CNC Machining Materials
Tik Precision supports a wide range of CNC machining materials for precision prototypes, custom parts, and low-volume production. From aluminum, stainless steel, titanium, brass, and copper to engineering plastics such as POM, PEEK, PTFE, ABS, and Nylon, our team helps you choose suitable materials based on strength, tolerance, surface finish, cost, and application requirements.
Material Selection for Precision CNC Machining
Choosing the right material is one of the first steps in CNC machining. Different materials affect machining difficulty, dimensional stability, surface finish, mechanical strength, corrosion resistance, and final part cost.
Tik Precision works with both metal and plastic CNC machining materials, helping engineers, product developers, and purchasing teams evaluate material options before production.
Explore CNC Machining Materials
Metal CNC Machining Materials
Explore common metal materials for CNC machining, including aluminum, stainless steel, steel, brass, copper, titanium, and high-temperature alloys. Suitable for structural parts, housings, brackets, shafts, connectors, and precision mechanical components.
Plastic CNC Machining Materials
Explore engineering plastic materials for CNC machining, including POM, PEEK, PTFE, ABS, Nylon, PC, PMMA, PEI, and PPS. Suitable for lightweight parts, insulating components, wear-resistant parts, prototypes, and functional plastic components.
Common CNC Machining Materials We Support
Tik Precision works with a wide range of CNC machining materials for prototypes, precision parts, and low-volume production. Material selection is reviewed based on strength, weight, corrosion resistance, dimensional stability, surface finish, and application requirements.
Metal Materials
For structural parts, housings, brackets, shafts, connectors, heat-dissipation parts, and precision mechanical components.
Best for strength, durability, conductivity, heat resistance, and surface finishing options.
Engineering Plastics
For lightweight components, insulating parts, wear-resistant parts, prototypes, fixtures, and functional plastic components.
Best for low weight, insulation, wear resistance, chemical resistance, and cost-effective prototyping.
Specialty Materials
For demanding applications that require higher temperature resistance, improved stability, or specific mechanical performance.
Best for application-specific requirements, high-performance parts, and engineering review before production.
Need Help Choosing the Right CNC Material?
Send us your CAD file, drawing, material requirement, or application details. Our engineering team can help review material suitability, machining feasibility, tolerance requirements, and surface finish options before production.