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Sintering technology for cemented carbide extrusion bar

A cemented carbide and process technology, which is applied in the field of sintering process of cemented carbide extruded rods, can solve problems such as bending and sintering bending, and achieve the effect of improving the uniformity of the atmosphere and improving the passing rate of the first inspection

Active Publication Date: 2013-02-13
江西江钨硬质合金有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, in the subsequent vacuum sintering and pressure sintering, there are more or less bending phenomena, and the proportion of thin-diameter extruded alloy rods is the largest. In the pressure sintering furnace, the problem of sintering bending is also particularly prominent.

Method used

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  • Sintering technology for cemented carbide extrusion bar

Examples

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Effect test

Embodiment 1

[0020] Example 1: Start filling with argon to ensure the pressure inside the sintering box is 300 Pa, and gradually raise the temperature to 1410 degrees in stages over 235 minutes under the pressure of 300 Pa.

Embodiment 2

[0021] Example 2: Start filling with argon to ensure the pressure inside the sintering box is 450 Pa, and gradually increase the temperature to 1410 degrees in stages over 235 minutes under the pressure of 450 Pa.

Embodiment 3

[0022] Example 3: Start filling with argon to ensure the pressure inside the sintering box is 600 Pa, and gradually increase the temperature to 1410 degrees in stages over 235 minutes under the pressure of 600 Pa.

[0023] Product straightness results comparison results (taking Ф6mm as an example)

[0024] craft

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Abstract

The invention discloses a sintering technology for a cemented carbide extrusion bar. The sintering technology comprises four continuous processes of positive-pressure hydrogen dewaxing, partial-pressure sintering, high-pressure and high-temperature sintering, and cooling. At a normal temperature, hydrogen is filled into an empty sintering furnace, the furnace temperature is gradually boosted to 600 DEG C stage by stage in 490 minutes, the hydrogen is cut off, a mechanical pump is used for controlling the vacuum degree in the furnace to be about 10 pascals of the inner pressure of a sintering box, argon is then filled into the sintering box so as to ensure that the inner pressure of the sintering box is between 300 and 600 pascals, the furnace temperature is gradually increased to 1410 DEG C in 235 minutes stage by stage under the pressure of 300-600 pascals, the furnace is kept at the temperature of 1410 DEG C for 60 minutes, high-pressure argon of 60 bars is filled into the furnace for 20 minutes after the thermal insulation at 1410 DEG C is maintained for 30 minutes, the high pressure of the argon is maintained for 10 minutes, the pressure maintaining and temperature maintaining are finished at the same time, and then, the furnace begins to be cooled. Under the condition of fully filling the high-pressure argon in the furnace, the furnace is naturally cooled to 900 DEG C and is then quickly cooled to below 50 DEG C after about 300 minutes. The sintering technology can be used for effectively improving the bending percent of pass of the thin cemented carbide extrusion bars with the diameter of no more than phi 6 millimeters.

Description

technical field [0001] The invention relates to a sintering process of hard alloy extruded rods, which can improve the bending pass rate of hard alloy extruded rods, especially can improve the first-time pass inspection rate of small-diameter hard alloy extruded rods. Background technique [0002] In the case of diameter D≤Ф6mm, the sintering of cemented carbide extruded rods usually has a low first pass rate of straightness. The molding agents of cemented carbide extruded rods mainly include paraffin, cellulose, etc., and the molding agents can be completely removed in hydrogen positive pressure dewaxing. However, in the subsequent vacuum sintering and pressure sintering, there are more or less bending phenomena, and the proportion of thin-diameter extruded alloy rods is the largest. In the pressure sintering furnace, the problem of sintering bending is particularly prominent. This is because, in the current common alloy sintering process, after the molding agent is remove...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B22F3/10
Inventor 严武华
Owner 江西江钨硬质合金有限公司
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