Availability: | |
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Quantity: | |
Drawings with formats of IGS (3D), DWG or DXF (Auto CAD 2D), PDF, JPG
Standard of material (Preferable to provide Element Percentage of C, Si, Mn, P, S, etc and Physical/Machanical Properties of the material)
Technical requirements
Unit Weight of Rough Casting
Production technology: Lost-wax casting/investment casting
Vertical wax-injectors
Sand glueing tanks
Wax-evaporator
Intermediate frequency electrical induction furnaces
Spectrum analyzer
Shot blast machines
Heat treatment furnaces
Heat treatment water tank
Acid solution and water cleaning tank
Buffing / polishing machines / Electrical polishing
1.2g~80,000g per piece
Taper hole, deep hole, bent hole D>Ø2mm L=1D
Minimum outside radius R0.3mm, minimum inside radius R0.5mm
Minimum thickness of 1.5mm, some parts with minimum thickness of 0.8mm
Dimension Range (mm) | Common Tolerance | Special Tolerance |
< 25 | +/- 0.25 mm | +/- 0.13 mm |
25 ~ 50 | +/- 0.40 mm | +/- 0.25 mm |
50 ~ 100 | +/- 0.80 mm | +/- 0.50 mm |
> 100 | +/- 1 % | +/- 0.5 % |
Drawings with formats of IGS (3D), DWG or DXF (Auto CAD 2D), PDF, JPG
Standard of material (Preferable to provide Element Percentage of C, Si, Mn, P, S, etc and Physical/Machanical Properties of the material)
Technical requirements
Unit Weight of Rough Casting
Production technology: Lost-wax casting/investment casting
Vertical wax-injectors
Sand glueing tanks
Wax-evaporator
Intermediate frequency electrical induction furnaces
Spectrum analyzer
Shot blast machines
Heat treatment furnaces
Heat treatment water tank
Acid solution and water cleaning tank
Buffing / polishing machines / Electrical polishing
1.2g~80,000g per piece
Taper hole, deep hole, bent hole D>Ø2mm L=1D
Minimum outside radius R0.3mm, minimum inside radius R0.5mm
Minimum thickness of 1.5mm, some parts with minimum thickness of 0.8mm
Dimension Range (mm) | Common Tolerance | Special Tolerance |
< 25 | +/- 0.25 mm | +/- 0.13 mm |
25 ~ 50 | +/- 0.40 mm | +/- 0.25 mm |
50 ~ 100 | +/- 0.80 mm | +/- 0.50 mm |
> 100 | +/- 1 % | +/- 0.5 % |
CNC machining car parts are at the forefront of precision manufacturing, offering a multitude of advantages that enhance the performance and quality of automotive components:
Precision and Accuracy: CNC machines ensure high levels of precision and accuracy, with the ability to produce parts to tight tolerances. This results in consistent quality and reliability, critical for the performance and safety of car parts.
Complex Designs: CNC machining can create intricate and complex designs that would be difficult or impossible to achieve with traditional manufacturing methods. This allows for the production of more efficient and advanced car components.
Material Efficiency: CNC machining uses computer-aided design (CAD) and computer-aided manufacturing (CAM) software to optimize material usage, reducing waste and lowering production costs.
Quick Setup and Changeover: CNC machines can be quickly set up and adjusted for different jobs, reducing downtime and enabling faster production turnaround times.
Surface Finish: Parts machined with CNC have a superior surface finish, which is essential for components that require low friction or aesthetic appeal, such as engine parts and body panels.
Repeatability: CNC machines can reproduce the same part repeatedly with consistent results, ensuring that each part meets the same high standards.
Versatility: CNC machines can work with a wide range of materials, including metals, plastics, and composites, allowing for the production of diverse car parts.
Customization: The ability to customize parts on demand is a significant advantage, catering to the growing demand for personalized vehicles and aftermarket modifications.
Durability: CNC machined parts are known for their durability and strength, as the process can remove material evenly and create stronger stress points.
Integration with Modern Technologies: CNC machining is easily integrated with modern technologies such as 3D printing for prototyping and other advanced manufacturing techniques, streamlining the production process.
In summary, CNC machining car parts offer a blend of precision, efficiency, and versatility that is essential in the modern automotive industry. These advantages not only improve the performance and longevity of vehicles but also meet the increasing demand for high-quality, customized car components.
CNC machining car parts are at the forefront of precision manufacturing, offering a multitude of advantages that enhance the performance and quality of automotive components:
Precision and Accuracy: CNC machines ensure high levels of precision and accuracy, with the ability to produce parts to tight tolerances. This results in consistent quality and reliability, critical for the performance and safety of car parts.
Complex Designs: CNC machining can create intricate and complex designs that would be difficult or impossible to achieve with traditional manufacturing methods. This allows for the production of more efficient and advanced car components.
Material Efficiency: CNC machining uses computer-aided design (CAD) and computer-aided manufacturing (CAM) software to optimize material usage, reducing waste and lowering production costs.
Quick Setup and Changeover: CNC machines can be quickly set up and adjusted for different jobs, reducing downtime and enabling faster production turnaround times.
Surface Finish: Parts machined with CNC have a superior surface finish, which is essential for components that require low friction or aesthetic appeal, such as engine parts and body panels.
Repeatability: CNC machines can reproduce the same part repeatedly with consistent results, ensuring that each part meets the same high standards.
Versatility: CNC machines can work with a wide range of materials, including metals, plastics, and composites, allowing for the production of diverse car parts.
Customization: The ability to customize parts on demand is a significant advantage, catering to the growing demand for personalized vehicles and aftermarket modifications.
Durability: CNC machined parts are known for their durability and strength, as the process can remove material evenly and create stronger stress points.
Integration with Modern Technologies: CNC machining is easily integrated with modern technologies such as 3D printing for prototyping and other advanced manufacturing techniques, streamlining the production process.
In summary, CNC machining car parts offer a blend of precision, efficiency, and versatility that is essential in the modern automotive industry. These advantages not only improve the performance and longevity of vehicles but also meet the increasing demand for high-quality, customized car components.