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We use diamond grinding and ultrasonic-assisted machining techniques to process Silicon Carbide (SiC) with high precision and minimal chipping.
Silicon Carbide (SiC) offers better thermal conductivity and higher hardness than Alumina or Zirconia, making it optimal for high-heat and abrasive settings.
Silicon Carbide (SiC) is used in high-stress, high-heat environments such as semiconductor processing, aerospace thermal control, and advanced energy systems.
Yes! Alumina can be polished to a submicron-level surface roughness (Ra < 0.1 μm) using
diamond lapping and fine grinding.
Lead times depend on part complexity and quantity, but standard orders typically take 2-4
weeks. For urgent projects, expedited manufacturing options are available.
Alumina offers higher hardness and thermal resistance than many ceramics. Compared to
Zirconia (ZrO₂), Alumina is more thermally stable. Compared to Silicon Carbide (SiC), it is
more electrically insulating.
Yes! We offer custom Alumina compositions and tolerances for unique applications.
Contact us for a custom quote.
Because Alumina is brittle and hard, the best techniques include diamond grinding, ultrasonic-assisted machining, and high-precision CNC milling.
Alumina is used in high-precision machining for electronics, aerospace, and medical devices, thanks to its high strength, temperature resistance, and electrical insulation.
Copper alloys are preferred in various electrical applications, including bus bars and wire connectors, due to their excellent electrical and thermal conductivity. The high purity of 101 copper ensures superior conductivity, while 110 copper is generally more cost-effective as it is easier to CNC machine. Copper beryllium (CuBe) offers a unique combination of high strength, non-magnetic properties, and non-sparking qualities, making it an excellent choice for CNC machining, forming, and general metalworking.
Copper has good thermal conductivity, electrical conductivity, and ductility. It also exhibits good corrosion resistance and weldability, making it widely used in machining processes.
When machining steel, consider factors such as the type of steel, its hardness, and the desired finish. Proper tool selection, cutting speeds, and lubrication are crucial to achieving precise results and prolonging tool life. It’s also important to manage heat generation to prevent warping or damaging the workpiece.
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