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Precision forging is worked in a close to final shape or close-tolerance forging way. It is a refinement forging techniques compare to traditional closed die forging technology. When you need a
product with near net shape or net shape, precision forging is the right choice to source, such forging technic will refine the product to little or no machining.
There are lots of differences between precision forging and Conventional closed die forging method. Closed die forging may required full machining on the surfaces of products. Main characteristics of precision forging are: slight draft angles, close tolerances, small radii, and perfect surface finish.Also like Conventional closed die forging, precision forging will require forging dies/mould to guarantee the precision degree. And the requirement of precision forging is much higher, so it will cost more to produce and maintain the dies/mould. Additionally, cost is a main factor in precision forging,cost of precision forging will mainly be affected by both time and labour factors.1) High material utilization. As there is no flash in precision forging, according to the designed processes, material will be forged into desired shape after plastic deformation. Some parts will require only a small amount of machining after forging, and some can be put into use directly, no machining is required. Such as five tons of truck drive shaft and cross shaft, common forging process may require laying off 1.69 kg material per piece, howeve precision forging materials only need about 0.9 kg per piece.2) Good working performance. Parts produced by precision forging,the metal fiber is evenly distributed along the contour shape, dense and continuous. For precision forgings without flash,there will not exsit leakage of metal fibre that caused by removing flash, this will be good for improving stress corrosion resistance and fatigue resistance of products.3) Complicated shape parts are available in precision forging. We all know that conventional closed die forging process is limited to produce parts with simple shape. However, in precision forging process, more complex shape is allowed, which is the same as casting.4) High precision. After precision forging, we will get net or near net shape products, such high precision will require just very little or even no machining job.See page Precision Forging vs Precision Casting to learn more about precision forging...As the precision forging manufacturer and supplier in China, we offer OEM service and exporting service for customers from USA, UK, Australia, Canada, etc. Such precision forgings are mainly involved in automotive components, agricultural machinery parts, railway components, mining machinery parts. In addition to forging, we can also provide other services like machining, heat treatment, surface treatment, custom package, etc.
Today, manufacturers frequently forge brass and copper alloys. Although the specific type of forging depends upon the particular composition of the metal, generally these alloys lend themselves to cold, warm and hot forging techniques. The process of forging enables these metals to display strength and superb physical properties. During forging, manufacturers typically use a set of dies to form and shape metal into desired dimensions.
Forging readily permits the creation of copper bars, rods, wires, sheets and more. Some common copper alloys include copper nickel, naval brass, aluminum bronze, chromium copper and chromium zirconium copper. Most brass alloys include both copper and zinc. The level of zinc will influence the forging process and the strength and ductility of the final products.
Today, manufacturers enjoy access to a myriad of different copper and brass alloys. They may select individual metals to use in copper and brass alloy forgings based upon their properties and intended applications.
Some metals, such as silver, exhibit superb antibacterial characteristics. Copper displays antimicrobial properties against some types of bacteria. These properties may influence a manufacturers selection of alloys. Copper maintains excellent electrical conductivity. Copper and brass typically exhibit high electrical and thermal conductivity, high ductility, excellent joining and plating properties, and corrosion resistance. Non-magnetic and non-sparking, these metals work well for machining purposes also.
Although vulnerable to sulfides, copper and copper alloys generally display resistance to corrosion caused by steam. Tough, highly ductile and malleable, manufacturers can draw wire, form tubes and conduct deep drawing and spinning using copper.
Many brass alloys include both copper and zinc. Zinc enhances the strength and versatility of brass alloys, which may benefit from heat treatments such as tempering and annealing in order to reduce susceptibility to stress corrosion cracking.
Copper and brass forgings offer distinct advantages to manufacturers. Some of the general benefits include:
superior mechanical characteristics
high density;
dimensional accuracy;
repeatability;
excellent surface finishes
Forging will augment and enhance many of the intrinsic properties of brass and copper. For instance, forging may increase the working of these metals. Work may occur both during forging and also during the process of rod extrusion. The net result of multiple working usually involves increases in the strength and the impact and abrasion resistance properties of brass and copper.
Additionally, higher leak resistance may occur as forging density increases. Fewer variations in dimensions also occur during extensive forging processes.
Contact us to discuss your requirements of Precision copper forging parts Factory. Our experienced sales team can help you identify the options that best suit your needs.
Maximum cost savings often result when manufacturers rely on mass production of copper and brass forgings. Grappling with specific design issues may warrant small production runs of copper alloy forgings. For example, these types of limited runs may permit manufacturers to address close tolerances, non-symmetrical shapes and leak integrity issues cost-effectively before seeking larger production runs.
Today, manufacturers produce brass and copper forgings using a variety of brass and copper alloys. Foundries rely upon cold, warm or hot forging processes. The desired qualities of the finished metal part usually determine the types of production processes employed.
Manufacturers can use cold forming to work with most alloys of brass and copper. The ability to use cold forging depends upon the chemical composition of the alloy, and the metals annealed properties. Both reliable and cost-effective, cold forging may improve a metal parts hardness and ductility. The use of cold forging usually involves cost savings. It may increase the toughness of a component, and permit the creation of excellent dimensional accuracy and a high surface quality in a finished part. Highly productive production runs sometimes use this process, which may include activities such as cold drawing, cold heading, bending and more in order to produce diverse shapes.
Brass and copper alloys display versatile properties. Manufacturers often seek to shape and work these materials in a variety of ways. During the process of warm forging, a manufacturer uses an elevated temperature to forge copper and brass. The temperature range remains lower than during hot forging, but does rise to a level above room temperature. In general, utilizing warm (as opposed to hot) forging assists tooling life, individual part tolerance ranges and sometimes, surface finishes.
A process called hot forging enables the production of many brass and copper parts. In this process, metals undergo plastic deformation at high temperatures. Manufacturers use this process to forge complex shapes unavailable through the processes of cold or warm forging. Hot forged copper and brass alloys display increased ductility. They also typically demonstrate an excellent surface quality. The process of hot forging proves especially useful in the creation of custom-designed brass and copper forged parts.
Why do customers choose Bunty LLC at their source for high quality copper and brass forgings? We furnish assistance at every stage in the process of creating excellent custom-designed forgings. Our goal remains complete customer satisfaction.
By selecting Bunty LLC, youll obtain an outstanding selection of brass and copper alloys to use in the creation of metal components meeting your specifications. We support a wide variety of applications.
Additionally, our well-equipped manufacturing facility enables us to draw upon high-precision equipment to assist the creation of forgings meeting customer requirements. Well complete projects using modern machinery. We perform rigorous quality control procedures to help maintain part consistency.
We take great pride in supplying high quality customized brass and copper forgings at competitive prices. Call us to obtain additional information, or request a quote via the convenient website information request form!
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