Comparison of CNC Machining Materials

CPVC (Chlorinated Polyvinyl Chloride) is a thermoplastic plastic obtained by chlorination modification of polyvinyl chloride (PVC). Such structural changes enable it to far outperform ordinary PVC in terms of heat resistance, mechanical properties, and chemical resistance, making it an ideal material for high-temperature and corrosive environments.

PEEK (Polyetheretherketone) is a top-performing thermoplastic engineering plastic, featuring excellent high-temperature resistance, robust mechanical properties, versatile corrosion resistance, top-tier biocompatibility, exceptional dimensional stability, and outstanding electrical insulation and radiation resistance. It is widely used in high-end fields such as aerospace, high-end medical care, and electronic semiconductors.

Stainless steel 316 combines exceptional corrosion resistance with excellent machinability. This unique balance of “high corrosion resistance + ease of processing” makes it a material of choice for applications demanding the highest levels of reliability. It is widely employed in fields such as chemical processing, food production, and marine engineering, where it consistently meets stringent performance requirements across diverse operating conditions.

stainless steel 304 is also known as 18/8 stainless steel, which contains approximately 18% chromium (Cr) and 8% nickel (Ni). It not only possesses excellent oxidation resistance and corrosion resistance, but also has good workability and surface quality. Currently, it is the most widely used stainless steel grade in industrial manufacturing and civil applications.

Low carbon steel (with carbon content not exceeding 0.25%) is one of the most commonly used types of steel in both industry and daily life, thanks to its excellent plasticity, weldability, and low cost. It is widely applied in components such as pistons, screws, and drive shafts. However, due to its limited strength, it usually requires post-treatment.

Brass is an alloy primarily composed of copper and zinc. This golden-hued material not only exhibits excellent weather resistance and corrosion resistance, but its tensile strength also rivals that of low-carbon steel, demonstrating outstanding mechanical properties. Brass boasts exceptional machinability, enabling it to support higher feed rates during processing operations such as cutting and stamping, while requiring minimal cutting fluid. This combination significantly reduces both processing costs and process complexity.

As a versatile and widely used metallic material,aluminum 6061 alloy is well-known in the industrial field for its excellent mechanical properties and outstanding weldability. The designations “T6” and “T651,” as typical temper conditions of this alloy, correspond to specific heat treatment processes: the T6 process achieves strength enhancement through solution treatment followed by artificial aging, while the T651 process adds a pre-stretching deformation step on this basis to optimize residual stress distribution. The combined effect of these two processes significantly improves the material’s mechanical properties and effectively eliminates internal stresses. Owing to their comprehensive advantages in strength, processability, and corrosion resistance, 6061-T6 and 6061-T651 aluminum alloys are highly favored in fields such as aerospace structural components, automotive parts, shipbuilding, and general machinery processing, emerging as key foundational materials supporting modern industrial manufacturing.