Neway Precision Works Ltd R&D Team

  Brief Overview Of Deep-Drawn Metal Stamping Deep-drawn metal stamping is a pivotal process in metal stamping part manufacturing , offering notable advantages in terms of precision and efficiency. Neway, a leading custom stamping parts manufacturer , leverages deep-drawn metal stamping as part of its comprehensive suite of manufacturing methods. In this process, flat sheet metal is drawn into a three-dimensional shape through progressive dies and punches. This method excels in producing complex, seamless components with high dimensional accuracy. Neway's expertise in deep-drawn metal stamping extends to various materials, including steel, aluminum, and brass. One of the critical benefits of deep-drawn metal stamping is its ability to create parts with minimal material waste, enhancing client cost-effectiveness. It aligns with Neway's commitment to providing efficient and sustainable manufacturing solutions. The process also ensures consistent quality across large production ru

  Brief Overview Of Deep-Drawn Metal Stamping Deep-drawn metal stamping is a pivotal process in metal stamping part manufacturing , offering notable advantages in terms of precision and efficiency. Neway, a leading custom stamping parts manufacturer , leverages deep-drawn metal stamping as part of its comprehensive suite of manufacturing methods. In this process, flat sheet metal is drawn into a three-dimensional shape through progressive dies and punches. This method excels in producing complex, seamless components with high dimensional accuracy. Neway's expertise in deep-drawn metal stamping extends to various materials, including steel, aluminum, and brass. One of the critical benefits of deep-drawn metal stamping is its ability to create parts with minimal material waste, enhancing client cost-effectiveness. It aligns with Neway's commitment to providing efficient and sustainable manufacturing solutions. The process also ensures consistent quality across large production ru

  Metal Injection Molding (MIM) and Investment Casting are two distinct manufacturing processes used to create metal parts, each with advantages and limitations. Metal Injection Molding Process Metal Injection Molding (MIM) is a manufacturing process that combines the versatility of plastic injection molding with the durability and properties of metal materials . Fine metal powders are mixed with a binding agent to create a feedstock, which is then injected into molds to form intricate and precise metal parts. After molding, the parts go through debinding and sintering processes to remove the binder and fuse the metal particles, resulting in high-quality, near-net-shape metal components with excellent mechanical properties. MIM is valued for its ability to produce complex geometries and is widely used in various industries, including automotive, aerospace, healthcare, and electronics. The MIM process is mainly used for manufacturing small and complex parts. Investment Casting Proc

  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 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