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目前显示的是 九月, 2023的博文

Die Casting vs. Sand Casting: Making the Right Choice

  Brief Overview of Casting Processes Casting processes are pivotal in custom manufacturing, offering a versatile means of creating complex and intricate metal components. Casting methods, such as die casting and sand casting, are indispensable in various industries, including Consumer Electronics, Telecommunication, Lighting Solutions, Power Tools, and Locking Systems. Die casting is a precision-oriented technique known for its high-precision capabilities with tolerances as tight as 0.1 mm. It involves injecting molten metal, often aluminum or zinc, into steel molds under high pressure, resulting in products characterized by superior surface finish and dimensional accuracy. On the other hand, sand casting , a more traditional approach, relies on sand molds to shape metal parts. While it may not match die casting's precision, sand casting excels in versatility, cost-effectiveness, and suitability for larger, more complex components. It applies in industries such as Lighting Soluti

What is Plastic Injection Molding Service | Everything You Need to Know

Introduction to Injection Moulding Plastic Injection molding is widely used for producing large-volume custom plastic parts. It's highly beneficial for mass-production processes where the exact part is being created thousands or even millions of times in succession. The principal advantage of injection molding service is the ability to scale production en masse. Once the initial costs have been paid, the price per unit during injection molded manufacturing is meager. The price also tends to drop drastically as more parts are produced. Steps of Plastic Injection Molding The injection molding process involves six significant steps: Clamping:  The first step in the injection molding process is clamping the mold. It is done to secure and prepare the mold for the material injection. Injection:  The next step is injecting the molten plastic into the mold. The plastic is first melted in the injection molding machine and then injected into the mold, which cools and solidifies into the fin

Metal Sintering Process in Powder Metallurgy and MIM Parts Production

  Neway's Role in Powder Metallurgy As a trailblazer in Powder Metallurgy and Metal Sintering , Neway has carved a niche in producing Metal Injection Molding (MIM) parts . With a rich legacy and a relentless pursuit of innovation, Neway has consistently delivered precision-engineered sintered metal parts to various industries. At the same time, Neway has summed up the experience in 30 years of custom sintering metal parts manufacturing career and has made outstanding achievements in the fields of Self-Lubricating Sintered Bearings, tungsten alloy pressing and sintering forming, and the manufacture of porous metal parts. Neway's Contribution to Powder Metallurgy Neway's prowess in Powder Metallurgy is evident in its ability to produce intricate, high-precision parts in large volumes. The company's proficiency in choosing the suitable metal powder, molding it into the desired shape, and executing the sintering process to form a solid piece sets it apart in the industry.

MIM-Haynes 25 Sintered Parts Manufacturer

  MIM-Haynes 25 Sintered Parts Manufacturer Sintered Haynes 25 MIM Parts For Telecommunication Sintered Haynes 25 MIM parts are components made from Haynes 25, a high-temperature alloy renowned for its strength, corrosion resistance, and durability. These parts are manufactured using the Metal Injection Molding (MIM) process, which allows for precise and complex geometries. Typical applications of sintered Haynes 25 MIM parts in telecommunication accessories include: Connector Components Antenna Mounts Heat Dissipation Components Waveguide Components Satellite Systems Typical Properties of MIM-Haynes 25 Cobalt Alloy Download PDF: Cobalt Alloy MIM-Haynes 25 Datasheet  MIM-Haynes 25 Chemical Composition Nickel (Ni) Cobalt (Co) Chromium (Cr) Iron (Fe) Molybdenum (Mo) Tungsten (W) Titanium (Ti) Aluminum (Al) Carbon (C) Boron (B) 47.5% 20.0% 15.5% 5.5% 4.0% 3.0% 1.5% 0.4% 0.03% 0.015% MIM-Haynes 25 Physics and Mechanical Properties Status Tensile Strength (MPa) Yield Strength (MPa) Impact S

What Are The Applications of Thin-Walled MIM Parts Across Industries?

  What is Thin Wall In Mim? A thin wall refers to having a shallow thickness or narrow cross-section compared to an object or structure's overall size or length. In manufacturing and engineering, "thin wall" refers to components or parts with skinny and delicate sections compared to their dimensions. Thin wall components are typically characterized by walls, surfaces, or features significantly thinner than the rest of the part. These thin sections are crucial for various applications, especially in industries such as Consumer Electronics, Telecommunication, and Lighting Solutions. Thin wall parts offer benefits like reduced weight, improved heat dissipation, and space-saving designs. MIM Process Thin Wall Capability MIM can achieve thin wall capabilities with thicknesses as low as 0.5mm (20 mils) or even thinner in some cases. It is particularly crucial in industries such as Consumer Electronics, Telecommunication, and Lighting Solutions, where compact and lightweight com