Changes in surface integrity of cemented tungsten carbide with shot peening treatment

This study investigates the changes in the surface integrity of WC-Co cemented carbide, after traditional and dual shot peening treatments, using physical characterization methods in conjunction with finite element simulations. Cast steel balls were used in traditional shot peening, while dual shot...

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Published inSurface & coatings technology Vol. 425; p. 127710
Main Authors Wang, Chengxi, Zhang, Hao, Xiong, Xiao, Li, Mengnie, Chen, Ming, Liu, Huabing, Jiang, Chuanhai
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.11.2021
Elsevier BV
Subjects
Cemented carbides
Cemented tungsten carbide
Compressive properties
Elastic deformation
Hardness
Integrity
Plastic deformation
Residual stress
Shot peening
Surface integrity
Surface layers
Surface roughness
Tungsten carbide
Surface integrity
Shot peening
Surface roughness
Hardness
Residual stress
Cemented tungsten carbide
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Abstract This study investigates the changes in the surface integrity of WC-Co cemented carbide, after traditional and dual shot peening treatments, using physical characterization methods in conjunction with finite element simulations. Cast steel balls were used in traditional shot peening, while dual shot peening involved the additional use of ceramic shots. Tensile residual stress was found to coexist with compressive residual stresses within both the WC and Co phases, resulting in the fluctuation of stress amplitude in the surface layer. Steep stress gradients were mainly located in regions near the phase interface, especially around the WC/Co interface. In comparison with traditional shot peening, dual shot peening not only improved the uniformity of residual stress at both the macroscopic and microscopic levels but also refined the microstructure and returned the hardness dispersion to the original value by facilitating the simultaneous and coordinated evolution of the WC and Co phases during further deformation. However, the surface roughness increased significantly after traditional and dual shot peening treatments due to accumulated elastic-plastic deformation. This is likely to deteriorate the surface integrity and thus should be avoided if possible, without compromising the other beneficial effects caused by shot peening. [Display omitted] •Compressive residual stress and hardness increased after shot peening treatment.•Tensile and compressive residual stress coexist in WC and Co phases.•Uniformity of macro and micro residual stress improved after dual shot peening.•Traditional shot peening increases but dual shot peening reduces hardness dispersity.•All types of shot peening deteriorate surface roughness.
AbstractList This study investigates the changes in the surface integrity of WC-Co cemented carbide, after traditional and dual shot peening treatments, using physical characterization methods in conjunction with finite element simulations. Cast steel balls were used in traditional shot peening, while dual shot peening involved the additional use of ceramic shots. Tensile residual stress was found to coexist with compressive residual stresses within both the WC and Co phases, resulting in the fluctuation of stress amplitude in the surface layer. Steep stress gradients were mainly located in regions near the phase interface, especially around the WC/Co interface. In comparison with traditional shot peening, dual shot peening not only improved the uniformity of residual stress at both the macroscopic and microscopic levels but also refined the microstructure and returned the hardness dispersion to the original value by facilitating the simultaneous and coordinated evolution of the WC and Co phases during further deformation. However, the surface roughness increased significantly after traditional and dual shot peening treatments due to accumulated elastic-plastic deformation. This is likely to deteriorate the surface integrity and thus should be avoided if possible, without compromising the other beneficial effects caused by shot peening. [Display omitted] •Compressive residual stress and hardness increased after shot peening treatment.•Tensile and compressive residual stress coexist in WC and Co phases.•Uniformity of macro and micro residual stress improved after dual shot peening.•Traditional shot peening increases but dual shot peening reduces hardness dispersity.•All types of shot peening deteriorate surface roughness.
This study investigates the changes in the surface integrity of WC-Co cemented carbide, after traditional and dual shot peening treatments, using physical characterization methods in conjunction with finite element simulations. Cast steel balls were used in traditional shot peening, while dual shot peening involved the additional use of ceramic shots. Tensile residual stress was found to coexist with compressive residual stresses within both the WC and Co phases, resulting in the fluctuation of stress amplitude in the surface layer. Steep stress gradients were mainly located in regions near the phase interface, especially around the WC/Co interface. In comparison with traditional shot peening, dual shot peening not only improved the uniformity of residual stress at both the macroscopic and microscopic levels but also refined the microstructure and returned the hardness dispersion to the original value by facilitating the simultaneous and coordinated evolution of the WC and Co phases during further deformation. However, the surface roughness increased significantly after traditional and dual shot peening treatments due to accumulated elastic-plastic deformation. This is likely to deteriorate the surface integrity and thus should be avoided if possible, without compromising the other beneficial effects caused by shot peening.
ArticleNumber 127710
Author Chen, Ming
Xiong, Xiao
Liu, Huabing
Jiang, Chuanhai
Zhang, Hao
Li, Mengnie
Wang, Chengxi
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  givenname: Hao
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  givenname: Chuanhai
  surname: Jiang
  fullname: Jiang, Chuanhai
  organization: School of Materials Science and Engineering, Shanghai Jiao Tong University, Shanghai 200240, China
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CitedBy_id crossref_primary_10_1007_s11665_024_09589_y
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Keywords Surface integrity
Shot peening
Surface roughness
Hardness
Residual stress
Cemented tungsten carbide
Language English
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Snippet This study investigates the changes in the surface integrity of WC-Co cemented carbide, after traditional and dual shot peening treatments, using physical...
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StartPage 127710
SubjectTerms Cemented carbides
Cemented tungsten carbide
Compressive properties
Elastic deformation
Hardness
Integrity
Plastic deformation
Residual stress
Shot peening
Surface integrity
Surface layers
Surface roughness
Tungsten carbide
Title Changes in surface integrity of cemented tungsten carbide with shot peening treatment
URI https://dx.doi.org/10.1016/j.surfcoat.2021.127710
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