Powder metallurgy utilizes metallic powders in the manufacture of shaped components which may be finished or semi-finished products. Also known as press-and-sinter processing, metallurgy is an increasingly common alternative to traditional casting from molten metal or forging at softening temperatures to create application specific metal parts.
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SMC Powder Metallurgy, Inc.St. Marys, PA 814-781-7004 SMC was founded in 1939 in St. Marys, Pennsylvania. For over 60 years, SMC has been providing high-quality powder metallurgy services. Through the years, SMC's outstanding engineering and customer service staff has allowed it to grow significantly. Please contact SMC today with any questions you may have or visit SMC's website for full product and service descriptions.
First BronzeSt. Louis, MO 877-321-3756 Across the United States, First Bronze is viewed as an innovative leader in the distribution of bronze related products. First Bronze serves a wide variety of industries, including agricultural, medical equipment and textile. Our excellent design and engineering group work with you to create the products you need. Let First Bronze be the source for all of your powder metallurgy needs!
GKN Sinter MetalsAuburn Hills, MI 248-371-0800 With a history dating back to the 1930s, GKN Sinter Metals now has production sites in more than 30 facilities around the world and employs over 6,500 associates worldwide. We provide our customers with a wide range of products, technologies and services. Focused on producing the best powder metallurgy, we are committed to delivering the manufacturing and engineering support you need to succeed.
Gateway Sales CorporationTucker, GA 800-328-9124 At Gateway Sales Corporation, we focus on supplying quality powder metallurgy at competitive prices. A team is assigned to your account for total account management, supplying you with weekly reporting for better account management. With that dependable service and quality products offered you can't go wrong when choosing Gateway Sales Corporation for your next project!
FMS CorporationMinneapolis, MN 952-888-7976 At FMS, we promise that our services will be customized to your needs, not compromised by layers competing divisions. Since 1946, we have been providing high quality powder metallurgy and excellent service to our customers. We are not willing to compromise the personal attention that is the backbone of our business. We continue to offer the best customer service in the industry.
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Powder metallurgy heats metal components to temperatures just below the melting point in order to compress and combine them. Because no actual melting occurs, the powders keep their specific properties. These metal powders can be elemental, pre-alloyed or partially alloyed allowing for the creation of highly unique and, more importantly, highly specific metal compositions. Metals that are commonly used in powdered metallurgy and other powdered process include copper, iron, bronze and steel. Automotive, biomedical, aerospace, energy, hardware, computer and electronics industries all utilize this technique. Specific products include powdered metal gears, medical implants, heat shields, magnets and fuel cells. Though not all, many of these items are fully formed with powdered metallurgy and require no secondary manufacturing. The inherent time and money savings of this process are compounded by its high material utilization. Approximately 97% of materials used in press-and-sinter processing end up in the actual parts themselves leaving only three percent as ‘in process scrap.'
There are three basic stages of powder metallurgy. First, the primary material, or materials, must be converted into powder. A number of machines are available for just this purpose. These mechanisms convert stock metal into powder, or finely divided metals, using techniques such as pulverization, chemical reduction, electrolytic techniques, mechanical alloying, atomization and flaking, with the later two being the most common. The powders are then injected into a mold or compact die. These provide the structural constraints for what the final product should be. As the molds are preformed, powder metallurgy is adept at creating intricate parts requiring bends, projections and depressions. The filled mold or die proceeds to the final stage, consolidation. As with the first step, there are a number of possible consolidation techniques to be used. Possibilities include cold unaxial pressing, cold isostatic pressing, sintering, hot isostatic pressing, hot powder forging and metal injection molding. Each of these involves a great deal of pressure, though cold processes must apply considerably more pressure to obtain the cohesion possible in heated consolidation. The final result is a solid metal with variable properties and porosity. In addition to specific mechanisms used, considerations include choice of metal, size of the finished product and quantity. Powder metallurgy manufacturers can assist in making the decisions to create the desired product.
