Characteristics Of Different Materials In Precision Turned Parts

Characteristics Of Different Materials In Precision Turned Parts

We are a professional manufacturer of Precision Turned Parts with over 20 years of production and processing experience. Different materials of Precision Turned Parts have their own processing characteristics. The following is a summary of the processing characteristics of some common materials:

1、 Metal materials

Aluminum
Processing characteristics:
Good cutting performance: Aluminum has excellent cutting performance, and chips are easily formed during cutting, resulting in high machining efficiency.
Lightweight: Aluminum has a low density, making the parts lightweight and suitable for applications that require lightweight.
Low cost: Aluminum has a relatively low price and is suitable for mass production.

Stainless Steel
Processing characteristics:
High cutting force: Stainless steel undergoes significant plastic deformation during the cutting process, resulting in high cutting force.
High cutting temperature: Stainless steel has poor thermal conductivity and is prone to high temperatures during cutting, which may lead to tool wear and workpiece deformation.
Work hardening: Stainless steel is prone to work hardening during the machining process, which affects machining accuracy and surface quality.

Carbon Steel
Processing characteristics:
Easy to cut: Carbon steel has good cutting performance, and chips are easily formed during cutting.
High strength: Carbon steel has high strength and the parts made have high load-bearing capacity.
Good wear resistance: Carbon steel has good wear resistance and is suitable for parts that require wear resistance.

Copper
Processing characteristics:
Good softness: Copper has a softer texture and is easy to cut and process.
Good thermal conductivity: Copper has good thermal conductivity, which is conducive to heat dissipation during the machining process and reduces cutting temperature.
High machining accuracy: Copper has high machining accuracy and is suitable for the manufacturing of precision parts.

Titanium
Processing characteristics:
High cutting temperature: Titanium alloy has a low thermal conductivity, which can easily generate high temperatures during cutting, leading to tool wear and workpiece deformation.
Work hardening: Titanium alloys are prone to work hardening during the machining process, which affects machining accuracy and surface quality.
Fast tool wear: Titanium alloy has high chemical activity and is prone to affinity with tools, resulting in accelerated tool wear.

2、 Alloy materials
The processing characteristics of alloy materials vary depending on the specific alloy, but they usually have characteristics such as high strength, corrosion resistance, and high temperature resistance. When machining, it is necessary to pay attention to selecting appropriate cutting parameters and tools to ensure machining accuracy and surface quality.