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Manufacturing and application methods for laser cladding powder of iron-base alloy

A technology of laser cladding and iron-based alloys, which is applied in the coating process of metal materials, coatings, etc., can solve the problems of decreased fatigue strength of the cladding layer, can not completely prevent cracks, micro and macro cracks, etc., and achieve low residual stress , High fatigue strength, smooth surface effect

Inactive Publication Date: 2013-04-24
DALIAN MARITIME UNIVERSITY
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  • Abstract
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  • Claims
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Problems solved by technology

At present, the laser cladding layer obtained by using the iron-based alloy cladding powder commonly used in industry can have high hardness and wear resistance. However, in the process of rapid melting and solidification, the cladding layer will produce residual tension due to thermal shrinkage. The tensile stress reduces the fatigue strength of the cladding layer, and even produces micro and macro cracks
At present, the main methods to reduce the residual stress of the cladding layer include reducing the temperature gradient, adding plasticizing and toughening elements to the cladding material, ultrasonic vibration, etc., but these methods require additional processes, which greatly increase the cost, and these methods Can not completely prevent the generation of cracks, lack of corresponding theoretical breakthroughs

Method used

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  • Manufacturing and application methods for laser cladding powder of iron-base alloy
  • Manufacturing and application methods for laser cladding powder of iron-base alloy
  • Manufacturing and application methods for laser cladding powder of iron-base alloy

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Embodiment Construction

[0037] The present invention and its beneficial effects will be further described below in conjunction with the accompanying drawings and embodiments. Since the present invention uses Fe-Mn-Si memory alloy powder as laser cladding powder, the mechanism of Fe-Mn-Si memory alloy cladding layer to reduce weld residual stress is that the residual tensile stress of the cladding layer can induce the alloy to induce γ→ ε martensitic phase transformation, whose phase transformation deformation (expansion) will relax the residual tensile stress of the cladding layer and reduce it below the yield strength (because the induced phase transformation driving force is lower than the yield strength); Fe-Mn- The method of improving the fatigue strength of the Si memory alloy cladding layer is based on its "stress adaptive characteristics", that is, when the alloy is subjected to external stress, it can induce the positive and negative phase transformation of ε martensite and the phase transform...

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Abstract

The invention discloses a design manufacturing method and an application method for laser cladding powder. The design manufacturing method includes preparing Fe-Mn-Si memory alloy powder and putting the memory alloy powder into a ball grinder to process powder mixing. The application method includes processing a vacuum drying treatment before the cladding, presetting the cladding powder on base materials, and processing the cladding with laser which is 1.5-3 Kw in laser power, 400-1000 mm / min in scanning speed and 3 mm in laser diameter. By the stress of the laser cladding layer of the Fe-Mn-Si memory alloy, martensitic transformation and the martensitic deformation compatibility are induced so as to effectively remove the residual stress of the cladding layer and improve the fatigue strength of the cladding layer with no need of adding extra processing. The laser cladding powder of the iron-base alloy has the advantages of being simple in preparation technology, applicable to mass production, good in wear resistance, low in residual stress, high in fatigue strength, and the like.

Description

technical field [0001] The patent of the present invention relates to laser cladding technology, especially the manufacture and use method of an iron-based alloy laser cladding powder. Background technique [0002] Laser cladding refers to placing the selected coating material on the surface of the coated substrate through different feeding methods, and irradiating it with a high-energy-density laser beam to melt it simultaneously with the thin layer on the surface of the substrate and solidify rapidly to form a dilution rate. A surface coating that is extremely low and metallurgically bonded to the base material, thereby significantly improving the performance of the metal surface. At present, the laser cladding layer obtained by using the iron-based alloy cladding powder commonly used in industry can have high hardness and wear resistance. However, in the process of rapid melting and solidification, the cladding layer will produce residual tension due to thermal shrinkage....

Claims

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Application Information

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IPC IPC(8): B22F1/00C23C24/10
Inventor 林成新刘志杰徐鹏周超玉
Owner DALIAN MARITIME UNIVERSITY
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