Features of carbon steel components:
·Product name: Carbon Steel CNC Milling Parts
·Material:Carbon Steel, Barss, Copper, Stainless Steel, Alumnum, Titanium Alloy
·Machining Tolerances:0.01mm
·Machining Process:
CNC Milling, Drilling, Forging
·Min. Order:500PCS
·Surface Treatment: Polishing, Heat Treatment, Sand Blasting, Zinc Plated, Anodization, Chemical Fim,
·Packing: Carton Box, Blister tray, Pallet, Wooden Case.
·Certificate:ISO9001:2008, ISO/TS16949
As a
carbon steel components manufacturer, we provide
metal milling service.
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What we can Provide:
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Machining Material:
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CNC Machining Service
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Carbon Steel
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CNC Turning Service
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Stainless Steel
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CNC Milling Service
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Aluminum
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Cold Forging Service
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Brass
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Metal Stamping Service
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Copper
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Titanium Alloy
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Surface Treatment
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Application:
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Heat Treatment
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Automobile Spare Parts
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Sand Blasting
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Electrical Appliance Industry
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Polishing
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Electronics Industry
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Zinc Plated
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General Industry
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Anodization
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Machinery and Equipment
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Chemical Fim
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Hydraulic and Pneumatic
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Description of carbon steel components
Carbon Steel is one of the most widely used materials in machining, which is why milling steel (conventional or automated) has become an indispensable machining process for many steel grades. However, not all steels can be machined without problems since the alloying elements that are added strongly influence the machinability . This can be avoided with the right tool choice and optimally set machine parameters.
What should be considered when milling steel?
When milling carbon steel, users should have appropriate knowledge of materials science in order to select the appropriate tool for the respective steel. Depending on the hardness of the material, the machining process takes place at the lowest processing speeds and using a suitable cooling lubricant (KSS), which is why steel milling minimizes ridge formation on the edges and reduces the applied milling force.
Steel milling is alloy dependent
The machinability of steel depends on the respective alloy components. Chromium, molybdenum, nickel, titanium, and vanadium increase steel hardness and cutting forces, reducing machinability and tool life. Although sulfur and phosphorus favor the machining process with short-brittle shavings, the strength of the steel decreases and there is a risk of built-up edge formation. Manganese favors machinability in steels with a low carbon content. By contrast, steel with a high carbon content becomes harder due to the admixture of manganese, which leads to a deterioration in machining and a shortening of the service life of the milling cutters.
