Effect of Rare-earth on the Crystallite Size and Thermal Shock Resistence of Laser Cladding Layer

WANG Yu-lin; SHEN De-jiu; LIU De-jian; SHEN Gang-qiang; XIE Zhan-wu

Journals >Chinese Journal of Lasers >Volume 29 >Issue s1 >Page 522 > Article

Chinese Journal of Lasers
Vol. 29, Issue s1, 522 (2002)

Effect of Rare-earth on the Crystallite Size and Thermal Shock Resistence of Laser Cladding Layer

WANG Yu-lin¹, SHEN De-jiu¹, LIU De-jian², SHEN Gang-qiang², and XIE Zhan-wu²

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¹[in Chinese]

²[in Chinese]

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WANG Yu-lin, SHEN De-jiu, LIU De-jian, SHEN Gang-qiang, XIE Zhan-wu. Effect of Rare-earth on the Crystallite Size and Thermal Shock Resistence of Laser Cladding Layer[J]. Chinese Journal of Lasers, 2002, 29(s1): 522 Copy Citation Text

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Abstract

Laser cladding experiment of nickel base alloy and cobalt base alloy on the Q235 steel was done with a 3 kW transversely flow CO2 laser. It was discovered that suitable rare-earth oxide additives promoted size of crystallites in the cladding layer to coarsen obviously, and thermal shock resistance of the layer rose by over 10 times, which is quite important to the application and study of laser cladding technology at high temperature or thermal shock situation. Mechanisms about effect of on the laser cladding layer were discussed in this paper.

Keywords

laser cladding microstructure coarsen rare-earth thermal shock resistance

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