Numerical and experimental investigation of Johnson–Cook material models for aluminum (Al 6061-T6) alloy using orthogonal machining approach

This research focuses on the study of the effects of processing conditions on the Johnson–Cook material model parameters for orthogonal machining of aluminum (Al 6061-T6) alloy. Two sets of parameters of Johnson–Cook material model describing material behavior of Al 6061-T6 were investigated by comp...

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Published inAdvances in mechanical engineering Vol. 10; no. 9; p. 168781401879779
Main Authors Akram, Sohail, Jaffery, Syed Husain Imran, Khan, Mushtaq, Fahad, Muhammad, Mubashar, Aamir, Ali, Liaqat
Format Journal Article
LanguageEnglish
Published London, England SAGE Publications 01.09.2018
Sage Publications Ltd
SAGE Publishing
Subjects
Accuracy
Advantages
Aluminum
Aluminum base alloys
Authorship
Chip formation
Coefficient of friction
Cutting force
Cutting speed
Deformation
Finite element method
Force measurement
Friction
Machining
Mathematical models
Morphology
Parameters
Researchers
Shear strength
Temperature effects
Two dimensional models
specific cutting energy consumption
Johnson–Cook material model
aluminum Al 6061-T6
high-speed machining
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Abstract This research focuses on the study of the effects of processing conditions on the Johnson–Cook material model parameters for orthogonal machining of aluminum (Al 6061-T6) alloy. Two sets of parameters of Johnson–Cook material model describing material behavior of Al 6061-T6 were investigated by comparing cutting forces and chip morphology. A two-dimensional finite element model was developed and validated with the experimental results published literature. Cutting tests were conducted at low-, medium-, and high-speed cutting speeds. Chip formation and cutting forces were compared with the numerical model. A novel technique of cutting force measurement using power meter was also validated. It was found that the cutting forces decrease at higher cutting speeds as compared to the low and medium cutting speeds. The poor prediction of cutting forces by Johnson–Cook model at higher cutting speeds and feed rates showed the existence of a material behavior that does not exist at lower or medium cutting speeds. Two factors were considered responsible for the change in cutting forces at higher cutting speeds: change in coefficient of friction and thermal softening. The results obtained through numerical investigations after incorporated changes in coefficient of friction showed a good agreement with the experimental results.
AbstractList This research focuses on the study of the effects of processing conditions on the Johnson–Cook material model parameters for orthogonal machining of aluminum (Al 6061-T6) alloy. Two sets of parameters of Johnson–Cook material model describing material behavior of Al 6061-T6 were investigated by comparing cutting forces and chip morphology. A two-dimensional finite element model was developed and validated with the experimental results published literature. Cutting tests were conducted at low-, medium-, and high-speed cutting speeds. Chip formation and cutting forces were compared with the numerical model. A novel technique of cutting force measurement using power meter was also validated. It was found that the cutting forces decrease at higher cutting speeds as compared to the low and medium cutting speeds. The poor prediction of cutting forces by Johnson–Cook model at higher cutting speeds and feed rates showed the existence of a material behavior that does not exist at lower or medium cutting speeds. Two factors were considered responsible for the change in cutting forces at higher cutting speeds: change in coefficient of friction and thermal softening. The results obtained through numerical investigations after incorporated changes in coefficient of friction showed a good agreement with the experimental results.
Author Khan, Mushtaq
Fahad, Muhammad
Jaffery, Syed Husain Imran
Mubashar, Aamir
Akram, Sohail
Ali, Liaqat
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  surname: Mubashar
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  surname: Ali
  fullname: Ali, Liaqat
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Issue 9
Keywords specific cutting energy consumption
Johnson–Cook material model
aluminum Al 6061-T6
high-speed machining
Language English
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Snippet This research focuses on the study of the effects of processing conditions on the Johnson–Cook material model parameters for orthogonal machining of aluminum...
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SubjectTerms Accuracy
Advantages
Aluminum
Aluminum base alloys
Authorship
Chip formation
Coefficient of friction
Cutting force
Cutting speed
Deformation
Finite element method
Force measurement
Friction
Machining
Mathematical models
Morphology
Parameters
Researchers
Shear strength
Temperature effects
Two dimensional models
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Title Numerical and experimental investigation of Johnson–Cook material models for aluminum (Al 6061-T6) alloy using orthogonal machining approach
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Volume 10
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