TPGH 080202L Turning Inserts

Taizhou OYT Special Tools Co., Ltd. has been based in Zhejiang's Huangyan Smart Mold Town since its founding. The company specializes in developing CNC tools for challenging materials, including high-hardness steels, stainless steel, and titanium alloys.

OYT maintains strict quality control using precision equipment like electron microscopes and imported Keyence testers. Leveraging specialized powder materials, automated CNC grinders, and PVD coating technology, they ensure tools meet high standards for hardness, wear resistance, and stability.

Beyond standard tool production, OYT designs and builds its own specialized equipment to boost efficiency. They also offer custom tool manufacturing and resharpening services to address specific customer requirements.

TPGH080202L Turning Inserts

The OYT TPGH080202L Turning Insert is made from high-performance ceramic materials such as alumina and silicon nitride, formed through a high-temperature sintering process at 1800-2000℃. It has a Rockwell hardness of HRA90-95, significantly higher than that of ordinary hard alloy inserts. This ensures long-term sharpness during cutting, greatly reducing wear and effectively extending tool life. Additionally, the excellent chemical stability of ceramic materials prevents adhesion with metal workpieces at high temperatures, enhancing the continuity and stability of the machining process by about 10%.

For example, the TPGH110302L Turning Inserts that 'TPGH' represents the standard shape and series characteristics of the insert; '09' indicates a insert edge length of 9mm, '02' indicates a thickness of 2mm, and '04' indicates a tip radius of 0.4mm. Different models of inserts are configured with varying dimensional parameters to meet diverse machining needs, such as drilling, turning, and boring. In terms of material processing adaptability, this series of inserts excels. Whether for ordinary carbon steel or alloy steel, they can achieve efficient cutting, with a high surface finish and dimensional accuracy controlled within ±0.01mm. When machining stainless steel, which tends to stick to the insert, the unique material formula and microcrystalline structure effectively prevent the formation of built-up edges, ensuring smooth machining.

TPGH110302L Turning Inserts are compatible with mainstream machining equipment such as CNC lathes and machining centers. They are widely used in precision manufacturing sectors like mechanical engineering, automotive parts processing, and aerospace. In the machining of automotive engine blocks, these inserts can precisely control hole diameter tolerances and surface roughness. In the manufacturing of aerospace components, PGH110302L Turning Inserts meet stringent requirements for high precision and stability.

Compared to similar cutting inserts, TPGH090204L ceramic inserts offer higher hardness and heat resistance, allowing for higher cutting temperatures and increased cutting speeds to enhance processing efficiency. In terms of processing accuracy, TPGH110302L Turning Insert can achieve smaller dimensional tolerances and lower surface roughness, meeting the demands of precision parts. Their excellent wear resistance significantly reduces tool replacement frequency, effectively lowering production costs.

When using TPGH110302L Turning Insert, it is essential to select the appropriate insert model and cutting parameters based on the specific materials and process requirements to avoid issues such as insert chipping or processing quality defects due to improper settings. Ensure that the inserts are securely installed to prevent displacement during high-speed rotation, which could lead to safety hazards and processing errors. Additionally, use a suitable cutting fluid according to the processing conditions to maximize cooling and lubrication, further extending the insert's lifespan. Store the inserts in a dry and well-ventilated environment to prevent moisture and oxidation. Regularly check the condition of the inserts; if chipping or excessive wear is detected, replace them immediately to ensure processing safety and quality.