Grinding is a processing method that uses the cutting effect of abrasive tools to remove excess layers on the surface of the workpiece so that the surface quality of the workpiece reaches predetermined requirements.
Cast Iron is a versatile metal alloy made by melting iron, carbon, and silicon together. It’s known for its exceptional strength, heat resistance, and wear properties.
Copper, a highly conductive and malleable metal, is essential in various industries. Its excellent electrical conductivity and corrosion resistance make it crucial in electrical wiring, plumbing, and electronics.
D2 Tool Steel is a high-carbon, high-chromium steel known for its exceptional wear resistance and toughness. D2’s superior hardness and edge retention make it a valuable choice in industrial settings.
Invar is a nickel-iron alloy celebrated for its minimal thermal expansion properties. Invar is used in precision instruments, optical systems, and aerospace engineering.
Inconel is known for its exceptional resistance to extreme temperatures, corrosion, and high stress. These materials are prized for their strength and versatility in demanding environments.
Stainless Steel is a corrosion-resistant alloy. Its resistance to rust and staining makes it highly versatile for applications in numerous industries, such as construction, kitchenware, medical equipment, and aerospace.
Titanium, a lightweight and corrosion-resistant metal, is highly regarded for its exceptional strength-to-weight ratio. Widely used in aerospace, medical implants, and sporting equipment.
Grinding is widely used in fields requiring high precision, smooth surfaces, and shape control, such as automotive manufacturing, aerospace, mold manufacturing, etc.
What is the grinding process?
The grinding process utilizes grinding wheels to cut the surface of the workpiece, achieving dimensional control, improving surface smoothness, or changing the shape.
What are the advantages of grinding machining?
Grinding machining offers high precision, high surface quality, and good machining stability. It enables precise control over the dimensions and shapes of workpieces and provides excellent surface roughness.