| Quantity: | |
|---|---|
0000286
JINBIANDA
Shenzhen, China
1000PCS
L/C, T/T, D/P, Western Union, Paypal, Money Gram
| Craft name | Die casting parts service |
| Mold Material | Aluminum,SKD61,45#, P20, H13, 718, 1.2344, 1.2738 and so on |
| Material | Aluminum:ADC12,ADC10,A360,A356,A380,A413,B390,EN47100,EN44100 or customized . Zinc: ZA3#, ZA5#, ZA8# or customized . Magnesium: AZ91D, AM60B or customized . |
| Surface Treatment | Mill-Finished, Powder Coating,Polishing, Brushing, etc. |
| Drawing format | IGES, STEP, AutoCAD, Solidworks, STL, PTC Creo, DWG, PDF, etc.. |
| Deep Processing | CNC / Cutting / Punching / Checking / Tapping / Drilling / Milling |
| Application | furniture,Industry fittings and Construction and Decoration,etc. |
Wheel hubs are exposed to significant forces and vibrations. Custom casting processes ensure the production of hubs with the necessary strength and dimensional accuracy, contributing to safe and stable wheel attachment.
Intake manifolds play a critical role in delivering air to the engine cylinders. Custom casting techniques allow for the production of manifolds with optimized airflow paths and precise port sizes, improving engine performance and fuel efficiency.
Brake rotors are safety-critical components that require exceptional durability and heat dissipation capabilities. Custom casting processes ensure the production of rotors with uniform thickness and minimal warping, contributing to consistent braking performance.
Steering components, such as steering knuckles and tie rods, are integral to vehicle maneuverability and safety. Custom casting techniques enable the creation of these components with precise tolerances and high structural integrity, ensuring reliable steering response.
The production process of precision casting involves several steps, including pattern making, mold preparation, melting and pouring of the alloy, and post-casting treatment. Each step is carefully controlled to ensure the quality and accuracy of the final component. In the automotive and industrial sectors, computer-aided design and manufacturing (CAD/CAM) technologies are widely used in precision casting. These technologies enable the design of complex parts and the accurate production of casting molds, further enhancing the precision and repeatability of the casting process.
Furthermore, precision casting can be optimized for mass production. Once the casting process is set up and validated, large quantities of components can be produced with consistent quality. This is beneficial in the automotive industry, where high-volume production of parts like engine components and transmission parts is required. In industrial manufacturing, it allows for the efficient production of standard components for various machinery and equipment.
| Craft name | Die casting parts service |
| Mold Material | Aluminum,SKD61,45#, P20, H13, 718, 1.2344, 1.2738 and so on |
| Material | Aluminum:ADC12,ADC10,A360,A356,A380,A413,B390,EN47100,EN44100 or customized . Zinc: ZA3#, ZA5#, ZA8# or customized . Magnesium: AZ91D, AM60B or customized . |
| Surface Treatment | Mill-Finished, Powder Coating,Polishing, Brushing, etc. |
| Drawing format | IGES, STEP, AutoCAD, Solidworks, STL, PTC Creo, DWG, PDF, etc.. |
| Deep Processing | CNC / Cutting / Punching / Checking / Tapping / Drilling / Milling |
| Application | furniture,Industry fittings and Construction and Decoration,etc. |
Wheel hubs are exposed to significant forces and vibrations. Custom casting processes ensure the production of hubs with the necessary strength and dimensional accuracy, contributing to safe and stable wheel attachment.
Intake manifolds play a critical role in delivering air to the engine cylinders. Custom casting techniques allow for the production of manifolds with optimized airflow paths and precise port sizes, improving engine performance and fuel efficiency.
Brake rotors are safety-critical components that require exceptional durability and heat dissipation capabilities. Custom casting processes ensure the production of rotors with uniform thickness and minimal warping, contributing to consistent braking performance.
Steering components, such as steering knuckles and tie rods, are integral to vehicle maneuverability and safety. Custom casting techniques enable the creation of these components with precise tolerances and high structural integrity, ensuring reliable steering response.
The production process of precision casting involves several steps, including pattern making, mold preparation, melting and pouring of the alloy, and post-casting treatment. Each step is carefully controlled to ensure the quality and accuracy of the final component. In the automotive and industrial sectors, computer-aided design and manufacturing (CAD/CAM) technologies are widely used in precision casting. These technologies enable the design of complex parts and the accurate production of casting molds, further enhancing the precision and repeatability of the casting process.
Furthermore, precision casting can be optimized for mass production. Once the casting process is set up and validated, large quantities of components can be produced with consistent quality. This is beneficial in the automotive industry, where high-volume production of parts like engine components and transmission parts is required. In industrial manufacturing, it allows for the efficient production of standard components for various machinery and equipment.
