If you have any question, please contact us
If you have any question, please contact us
Ti (C, N) titanium carbonitride based cermet plate ticn based cermet inserts bar ingot sheet was measured using a metal carbon titanium, tungsten, cobalt, nickel and other metals and metal carbide powder produced by powder metallurgy method ceramic materials, hardness up HRA91-93.5, density 6.45g / cm3, is an ideal high-speed CNC tool material, mainly used in high-speed CNC machining tool, provides a perfect solution for high-speed CNC machining, this product is the company’s patented product, patent number: 201210087901X. Very suitable for machining difficult to machine materials, particularly high-speed machining of titanium alloys in aircraft manufacturing, processing speeds of up to 300-350 m / min, workpiece surface finish can be a mirror effect.
_titanium_carbonitride_based_cermet_plate_ticn_based_cermet_inserts_bar_ingot_sheet__products_details.jpg)
Ti (C, N) titanium carbonitride based cermet plate ticn based cermet inserts bar ingot sheet was measured using a metal carbon titanium, tungsten, cobalt, nickel and other metals and metal carbide powder produced by powder metallurgy method ceramic materials, hardness up HRA91-93.5, density 6.45g / cm3, is an ideal high-speed CNC tool material, mainly used in high-speed CNC machining tool, provides a perfect solution for high-speed CNC machining, this product is the company's patented product, patent number: 201210087901X. Very suitable for machining difficult to machine materials, particularly high-speed machining of titanium alloys in aircraft manufacturing, processing speeds of up to 300-350 m / min, workpiece surface finish can be a mirror effect.
The performance characteristics of Ti (C, N) titanium carbonitride based cermet plate ticn based cermet inserts bar ingot sheet compared with the carbide plate :
1. High hardness, The hardness of TiCN based cermets is higher than WC cemented carbide. In general, Ti (C,N) cermets suitable for machining cast iron, malleable iron, ductile iron, carbon steel, alloy steel, titanium and other metal materials;
2. Good wear resistance and crater wear resistance capability, the wear rate in high-speed cutting steel material is very low;
3. high heat resistance, made into a tool at a high temperature of 1100-1300℃ still cutting, cutting speed 2-3 times higher than the WC-based cemented carbide, up to 200-400m / min;
4. High antioxidant capacity, TiC oxidation after the formation of TiO2 has a lubricating effect, so Ti (C, N) cermet low degree of oxidation than the WC-based cemented carbide about 10%.
5. Good chemical stability, during cutting, the contact surface work will form Mo2O3 of cutting tools which made by the TiCN based cermet, a nickel molybdenum and TiO2 films, often at 700-900℃ when the situation is difficult emergence of a cohesive, easy to form BUE, helping improve the surface quality of the workpieces to form a mirror surface. This feature makes it very suitable for dry cutting, can reduce the production costs.
Ti (C, N) titanium carbonitride based cermet plate ticn based cermet inserts bar ingot sheet can be used for cutting aluminum, graphite, cast iron, stainless steel, alloy steel, nickel-based alloys, titanium, non-ferrous metals, mainly used for the surface finishing cutter milling, CNC machine tools milling insert, used in titanium alloy, toughness stronger. We can produce a variety of plates and blades according to the drawings.
_titanium_carbonitride_based_cermet_plate_ticn_based_cermet_inserts_bar_ingot_sheet__products_applications.jpg)
|
Grade |
Chemical composition |
Density (g/cm3) |
Hardness (HRA) |
Transverse repture strength (MPa) |
Average grain size |
|
LFT10 |
10%CoNi-WC-TiCN |
6.25 |
93.0 |
2150 |
0.8-1.0μm |
|
LFT15 |
15%CoNi-WC-TiCN |
6.45 |
92.5 |
2050 |
0.8-1.0μm |
|
LFT15-N |
15%Ni-WC-TiCN |
6.45 |
92.5 |
2050 |
0.8-1.0μm |
|
LFT20 |
20%CoNi-WC-TiCN |
6.45 |
91.0 |
2250 |
0.8-1.0μm |
|
Metallurgical |
Physical and mechanical properties |
|
|
|
Average grain size |
Ultrafine |
|
Density(g/cm3) |
6.4 |
|
|
Hardness(HV10) |
1650 |
|
|
Hardness(HRA) |
92.5 |
|
|
Transverse rupture strength(MPa) |
2050 |
|
|
Comepressive strength (MPa) |
4700 |
|
|
Young’s modulus(GPa) |
400 |
|
|
Fracture toughness (SEVNB MPa.m-1/2) |
8.5 |
|
|
Thermal Conductivity( Wm-1K-1) |
15 |
|
|
Thermal expansion coefficient(10-6K-1)(20-40℃ ) |
7.6 |
|
Product Specifications
|
6 x 3 x 8 mm |
1.7 x 7.0 x 100mm |
15 x 15 x 3.0mm |
|
1.7 x 80.3 x 80.3 mm |
1.5 x 70 x 70 |
84 x 7.45 x 1mm |
|
2.1 x 80.3 x 80.3 mm |
1.2 x 3.0 x 14 |
150v90 x 1mm |
|
2.7 x 80.3 x 80.3 mm |
2.2 x 3.0 x 10 |
84+0.3 x 190+0.3 x 0.98+0.3mm |
|
3.2 x 6.2 x 16.5 mm |
1.5 x 1.5 (-0.05) x 16.5mm |
84+0.3 x 190+0.3 x 0.98+0.1mm |
|
2.5 x 5 x 100 mm |
1.5 x 1.95 (-0.05) x 22mm |
32 x 18 x 10mm |
|
3.2 x 6.2 x 10.2 mm |
1.8 x 2.45 (-0.05) x 22mm |
3 x 1.6x 300 mm |
|
7.8+0.3 x 12.3+0.3 x 25.3+0.3 mm |
2.5 x 3.45 (-0.05) x 22mm |
4 x 2.5 x 300 mm |
|
3,9+0,2 x 1,9+0,2 x 19,9+0,2 mm |
2.8 x 4.5 (-0.05) x 30mm |
5 x 3 x 300 mm |
|
5,2+0,2 x 3,2+0,2 x 50,2+0,3 mm |
3.0 x 5.95 (-0.05) x 30mm |
6 x 3 x 300 mm |
|
4.5 x 70 x 70mm |
3.0 x 5.95 (-0.05) x 45mm |
10.0+0.06 x 100.5 x 100.5mm |
|
5.0 x 3.0 x 16.5 mm |
3.5 x 7.95 (-0.05) x 30mm |
5.0+0.06 x 100.5 x 100.5mm |
|
1.8 x 1.2 x 10.0 mm |
3.5 x 7.95 (-0.05) x 45mm |
3.2 x 2.4 x 14.5 mm |
|
14,5±0,03 x 3,0±0,03 x 1,2 ±0,02 mm |
22 x 12 x 1.6mm |
3.0 x 1.7 x 10.0 mm |
|
4.5 x 70 x 70mm |
150 x 150 x 40mm |
1.7*70*70 mm |
|
2.5 x 5.0 x 100mm |
150 x 180 x 40mm |
10,5±0,03 x 3,0±0,03 x 2,2 ±0,02 mm |
|
Customized size acceptable. |
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