A comparative study of residual stress and affected layer in Aermet100 steel grinding with alumina and cBN wheels

Residual stresses induced by finish machining processes have significant effect on fatigue strength of ultra-high strength steel in large structures. In this study, an experimental investigation was carried out to explore the residual stress and affected layer in grinding Aermet100 by using a resin...

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Published inInternational journal of advanced manufacturing technology Vol. 74; no. 1-4; pp. 125 - 137
Main Authors Yao, ChangFeng, Wang, Ting, Ren, JunXue, Xiao, Wei
Format Journal Article
LanguageEnglish
Published London Springer London 01.09.2014
Springer Nature B.V
Subjects
Aluminum oxide
CAE) and Design
Comparative studies
Compressive properties
Computer-Aided Engineering (CAD
Coupling
Cubic boron nitride
Deformation mechanisms
Engineering
Fatigue strength
Grinding wheels
Hardening
High strength steels
Industrial and Production Engineering
Machining
Mechanical Engineering
Media Management
Microhardness
Original Article
Plastic deformation
Residual stress
Steel structures
Thermal conductivity
Aermet100
Affected layer
Surface grinding
Residual stress
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Abstract Residual stresses induced by finish machining processes have significant effect on fatigue strength of ultra-high strength steel in large structures. In this study, an experimental investigation was carried out to explore the residual stress and affected layer in grinding Aermet100 by using a resin bond white alumina (WA) wheel and cubic boron nitride (cBN) wheel, respectively. The grinding force and temperature were measured, and then the affected layer of residual stress, microhardness, and microstructure by a WA and a cBN wheel was obtained. The comparisons of surface residual stress studies and thermal–mechanical coupling mechanism on the affected layer were discussed in light of the current understanding of this subject. Experimental results show that grinding with cBN wheel can provide compressive residual stress and a smaller affected layer owing to its better thermal conductivity; the coupling effect of wheel speed and grinding depth plays a more significant role on surface residual stress; when grinding with parameters v w  = 18 m/min, v s  = 14 m/s, and a p  = 0.01 mm, compressive residual stress and hardening effect appeared on ground surface, and the depth of residual stress layer is 40~50 μm; the depth of hardened layer is 30~40 μm and the depth of plastic deformation layer is 5~10 μm.
AbstractList Residual stresses induced by finish machining processes have significant effect on fatigue strength of ultra-high strength steel in large structures. In this study, an experimental investigation was carried out to explore the residual stress and affected layer in grinding Aermet100 by using a resin bond white alumina (WA) wheel and cubic boron nitride (cBN) wheel, respectively. The grinding force and temperature were measured, and then the affected layer of residual stress, microhardness, and microstructure by a WA and a cBN wheel was obtained. The comparisons of surface residual stress studies and thermal–mechanical coupling mechanism on the affected layer were discussed in light of the current understanding of this subject. Experimental results show that grinding with cBN wheel can provide compressive residual stress and a smaller affected layer owing to its better thermal conductivity; the coupling effect of wheel speed and grinding depth plays a more significant role on surface residual stress; when grinding with parameters vw = 18 m/min, vs = 14 m/s, and ap = 0.01 mm, compressive residual stress and hardening effect appeared on ground surface, and the depth of residual stress layer is 40~50 μm; the depth of hardened layer is 30~40 μm and the depth of plastic deformation layer is 5~10 μm.
Residual stresses induced by finish machining processes have significant effect on fatigue strength of ultra-high strength steel in large structures. In this study, an experimental investigation was carried out to explore the residual stress and affected layer in grinding Aermet100 by using a resin bond white alumina (WA) wheel and cubic boron nitride (cBN) wheel, respectively. The grinding force and temperature were measured, and then the affected layer of residual stress, microhardness, and microstructure by a WA and a cBN wheel was obtained. The comparisons of surface residual stress studies and thermal–mechanical coupling mechanism on the affected layer were discussed in light of the current understanding of this subject. Experimental results show that grinding with cBN wheel can provide compressive residual stress and a smaller affected layer owing to its better thermal conductivity; the coupling effect of wheel speed and grinding depth plays a more significant role on surface residual stress; when grinding with parameters v w  = 18 m/min, v s  = 14 m/s, and a p  = 0.01 mm, compressive residual stress and hardening effect appeared on ground surface, and the depth of residual stress layer is 40~50 μm; the depth of hardened layer is 30~40 μm and the depth of plastic deformation layer is 5~10 μm.
Author Wang, Ting
Xiao, Wei
Ren, JunXue
Yao, ChangFeng
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  surname: Yao
  fullname: Yao, ChangFeng
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  organization: The Key Laboratory of Contemporary Design and Integrated Manufacturing Technology, Ministry of Education, Northwestern Polytechnical University
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  givenname: Ting
  surname: Wang
  fullname: Wang, Ting
  organization: The Key Laboratory of Contemporary Design and Integrated Manufacturing Technology, Ministry of Education, Northwestern Polytechnical University
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  surname: Ren
  fullname: Ren, JunXue
  organization: The Key Laboratory of Contemporary Design and Integrated Manufacturing Technology, Ministry of Education, Northwestern Polytechnical University
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  givenname: Wei
  surname: Xiao
  fullname: Xiao, Wei
  organization: The Key Laboratory of Contemporary Design and Integrated Manufacturing Technology, Ministry of Education, Northwestern Polytechnical University
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Keywords Aermet100
Affected layer
Surface grinding
Residual stress
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Snippet Residual stresses induced by finish machining processes have significant effect on fatigue strength of ultra-high strength steel in large structures. In this...
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SubjectTerms Aluminum oxide
CAE) and Design
Comparative studies
Compressive properties
Computer-Aided Engineering (CAD
Coupling
Cubic boron nitride
Deformation mechanisms
Engineering
Fatigue strength
Grinding wheels
Hardening
High strength steels
Industrial and Production Engineering
Machining
Mechanical Engineering
Media Management
Microhardness
Original Article
Plastic deformation
Residual stress
Steel structures
Thermal conductivity
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Title A comparative study of residual stress and affected layer in Aermet100 steel grinding with alumina and cBN wheels
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