吉林大学学报(工学版) ›› 2018, Vol. 48 ›› Issue (3): 835-844.doi: 10.13229/j.cnki.jdxbgxb20170189

• Orginal Article • Previous Articles     Next Articles

Erosion damage and evaluation of remanufacturing cladding layer for impeller metals FV520B

LIU Zi-wu1,2, LI Jian-feng1,2   

  1. 1.School of Mechanical Engineering, Shandong University, Jinan 250061, China;
    2.National Demonstration Center for Experimental Mechanical Engineering Education, Shandong University, Jinan 250061,China
  • Received:2017-03-05 Online:2018-05-20 Published:2018-05-20

Abstract: Coating layer with the same composition as the FV520B steel was deposited on the base material by laser cladding and Tungsten Inert Gas (TIG) cladding. Then, TIG cladding was tempered at 470 °C and 615 °C, respectively. The microstructure, hardness, erosion resistance of the cladding layers were investigated, and the surface quality, micro-hardness and residual stress were also tested after erosion. The results show that laser cladding with compact and symmetrical microstructure has the highest hardness, and TIG cladding with tempering has similar microstructure compared with the base material. With the increase in hardness, the erosion peak will move towards the high angle. When the impacting angle is less than 30°, the anti-erosion performance and surface quality of the laser cladding are better. At higher impacting angle, anti-erosion performance the laser cladding is worse than that of TIG cladding layer. For all the layers, erosion hardness is the lowest at the impacting angle with highest erosion rate, and erosion hardness is highest at the impacting angle of 90°. Both residual extend stress and residual compressive stress, which are caused by erosion, are maximal for laser cladding layer with highest hardness.

Key words: materials synthesis and processing technology, erosion evaluation of cladding layer, microstructural, surface roughness, erosion hardening, residual stress

CLC Number: 

  • TB31
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