High-Temp Carbide Turning Inserts Description
The E Series is ideal for rough to semi-finishing operations on various high-temperature materials, offering strong cutting power and excellent resistance to edge chipping. The SM Series is optimized for precision machining of titanium and heat-resistant alloys, providing greater cutting stability and superior surface finish. Both series use heat-resistant TiAlN coatings, ensuring outstanding performance under high temperatures and loads, reducing tool changes, and boosting productivity.
High-Temp Carbide Turning Inserts Features
The E Series is ideal for rough to semi-finishing operations on various high-temperature materials, offering strong cutting power and excellent resistance to edge chipping. The SM Series is optimized for precision machining of titanium and heat-resistant alloys, providing greater cutting stability and superior surface finish. Both series use heat-resistant TiAlN coatings, ensuring outstanding performance under high temperatures and loads, reducing tool changes, and boosting productivity.
E series groove characteristics
|
Model |
Picture |
|
Characteristics |
| CNMG-EL |
|
|
EL Finishing Large rake angle and wide flute design provide excellent chip evacuation, low cutting forces, and effective vibration reduction. |
| CNMG-EM |
|
|
EM - Semi-finishing Dual and variable rake angle design provides high edge strength and is suitable for deep cutting. |
Matching grades
Three PVD coating grades cover common machining conditions for high-temperature alloys and titanium alloys: GST7115, GST7120, and GST7130
SE series groove characteristics
|
Model |
Picture |
|
Characteristics |
| CNMG-SML |
|
|
SML - Finishing Stainless steel and high-temperature alloy finishing and semi-finishing. The designed cutting-edge rake angle reduces cutting resistance and provides excellent chip control. |
| CNMG-SMM |
|
|
SMM - Semi-Finishing Semi-finishing and roughing of stainless steel and high-temperature alloys. Unique geometry design accommodates various cutting depths and feed rates, ensuring stable machining. |
Matching grades
Three PVD coating grades cover common machining conditions for high-temperature alloys and titanium alloys: GST7115, GST7120, and GST7130
Processing range of High-Temp Carbide Turning Inserts
Suitable for titanium alloys, heat-resistant alloys, stainless steel, and other hard-to-machine metals. Widely used in continuous and interrupted cutting, from roughing to finishing operations, especially ideal for efficient and stable machining under high temperature, high speed, and heavy load conditions.
E Series Processing Range
The EL geometry is suitable for light cutting of high-temperature alloys.
The EM geometry is suitable for medium cutting of high-temperature alloys.
SM series processing range
The SML geometry is suitable for light cutting of high-temperature alloys.
The SMM geometry is suitable for medium cutting of high-temperature alloys.
High-Temp Carbide Turning Inserts Application
High-temp carbide turning inserts are ideal for aerospace, energy, and precision industries. They handle heat-resistant materials like titanium alloys and Inconel, delivering stable performance, long tool life, and smooth surface finishes in both continuous and interrupted cutting.
High-temperature carbide turning insert processing case
|
Parameter |
Value / Description |
|
Tool Model |
CNMG160612-SMM |
|
Tool Grade |
GST7130 |
|
Workpiece Material |
TC4 (Ti-6Al-4V Titanium Alloy) |
|
Cutting Speed (Vc) |
27 m/min |
|
Feed Rate (fr) |
0.22 mm/rev |
|
Depth of Cut (ap) |
5-6 mm |
|
Cooling Method |
Water-based emulsion / External |
|
Machining Operation |
Internal cylindrical turning (continuous) |
Hot Tags: high-temp carbide turning inserts, China high-temp carbide turning inserts manufacturers, suppliers