0.6 μm TC Size Tungsten Carbide Rod Blank 310 mm with 10% CO HIPPed by Sintering Furnace
Description:
Cemented carbide is a kind of alloy material which is produced by powder metallurgy techniques. It consists of wear resistant particles (hard phase WC) and binder agent Cobalt (ductile phase).
Our tunsten carbide rods are made of optimum quality raw material WC and Cobalt. Powders are intensively mixed together according to desired ratio and subsequently processed with kneading and extrusion, producing rod form under a certain press. Then HIP sintering process were employed to consolidate whole microstructure, eliminating unwanted porosity.
Specification:
Solid carbide rods (Metric size):
D
|
Tolerance of Diameter (mm)
|
Length
|
D
|
Tolerance of Diameter (mm)
|
Length
|
mm
|
mm
|
mm
|
mm
|
3.0
|
+0.2/+0.4
|
310
|
10.0
|
+0.2/+0.4
|
310
|
4.0
|
+0.2/+0.4
|
310
|
12.0
|
+0.2/+0.4
|
310
|
5.0
|
+0.2/+0.4
|
310
|
14.0
|
+0.2/+0.4
|
310
|
6.0
|
+0.2/+0.4
|
310
|
16.0
|
+0.2/+0.4
|
310
|
7.0
|
+0.2/+0.4
|
310
|
18.0
|
+0.2/+0.4
|
310
|
8.0
|
+0.2/+0.4
|
310
|
20.0
|
+0.2/+0.4
|
310
|
1. Diameter can be customized from 2mm to 25mm as requests.
2. Post-processing service: Cutting into desired length.
Application:
Jinlei Grade
|
ISO Grade
|
The recommended tools
|
Description
|
HF30
|
K30 - K40
|
Solid carbide drills
Solid carbide end mills
|
With 10% cobalt and 90% tungsten carbide. Superior advantages where high toughness and sharp edge profiles are needed. Outstanding performance over a wide range of tool and workpiece types.
|
Application
|
• Carbon steel
• Cast iron
• Low titanium
• Nickel alloyed material
|
Competitive Advantage:
Quality can be taken for granted. We have been producing tungsten powder, tungsten carbide powder for 11 years, being famous for its quality and winning high reputation within China, thus each pre-process for making solid rods is clearly and strictly monitored. Consequantly, the quality of solid TC rods is guaranteed to be high and stable.
Comparing to high speed steel, tungsten carbide consists of natural hard and stable phase, and practically doesn’t lose any level of its high hardness when heating up. However, the high hardness of HSS is only in a result of quenching process during which hard phase nucleates & grows. It breaks down easily when annealing. Therefore, carbide tools last significantly longer than HSS. In addition, carbide tools allow for faster machining and can also withstand higher temperatures than standard high speed steel tools.