Effects of cutting parameters on surface residual stress and its mechanism in high-speed milling of TB6

Changfeng Yao; Daoxia Wu; Liang Tan; Junxue Ren; Kaining Shi; Zhenchao Yang

doi:10.1177/0954405413475771

Effects of cutting parameters on surface residual stress and its mechanism in high-speed milling of TB6

Changfeng Yao, Daoxia Wu, Liang Tan, Junxue Ren, Kaining Shi, Zhenchao Yang

School of Mechanical Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

50 Scopus citations

Abstract

Formation mechanism and influence of cutting parameters on residual stress in flank milling of TB6 are investigated through orthogonal experiments. The thermal-mechanical coupling effect on forming residual stress is studied by analyzing the microstructure of metamorphic layer. Experiment results show that cutting temperature varies between 300 °C and 518 °C under experiment conditions, while residual compressive stress on machined surface is2199.8 tO₂41.7 MPa. Tensile residual stress occurs on subsurface when increasing milling parameters excessively. When cutting TB6 with parameters of f_z = 0.02 mm/z, v_c = 60 m/min, a_e = 0.2mm and a_p = 10 mm, only the compressive residual stress can be detected, which is good for its fatigue life. The depth of compressive residual stress layer is 10-20μm.

Original language	English
Pages (from-to)	483-493
Number of pages	11
Journal	Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture
Volume	227
Issue number	4
DOIs	https://doi.org/10.1177/0954405413475771
State	Published - Apr 2013

Keywords

High-speed milling
Milling force
Milling temperature
Residual stress
TB6 titanium alloy

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10.1177/0954405413475771

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title = "Effects of cutting parameters on surface residual stress and its mechanism in high-speed milling of TB6",

abstract = "Formation mechanism and influence of cutting parameters on residual stress in flank milling of TB6 are investigated through orthogonal experiments. The thermal-mechanical coupling effect on forming residual stress is studied by analyzing the microstructure of metamorphic layer. Experiment results show that cutting temperature varies between 300 °C and 518 °C under experiment conditions, while residual compressive stress on machined surface is2199.8 tO241.7 MPa. Tensile residual stress occurs on subsurface when increasing milling parameters excessively. When cutting TB6 with parameters of fz = 0.02 mm/z, vc = 60 m/min, ae = 0.2mm and ap = 10 mm, only the compressive residual stress can be detected, which is good for its fatigue life. The depth of compressive residual stress layer is 10-20μm.",

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author = "Changfeng Yao and Daoxia Wu and Liang Tan and Junxue Ren and Kaining Shi and Zhenchao Yang",

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T1 - Effects of cutting parameters on surface residual stress and its mechanism in high-speed milling of TB6

AU - Yao, Changfeng

AU - Wu, Daoxia

AU - Tan, Liang

AU - Ren, Junxue

AU - Shi, Kaining

AU - Yang, Zhenchao

PY - 2013/4

Y1 - 2013/4

N2 - Formation mechanism and influence of cutting parameters on residual stress in flank milling of TB6 are investigated through orthogonal experiments. The thermal-mechanical coupling effect on forming residual stress is studied by analyzing the microstructure of metamorphic layer. Experiment results show that cutting temperature varies between 300 °C and 518 °C under experiment conditions, while residual compressive stress on machined surface is2199.8 tO241.7 MPa. Tensile residual stress occurs on subsurface when increasing milling parameters excessively. When cutting TB6 with parameters of fz = 0.02 mm/z, vc = 60 m/min, ae = 0.2mm and ap = 10 mm, only the compressive residual stress can be detected, which is good for its fatigue life. The depth of compressive residual stress layer is 10-20μm.

AB - Formation mechanism and influence of cutting parameters on residual stress in flank milling of TB6 are investigated through orthogonal experiments. The thermal-mechanical coupling effect on forming residual stress is studied by analyzing the microstructure of metamorphic layer. Experiment results show that cutting temperature varies between 300 °C and 518 °C under experiment conditions, while residual compressive stress on machined surface is2199.8 tO241.7 MPa. Tensile residual stress occurs on subsurface when increasing milling parameters excessively. When cutting TB6 with parameters of fz = 0.02 mm/z, vc = 60 m/min, ae = 0.2mm and ap = 10 mm, only the compressive residual stress can be detected, which is good for its fatigue life. The depth of compressive residual stress layer is 10-20μm.

KW - High-speed milling

KW - Milling force

KW - Milling temperature

KW - Residual stress

KW - TB6 titanium alloy

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Effects of cutting parameters on surface residual stress and its mechanism in high-speed milling of TB6

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Keywords

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