High-toughness, high-wear-resistant high-speed steel and its processing technology and cutting tools using the technology

A processing technology and high-speed steel technology, which is applied in the field of high-toughness, high-wear-resistant high-speed steel and its processing technology and tools using the technology, can solve the problems of reduced yield, high decarburization sensitivity, poor cutting performance, etc. The effect of improving hot workability, improving cold workability, and optimizing hot workability

Inactive Publication Date: 2016-12-07
方伟
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] 1. Poor thermal processing performance, W 2 Mo 9 Cr 4 V 2 The thermal conductivity is small, the heating range is narrow, overheating, overburning and cracking often occur, and the billet-to-billet yield fluctuates in the range of 72-76%, that is to say, the yield is low;
[0005] 2. High decarburization sensitivity, for example, 40mm square billet rolling Φ8mm straight strip, W 2 Mo 9 Cr 4 V 2 The decarburization layer fluctuates at 3%D~4%D (0.24~0.32mm);
[0006] 3. Poor cold working performance and poor cold drawing performance: W 2 Mo 9 Cr 4 V 2 Steel due to residual 1-3% M in steel 2 C undecomposed primary rod-shaped carbides, the drawing process is unstable after annealing, and fractures often occur, which reduces the yield;
[0007] 4. Existing pairs include W 2 Mo 9 Cr 4 V 2 The high-speed steel produced by the production and processing technology of the high-speed steel included in the high-speed steel has poor thermal processing performance and cold processing performance, and is highly sensitive to decarburization, and the process is relatively cumbersome, which cannot meet the production requirements;
[0008] 5. The cutting performance of the high-speed steel tool made by the existing production process is poor and the service life is short

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0046] The high toughness and high wear resistance high speed steel includes the following components in mass percentage: C: 0.97-1.06, Si: 0.20-0.55, Mn: 0.20-0.50, P: ≤0.03, S: ≤0.015, Cr: 3.80-4.40, W: 2.30-2.45, Mo: 7.60-7.95, V: 1.95-2.10, Co: 2.85-3.50, and the rest is Fe; further, the high-speed steel includes the following components with optimized mass percentages : C: 0.99-1.04, Si: 0.30-0.40, Mn: 0.35-0.48, P: ≤0.025, S: ≤0.010, Cr: 3.90-4.05, W: 2.35-2.45, Mo: 7.75-7.85, V: 2.00 -2.05, Co: 2.95-3.04, the rest is Fe;

[0047] Specifically, the contents of various gases in the high-speed steel of this embodiment are: [H]0.10-0.13ppm, [O]21-26ppm and [N]58-71ppm; secondly, the high-speed steel also includes Pb: 55- 63ppm, As: 44-51ppm, Sn: 61-64ppm, and Sb: 61-67ppm, and several rare elements, and the carbide particle unevenness of the high-speed steel mentioned above is ≤2.0; the particle size is 6.1-10μm Occupancy of carbide particles ≤ 5%, particle size 1-6μm car...

Embodiment 2

[0077] The structure and principle of this embodiment are basically the same as that of Embodiment 1, the differences are: C: 0.99, Si: 0.30, Mn: 0.35, Cr: 3.90, W: 2.35, Mo: 7.75, S≤0.008, P≤ 0.020, V: 1.95, Co: 2.95, the rest is Fe, and its balance carbon difference:

[0078] C p =0.033×W+0.063×Mo+0.06×Cr+0.20×V

[0079] =0.033×2.35+0.063×7.75+0.06×3.90+0.20×1.95

[0080] = 1.19;

[0081] ΔC=C p -C 实 =1.19-0.99

[0082] = 0.20.

Embodiment 3

[0084] The structure and principle of this embodiment are basically the same as those of Embodiments 1 and 2. The differences are: C: 1.01, Si: 0.30, Mn: 0.35, Cr: 3.92, W: 2.37, Mo: 7.77, S≤0.008, P≤0.020, V: 1.95, Co: 2.95, the rest is Fe, the balance carbon difference:

[0085] C p =0.033×W+0.063×Mo+0.06×Cr+0.20×V

[0086] =0.033×2.37+0.063×7.77+0.06×3.92+0.2×1.95

[0087] =1.193

[0088] ΔC=C p -C 实 =1.193-1.01

[0089] = 0.183.

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PUM

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Abstract

The invention belongs to the technical field of metal materials, and in particular relates to a high-toughness and high-wear-resistance high-speed steel, its processing technology and a cutting tool using the technology. It solves technical problems such as unreasonable design of the prior art. The high-toughness and high-wear-resistant high-speed steel includes the following components in parts by mass: C: 0.97‑1.06, Si: 0.20‑0.55, Mn: 0.20‑0.50, P: ≤0.03, S: ≤0.015, Cr: 3.80‑4.40 , W: 2.30‑2.45, Mo: 7.60‑7.95, V: 1.95‑2.10, Co: 2.85‑3.50, and the rest is Fe; a processing technology, including A, billet preparation, B, forging, C, steel rolling, D, Cold drawing and E, heat treatment; a tool. The invention has the advantages of good hot working performance and cold working performance, low decarburization sensitivity, good cutting performance and long service life.

Description

technical field [0001] The invention belongs to the technical field of metal materials, and in particular relates to a high-toughness and high-wear-resistance high-speed steel, its processing technology and a cutting tool using the technology. Background technique [0002] The birth of high-speed steel has a history of 100 years. People have carried out a lot of fruitful work in alloying, steel type, production process, heat treatment, performance and microstructure. It can be said that it has reached a mature stage. After the middle of the 20th century, the world's science and technology have developed rapidly, as is the most important cutting technology in the machinery manufacturing industry. Many superhard tool materials such as TiC-based cemented carbide, coated cemented carbide, ceramics and cermets, cubic boron nitride, polycrystalline diamond, etc. continue to appear. It cannot be compared with it. However, the toughness and tool formability of high-speed steel are...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C38/30C21D8/00
Inventor 田庆亮卢南法齐生祥吴良国潘干群徐晓华李硕焰
Owner 方伟
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