Differences and similarities between the induced residual stresses after ball end milling and orthogonal cutting of Ti-6Al-4V

Dennis Nespor; Berend Denkena; Thilo Grove; Volker Böß

doi:10.1016/j.jmatprotec.2015.06.033

Details

Originalsprache	Englisch
Seiten (von - bis)	15-24
Seitenumfang	10
Fachzeitschrift	Journal of Materials Processing Technology
Jahrgang	226
Publikationsstatus	Veröffentlicht - 4 Juli 2015

Abstract

Machining often defines the final residual stress state of a workpiece, which influences the fatigue properties and thus its functional performance. In literature, fundamental residual stress investigations are often limited to planing or orthogonal cutting and the findings are rarely transferred to complex machining processes used in industry. This paper compares the residual stress state after machining Ti-6Al-4V using the complex ball end milling process with the fundamental orthogonal cutting and orthogonal planing processes. Principal directions, depth profiles of residual stresses and influencing machining and tool parameters are discussed in terms of differences and transferability. It is shown that results can only be transferred if the deformation morphology of the subsurface is considered, which is defined by the tool kinematics and shape of the workpiece.

ASJC Scopus Sachgebiete

Werkstoffwissenschaften (insg.)
Keramische und Verbundwerkstoffe
Informatik (insg.)
Angewandte Informatik
Werkstoffwissenschaften (insg.)
Metalle und Legierungen
Ingenieurwesen (insg.)
Wirtschaftsingenieurwesen und Fertigungstechnik

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Differences and similarities between the induced residual stresses after ball end milling and orthogonal cutting of Ti-6Al-4V. / Nespor, Dennis; Denkena, Berend; Grove, Thilo et al.
in: Journal of Materials Processing Technology, Jahrgang 226, 04.07.2015, S. 15-24.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Nespor, D, Denkena, B, Grove, T & Böß, V 2015, 'Differences and similarities between the induced residual stresses after ball end milling and orthogonal cutting of Ti-6Al-4V', Journal of Materials Processing Technology, Jg. 226, S. 15-24. https://doi.org/10.1016/j.jmatprotec.2015.06.033

Nespor, D., Denkena, B., Grove, T., & Böß, V. (2015). Differences and similarities between the induced residual stresses after ball end milling and orthogonal cutting of Ti-6Al-4V. Journal of Materials Processing Technology, 226, 15-24. https://doi.org/10.1016/j.jmatprotec.2015.06.033

Nespor D, Denkena B, Grove T, Böß V. Differences and similarities between the induced residual stresses after ball end milling and orthogonal cutting of Ti-6Al-4V. Journal of Materials Processing Technology. 2015 Jul 4;226:15-24. doi: 10.1016/j.jmatprotec.2015.06.033

Nespor, Dennis ; Denkena, Berend ; Grove, Thilo et al. / Differences and similarities between the induced residual stresses after ball end milling and orthogonal cutting of Ti-6Al-4V. in: Journal of Materials Processing Technology. 2015 ; Jahrgang 226. S. 15-24.

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abstract = "Machining often defines the final residual stress state of a workpiece, which influences the fatigue properties and thus its functional performance. In literature, fundamental residual stress investigations are often limited to planing or orthogonal cutting and the findings are rarely transferred to complex machining processes used in industry. This paper compares the residual stress state after machining Ti-6Al-4V using the complex ball end milling process with the fundamental orthogonal cutting and orthogonal planing processes. Principal directions, depth profiles of residual stresses and influencing machining and tool parameters are discussed in terms of differences and transferability. It is shown that results can only be transferred if the deformation morphology of the subsurface is considered, which is defined by the tool kinematics and shape of the workpiece.",

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author = "Dennis Nespor and Berend Denkena and Thilo Grove and Volker B{\"o}{\ss}",

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AU - Nespor, Dennis

AU - Denkena, Berend

AU - Grove, Thilo

AU - Böß, Volker

N1 - Funding information: The authors thank the German Research Foundation (DFG) for the financial support within the Collaborative Research Centre 871: Refurbishment of complex capital goods.

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N2 - Machining often defines the final residual stress state of a workpiece, which influences the fatigue properties and thus its functional performance. In literature, fundamental residual stress investigations are often limited to planing or orthogonal cutting and the findings are rarely transferred to complex machining processes used in industry. This paper compares the residual stress state after machining Ti-6Al-4V using the complex ball end milling process with the fundamental orthogonal cutting and orthogonal planing processes. Principal directions, depth profiles of residual stresses and influencing machining and tool parameters are discussed in terms of differences and transferability. It is shown that results can only be transferred if the deformation morphology of the subsurface is considered, which is defined by the tool kinematics and shape of the workpiece.

AB - Machining often defines the final residual stress state of a workpiece, which influences the fatigue properties and thus its functional performance. In literature, fundamental residual stress investigations are often limited to planing or orthogonal cutting and the findings are rarely transferred to complex machining processes used in industry. This paper compares the residual stress state after machining Ti-6Al-4V using the complex ball end milling process with the fundamental orthogonal cutting and orthogonal planing processes. Principal directions, depth profiles of residual stresses and influencing machining and tool parameters are discussed in terms of differences and transferability. It is shown that results can only be transferred if the deformation morphology of the subsurface is considered, which is defined by the tool kinematics and shape of the workpiece.

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KW - Titanium

KW - Turning

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Research@Leibniz University

Differences and similarities between the induced residual stresses after ball end milling and orthogonal cutting of Ti-6Al-4V

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