Tool for strengthening blade through laser cladding technology

A laser cladding and technology technology, applied in metal material coating process, metal processing, coating, etc., can solve the problems of high requirements for cladding powder and production powder that does not meet the requirements, and achieve low cost, corrosion resistance and corrosion resistance. Improved abrasion resistance and fine and uniform structure

Active Publication Date: 2016-11-16
YANGJIANG KNIFESCISSOR HARDWARE RES INSTITUTION OF IND TECH +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Some foreign product companies have begun to use laser cladding technology to prepare tool cladding layers, but the requirements for cladding powder are relatively high, and domestic production powder has not yet met the requirements

Method used

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  • Tool for strengthening blade through laser cladding technology

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] The cemented carbide mixed powder is a mixture of nickel-based alloy powder and tungsten carbide powder. The nickel-based alloy powder accounts for 70% by mass, and the tungsten carbide powder accounts for 30% by mass. The nickel-based alloy powder is composed of Cr : 18%, Fe: 5%, Nb: 2%, Mo: 8%, Al: 0.2%, Ti: 1.5%, C: 0.4%, Si: 0.2%, Mn: 0.2%, V: 1.5%, remaining The amount is Ni. The material of the cutter body to be clad is 3Cr13 and the thickness is 2.5mm; the cutter body is pretreated and polished with sandpaper to remove the oxide skin or rust spots on the cutting edge line 1, and the cladding part of the cutter body is cleaned with acetone to remove the surface dust and Oil stains, etc.; choose equipment and parameters for laser cladding on the blade: the laser is a semiconductor laser, coaxial powder feeding, laser cladding parameters: laser power 1300W, defocusing distance 10mm, cladding speed 5mm / s, The protective gas pressure is 0.1Mpa, the laser spot diamete...

Embodiment 2

[0023] The cemented carbide mixed powder is a mixture of nickel-based alloy powder and tungsten carbide powder. The nickel-based alloy powder accounts for 60% by mass, and the tungsten carbide powder accounts for 40% by mass. The nickel-based alloy powder is composed of Cr : 20%, Fe: 5%, Nb: 3%, Mo: 9.5%, Al: 0.3%, Ti: 2.0%, C: 0.5%, Si: 0.3%, Mn: 0.4%, V: 2.0%, remaining The amount is Ni. The material of the cutter body to be clad is 4Cr13 and the thickness is 3.0 mm; the cutter body is pretreated and polished with sandpaper to remove the oxide skin or rust spots on the cutting edge line 1, and the cladding part of the cutter body is cleaned with acetone to remove the surface dust and Oil stains, etc.; choose equipment and parameters for laser cladding on the blade: the laser is a fiber laser, using lateral powder feeding laser cladding, the laser cladding parameters are: laser power 1500W, defocusing distance 12mm, cladding speed 6 ㎜ / s, the protective gas pressure is 0.1Mpa...

Embodiment 3

[0026] The cemented carbide mixed powder is a mixture of nickel-based alloy powder and tungsten carbide powder. The nickel-based alloy powder accounts for 40% by mass, and the tungsten carbide powder accounts for 60% by mass. The nickel-based alloy powder is composed of Cr : 23%, Fe: 6%, Nb: 4.5%, Mo: 11%, Al: 0.4%, Ti: 2.5%, C: 0.6%, Si: 0.5%, Mn: 0.6%, V: 2.5%, remaining The amount is Ni. The material of the knife body to be clad is 4Cr13, and the thickness is 3.0mm; the knife body is pretreated and polished with sandpaper to remove the oxide skin or rust spots on the edge line 1, and the cladding part of the knife edge is cleaned with acetone to remove the dust and oil on the surface etc.; select the equipment and parameters for laser cladding on the blade: the laser is a fiber laser, using side-feeding laser cladding, the laser cladding parameters are: laser power 1800W, defocus distance 12mm, cladding speed 8mm / s, the protective gas pressure is 0.1Mpa, the laser spot di...

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Abstract

The invention discloses a tool for strengthening a blade through the laser cladding technology. The tool comprises a tool body and a handle. The position of a cutting edge line of the tool body is provided with a cladding layer in a cladding manner, wherein the cladding layer is formed by abrasion-resisting hard alloy mixed powder. The hard alloy mixed powder is formed by mixing nickel-base alloy powder and tungsten carbide powder according to the proportion. By mass percent, the nickel-base alloy powder accounts for 40%-70%, and the tungsten carbide powder accounts for 30%-60%. The nickel-base alloy powder comprises, by mass percent, 18%-23% of Cr, 4%-7% of Fe, 2%-4.5% of Nb, 8%-11.5% of Mo, 0.2%-0.4% of Al, 1%-2.5% of Ti, 0.1%-0.6% of C, 0.2%-0.5% of Si, 0.2%-0.6% of Mn, 1.5%-2.5% of V and the balance Ni. The tool has the beneficial effects that the cladding layer and the tool body are in well metallurgy combination, the structure of the cladding layer is fine and uniform, and the dilution rate is low; after the tool body is sharpened, the hardness, sharpness, abrasion resistance and corrosion resistance of a blade part are greatly improved, cost is low, the hardness of the blade part is improved, and meanwhile tenacity cannot be reduced.

Description

technical field [0001] The invention belongs to the field of cutting tool manufacturing, and more specifically relates to a cutting tool that uses laser cladding technology to strengthen the cutting edge. Background technique [0002] At present, the domestically developed and relatively mature methods of strengthening the blade of the tool include heat treatment, surface quenching, thermal expansion and infiltration technology, electroplating and thermal spraying, etc. Heat treatment, surface quenching and thermal infiltration technology all change the performance of the blade without changing the base material. The extent to which these methods improve the performance of the blade is very limited. Although electroplating and thermal spraying can use special alloy powder to form a coating layer, but The bonding strength between the coating layer and the substrate is limited. [0003] The above-mentioned methods have their own shortcomings and deficiencies, and the degree o...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C23C24/10B26B9/00
CPCC23C24/103B26B9/00
Inventor 张瑞华路超尹燕屈岳波刘鹏宇栗子林蔡伟军刘燕红
Owner YANGJIANG KNIFESCISSOR HARDWARE RES INSTITUTION OF IND TECH
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