Study of static and dynamic ploughing mechanisms by establishing generalized model with static milling forces

Studies on ploughing mechanism were separately treated for static and dynamic cutting processes in the literature. In this paper, a generalized method, which is suitable for exploring the ploughing mechanism of both static and dynamic cuts, is presented by only using the static milling forces. Wheth...

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Published inInternational journal of mechanical sciences Vol. 114; pp. 120 - 131
Main Authors Wan, Min, Ma, Ying-Chao, Feng, Jia, Zhang, Wei-Hong
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2016
Subjects
Calibration
Chatter stability
Coefficients
Cutting
Cutting force model
Dynamic tests
Dynamics
Friction
Ploughing force coefficient
Ploughing mechanism
Process damping
Shear stress
Shearing
Stability lobe diagram (SLD)
Stability lobe diagram (SLD)
Cutting force model
Process damping
Chatter stability
Ploughing mechanism
Ploughing force coefficient
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Abstract Studies on ploughing mechanism were separately treated for static and dynamic cutting processes in the literature. In this paper, a generalized method, which is suitable for exploring the ploughing mechanism of both static and dynamic cuts, is presented by only using the static milling forces. Whether for static or dynamic cutting processes, a unified proportional form is used to express ploughing forces as function of the volume of the materials extruded under the clearance face of the tool, and the corresponding proportional scale is named ploughing force coefficient. To facilitate identifying the ploughing force coefficient, the total static milling force is decomposed into two parts, i.e. the shearing force component and the ploughing force component, and then the ploughing force coefficient is identified using the ploughing force component. It is observed that the relative error between the determined ploughing force coefficient and the one obtained by using dynamic signals in existing method is less than two percent. Besides, determination procedure is also specially developed to calibrate shear angle, shear stress and friction constant based on the separated shearing force component. Both static and dynamic milling tests are used to validate the proposed model. •A generalized model is presented to study the static and dynamic ploughing and shearing effects.•Shearing and ploughing force expressions are integrated into one unified form.•The model can treat both mechanics and dynamics of milling process with process damping.•A few milling tests rather than abundant turning cuts are needed to calibrate force coefficients.
AbstractList Studies on ploughing mechanism were separately treated for static and dynamic cutting processes in the literature. In this paper, a generalized method, which is suitable for exploring the ploughing mechanism of both static and dynamic cuts, is presented by only using the static milling forces. Whether for static or dynamic cutting processes, a unified proportional form is used to express ploughing forces as function of the volume of the materials extruded under the clearance face of the tool, and the corresponding proportional scale is named ploughing force coefficient. To facilitate identifying the ploughing force coefficient, the total static milling force is decomposed into two parts, i.e. the shearing force component and the ploughing force component, and then the ploughing force coefficient is identified using the ploughing force component. It is observed that the relative error between the determined ploughing force coefficient and the one obtained by using dynamic signals in existing method is less than two percent. Besides, determination procedure is also specially developed to calibrate shear angle, shear stress and friction constant based on the separated shearing force component. Both static and dynamic milling tests are used to validate the proposed model. •A generalized model is presented to study the static and dynamic ploughing and shearing effects.•Shearing and ploughing force expressions are integrated into one unified form.•The model can treat both mechanics and dynamics of milling process with process damping.•A few milling tests rather than abundant turning cuts are needed to calibrate force coefficients.
Studies on ploughing mechanism were separately treated for static and dynamic cutting processes in the literature. In this paper, a generalized method, which is suitable for exploring the ploughing mechanism of both static and dynamic cuts, is presented by only using the static milling forces. Whether for static or dynamic cutting processes, a unified proportional form is used to express ploughing forces as function of the volume of the materials extruded under the clearance face of the tool, and the corresponding proportional scale is named ploughing force coefficient. To facilitate identifying the ploughing force coefficient, the total static milling force is decomposed into two parts, i.e. the shearing force component and the ploughing force component, and then the ploughing force coefficient is identified using the ploughing force component. It is observed that the relative error between the determined ploughing force coefficient and the one obtained by using dynamic signals in existing method is less than two percent. Besides, determination procedure is also specially developed to calibrate shear angle, shear stress and friction constant based on the separated shearing force component. Both static and dynamic milling tests are used to validate the proposed model.
Author Wan, Min
Ma, Ying-Chao
Zhang, Wei-Hong
Feng, Jia
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  email: zhangwh@nwpu.edu.cn
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Keywords Stability lobe diagram (SLD)
Cutting force model
Process damping
Chatter stability
Ploughing mechanism
Ploughing force coefficient
Language English
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Snippet Studies on ploughing mechanism were separately treated for static and dynamic cutting processes in the literature. In this paper, a generalized method, which...
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SubjectTerms Calibration
Chatter stability
Coefficients
Cutting
Cutting force model
Dynamic tests
Dynamics
Friction
Ploughing force coefficient
Ploughing mechanism
Process damping
Shear stress
Shearing
Stability lobe diagram (SLD)
Title Study of static and dynamic ploughing mechanisms by establishing generalized model with static milling forces
URI https://dx.doi.org/10.1016/j.ijmecsci.2016.05.010
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