbon and chromium contents enable excellent wear resistance with the ability to reach hardness levels over HRC 60. However, 440C maintains sufficient toughness and impact strength to avoid brittle behavior. But 440C has a lower ability to withstand dynamic loads. The fine carbide distribution and refined microstructure from the  metal injection molding (MIM) process  improve fatigue strength and ductility versus the  precision casting process . Post-sintering heat treatment allows ultimate tensile strengths over 2000 MPa to be achieved. The balanced properties of MIM 440C make it well suited for applications requiring high hardness for wear resistance combined with excellent corrosion performance. Typical uses include: Plastic injection molds. High-performance ball bearings. Valves. Nozzles

  MIM-430 Stainless Steel Metal Injection Molding Service Metal injection molding service of ferritic 430 stainless steel provides excellent corrosion resistance, formability, and ductility. Adding chromium provides oxidation and corrosion resistance superior to lower alloy steels. MIM refinement of the ferritic microstructure improves toughness and impact strength versus precision casting . Post-sintering annealing enhances ductility and formability. The excellent corrosion resistance of MIM 430 stainless steel makes it well-suited for applications involving exposure to water, chemicals, and weathering, including marine components, medical devices, and food processing equipment. Good drawing ability also allows it to be readily formed into complex shapes. The material is commonly used for automotive trim parts, appliances, and architectural components where corrosion performance and formability are required. Compared to other MIM stainless steel , metal injection molded 430 stainles

  MIM 420 Stainless Steel Metal Injection Molding service Metal injection molding service of martensitic 420 stainless steel is ideal for high strength, hardness, and corrosion resistance. The material possesses excellent wear resistance, toughness, and flexibility in hardened conditions. These attributes make 420 stainless steel suitable for various demanding applications. The metal injection molding (MIM) process refines the martensitic microstructure leading to enhanced mechanical properties versus casting. Hardenability is also improved. Post-sintering heat treatment like quenching and tempering allows ultimate tensile strength over 1500 MPa. MIM 420 stainless steel is commonly utilized in applications including plastic injection molds , medical knives and cutting tools, valves and seals, aerospace fasteners, ball bearings, and surgical implants. The material is also seen in marine components (Not sea water) and food processing equipment, where hardness, wear, and corrosion per

  Metal injection molding (MIM) service  has become attractive for producing complex, net-shape aerospace components with tight tolerances. MIM combines the versatility of plastic injection molding with the whole material properties of sintered metals. Fine metal powder mixed with a polymer binder can be injection molded into various geometries. After binder removal and high-temperature sintering, the final parts retain their molded shape with excellent mechanical properties. Our company specializes in providing full-scale MIM services from design to finished components. With extensive aerospace engineering experience, we offer rapid prototyping of new designs and scalable production of existing parts. Our capabilities include: Complex multi-cavity mold design. Feedstock formulation. Precision high-volume molding. Automated debinding and sintering. Final machining. We work with proven aerospace alloys like titanium, nickel, stainless steel, and cobalt chrome. Contact us today to discus

  MIM 316L Metal Injection Molding Service MIM 316L metal injection molding service combines the high complexity, high precision, and low cost of mass production of plastic injection molding with the excellent physical and chemical properties of 316L-MIM material. 316L MIM parts offer excellent corrosion resistance, strength, and biocompatibility. They are ideal for applications like medical implants, surgical instruments, marine hardware, and chemical processing equipment where durability and corrosion resistance are critical. 316L provides good mechanical properties while maintaining the stainless steel's anti-corrosive benefits. MIM 316L Stainless Steel Typical Properties Download PDF: MIM-316L Stainless Steel Datasheet MIM 316L Stainless Steel Chemical Composition Iron (Fe) Chromium (Cr) Nickel (Ni) Molybdenum (Mo) Manganese (Mn) Silicon (Si) Carbon (C) Phosphorus (P) Sulfur (S) 316L Balance 16.5 12 2.1 0.8 0.6 0.02 0.04 0.01 MIM 316L Stainless Steel Mechanical Properties Ten

  Advanced Ceramics Injection Molding Services Advanced ceramics, often called technical or engineering ceramics, are ceramic materials that exhibit exceptional properties beyond traditional ceramics. These ceramics are designed and engineered to meet specific performance requirements for various aerospace, electronics, automotive, medical, and other applications. Advanced ceramics injection molding services combine the complexity of the plastic injection molding process and the excellent properties of advanced ceramics parts. Some examples of advanced ceramics include alumina (Al2O3), zirconia (ZrO2), silicon carbide (SiC), silicon nitride (Si3N4), and more. These materials are used in diverse fields where their high-temperature stability, wear resistance, electrical insulation, and biocompatibility offer crucial advantages for cutting-edge technologies and innovative solutions. What Are The Advanced Ceramics Advanced or technical or engineering ceramics refer to a class of ceramic

  17-4 PH Metal Injection Molding 17-4PH stainless steel is a precipitation-hardening martensitic stainless steel that contains approximately 17% chromium and 4% nickel as its major alloying elements. It offers an excellent combination of high strength, good corrosion resistance, and ease of machinability. 17-4PH is widely used for metal injection molded parts because it can achieve high strength and hardness through heat treatment while retaining good corrosion resistance and excellent mechanical properties. The metal injection molding process combines the advantages of plastic injection molding with excellent properties of 17-4 PH. Plastic injection molding process allows high complexity for 17-4 PH MIM parts. Precipitation hardening heat treatment allows 17-4PH MIM parts to attain high tensile strength, yield strength, and hardness needed for demanding applications. Common 17-4 PH Grade Used in MIM Download PDF: MIM 17-4 PH Datasheet Typical 17-4 PH has five grades, including 17-4