The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling Process

The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling Process

Drilling is the most common machining process whereby the operation involves making round holes in metallic and nonmetallic materials. Metal drilling operations are quite complex and usually complicated. Nevertheless, knowledge about metal drilling process related to using Finite Element Model in...

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Bibliographic Details
Main Authors: K. Gök, E. Türkes, S. Neseli, H. Saglam, A. Gök
Format: Article
Language:English
Published: Eastern Macedonia and Thrace Institute of Technology 2013-12-01
Series:Journal of Engineering Science and Technology Review
Subjects:
Drilling
Force
Torque
FEM simulation.
Online Access:http://www.jestr.org/downloads/Volume6Issue3/fulltext17632013.pdf
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spelling doaj-7f05693ae0644e1fa016b2849ec662ea2020-11-25T01:41:41ZengEastern Macedonia and Thrace Institute of TechnologyJournal of Engineering Science and Technology Review1791-23771791-23772013-12-01639399The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling ProcessK. Gök0E. Türkes1S. Neseli2H. Saglam3A. Gök4Technical Science College, Dumlupinar University, Germiyan Campus, Kütahya, Turkey Dumlupınar University, Department of Mechanical Engineering, Kutahya, Turkey Technical Science College, Selcuk University, Konya, Turkey Vocational School of Kastamonu, Kastamonu University, Kastamonu, TurkeyTechnical Science College, Dumlupinar University, Germiyan Campus, Kütahya, Turkey Drilling is the most common machining process whereby the operation involves making round holes in metallic and nonmetallic materials. Metal drilling operations are quite complex and usually complicated. Nevertheless, knowledge about metal drilling process related to using Finite Element Model in literature is quite limited reported. In this study, a Lagrangian Incremental Finite Element Model selected for the metal drilling process. The drilling force and torque values were obtained using Finite Element Model for AISI 1040 workpiece material. A comparison presented between the drilling force and torque values which are obtained by measured and Finite Element Model, and then a good agreement found between measured and predicted force and torque values.http://www.jestr.org/downloads/Volume6Issue3/fulltext17632013.pdfDrillingForceTorqueFEM simulation.
collection DOAJ
language English
format Article
sources DOAJ
author K. Gök
E. Türkes
S. Neseli
H. Saglam
A. Gök
spellingShingle K. Gök
E. Türkes
S. Neseli
H. Saglam
A. Gök
The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling Process
Journal of Engineering Science and Technology Review
Drilling
Force
Torque
FEM simulation.
author_facet K. Gök
E. Türkes
S. Neseli
H. Saglam
A. Gök
author_sort K. Gök
title The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling Process
title_short The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling Process
title_full The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling Process
title_fullStr The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling Process
title_full_unstemmed The Validation as Experimental and Numerical of the Values of Thrust Force and Torque in Drilling Process
title_sort validation as experimental and numerical of the values of thrust force and torque in drilling process
publisher Eastern Macedonia and Thrace Institute of Technology
series Journal of Engineering Science and Technology Review
issn 1791-2377
1791-2377
publishDate 2013-12-01
description Drilling is the most common machining process whereby the operation involves making round holes in metallic and nonmetallic materials. Metal drilling operations are quite complex and usually complicated. Nevertheless, knowledge about metal drilling process related to using Finite Element Model in literature is quite limited reported. In this study, a Lagrangian Incremental Finite Element Model selected for the metal drilling process. The drilling force and torque values were obtained using Finite Element Model for AISI 1040 workpiece material. A comparison presented between the drilling force and torque values which are obtained by measured and Finite Element Model, and then a good agreement found between measured and predicted force and torque values.
topic Drilling
Force
Torque
FEM simulation.
url http://www.jestr.org/downloads/Volume6Issue3/fulltext17632013.pdf
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