tungsten carbide rods spiral coolant holes 30 degree helix carbide rods

tungsten carbide rods spiral coolant holes 30 degree helix carbide rods

Model No.︰-

Brand Name︰YESCC

Country of Origin︰China

Unit Price︰US $ 97 / kg

Minimum Order︰25 kg

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Product Description

Cemented carbide rod with double coolant holes, threading rod with two holes, carbide rod with one straight hole

Size:   

Diameter: 1-40mm  (HIP Extrusion)  

Standard Length: 310/330mm

Widely used in endmills, drills, PCB drills, PCB routers etc.

ISO Code

Co%

Density

Hardness

Transverse Rupture

HV30

HRA

K10

6%

14.8 g/cm³

1930 N/mm²

94.0 

4100 MPa

6%

14.9 g/cm³

1700 N/mm²

92.4 

3000 MPa

6%

14.93 g/cm³

1500 N/mm²

91.0 

2600 MPa

K10-K20

8%

14.6 g/cm³

1900 N/mm²

93.7 

4200 MPa

8%

14.8 g/cm³

1500 N/mm²

91.0 

3800 MPa

K2O-K30(Hot Sale)

10%

14.4 g/cm³

1650 N/mm²

92.2 

4400 MPa

10%

14.08 g/cm³

1500 N/mm²

91.0 

3300~3700 Mpa

K30-K40

12%

14.1 g/cm³

1700 N/mm²

92.5 

  4100 MPa

K50

15%

14.0 g/cm³

1150 N/mm²

87.5 

2800 MPa


With high hardness and wear / corrosion resistance, suitable for the manufacturing of various kind of solid cemented carbide tools for the machining of heat-resistant ally and Ti alloy,also suitable for the manufacturing of micro drills used for machining PCB. 
 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Application:  

-For making tungsten carbide dental burrs

-For making tungsten carbide PCB drills, drills, end mills & hole drilling tools

-For making tungsten carbide reamers

-For making tungsten carbide mold punches

-For making tungsten carbide core pins

The Specification Range of extruded Grounded Tungsten Carbide Rod :
 
WC Grain size range: 0.3~0.5μ.m; 0.5~0.9μ.m; 1.0~1.3μ.m; 1.4~2.0μ.m.
Length range:3mm-600mm; (General Length: 100mm,300mm,320mm,330mm)
Diameter Grade: h4(H4), h5(H5), h6(H6), h7(H7), h8(H8), h9(H9), etc.
 
Good grinding machine to ensure the sphencity & the Linearity of rod at higher level standard;
Sphericity tolerance range: 0.001mm ~ 0.005mm;
Linearity tolerance range: 0.001mm~0.1mm;
Surface Roughness can be reached to: RA0.04.(reach a mirror effect surface after fine grinding)

 

 Sphericity tolerance & Circular run-out for Grounded Tungsten Carbide Rod :

Diameter

Surface Roughness

Sphericity

Circular run-out

2--6 mm

RA0.04

0.001

↑0.1

6.5-10 mm

RA0.04

0.001

↑0.1

10.5-14 mm

RA0.04

0.002

↑0.1

14.5-20 mm

RA0.04

0.004

↑0.05

>20 mm

RA0.04

0.005

↑0.03

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 ISO 286-2 Carbide Round Bar Tolerances "h Series" in Millimeters : 

Diameter

h4

h6

h9

h11

0-3.0mm

0/-0.003

0/-0.006

0/-0.025

0/0.006

3.001-6.0mm

0/-0.004

0/-0.008

0/-0.03

0/0.008

6.001-10.0mm

0/-0.004

0/-0.009

0/-0.036

0/0.009

10.001-18.0mm

0/-0.005

0/-0.011

0/-0.043

0/0.011

18.001-30.0mm

0/-0.006

0/-0.013

0/-0.013

0/0.013

30.001-50.0mm

0/-0.007

0/-0.016

0/-0.052

0/0.016

50.001-60.0mm

0/-0.008

0/-0.019

0/-0.062

0/0.019

 

 

 

 

Carbide production

The productionprocess of powder-metallurgical products basically includes the four steps of powder preparation, forming, sintering andfinishing.

Tungsten carbide production
The APT (ammonium para-tungstate) is calcined into tungsten oxide under high te-mperature. Subsequently the oxide is reduced to tungsten metal in a hydrogen atmosphere. The metal powder is then mixed with carbon and carburised under
inert atmosphere at high temperatures. The production parameters are decisive for the WC grain size in the sintered carbide.

Powder preparation
The tungsten carbide is intensely mixed with the binder metal
cobalt, nickel or iron, various grain growth inhibitors and materials,
which promote compaction, by wet grinding so that a
homogeneous suspension is created. Afterwards, the suspension
is dried in a spray tower to produce a granulate with good
flow characteristics. This granulate represents the basis for all
forming processes.

Metal forming
The objective of the forming process is to obtain a near net
shape sample. Pressing is normally carried out at room temperature
with pressures reaching up to several tons per square
centimetre.
There are several ways of pressing blanks:
During isostatic cold pressing the powder is filled into an elastic
flexible hose and pressed into a compacted form through
high liquid pressure. The powder blocks which are produced
in this way can then be processed mechanically. All common
machining methods like milling, cutting, drilling or turning may
be applied.
In uniaxial pressing the pressing tool consists of a die and an
upper and a lower punch. The carbide powder is filled into the
die and then compacted to create the so called green carbide,
which is ejected from the pressing die.
Extrusion pressing is mainly used to produce rectangular bar
or cylindrical rod, with or without axial hole(s). A plasticiser is
added to the powder. The resulting paste is pressed through
an extrusion nozzle. Before sintering, the plasticiser must be
evaporated in special drying furnaces.
Metal Injection Moulding (MIM) is a process used to produce
more complex forms which cannot be produced by direct
pressing. The paste preparation is similar to the extrusion
process.

Sintering process
The sintering process converts the blank into a homogeneous
and dense carbide with a high level of hardness. The material
is sintered at temperatures between 1,300 and 1,500 °C
(liquid phase sintering) and sometimes also at high pressure
(up to 100 bar). The volume is reduced by up to 50 % during
this process.

Finishing
In order to achieve the final requirements of surface finish, tolerances,
etc. carbide parts can be subjected to a series of finishing
processes such as grinding, spark erosion and coating.

 

Payment Terms︰ TT