Development of an innovative method to predict and to characterize the performances of Ti-6Al-4V LBW joints

Every manufacturing process leaves on the surface of the piece a typical “technology signature”. In particular, the laser welding leaves a feature at the edge of the weld bead called “undercut”. In this work an experimental campaign has been conducted on Ti6Al4V butt joints. In particular a Central...

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Hauptverfasser:	Liberini, Mariacira, Esposito, Sara, Reshad, Kambitz, Previtali, Barbara, Viola, Marco, Squillace, Antonino
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Butt joints Computer simulation Fiber lasers Finite element method Laser beam welding Lasers Mechanical properties Process parameters Response surface methodology Titanium base alloys Welding parameters
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creator	Liberini, Mariacira Esposito, Sara Reshad, Kambitz Previtali, Barbara Viola, Marco Squillace, Antonino
description	Every manufacturing process leaves on the surface of the piece a typical “technology signature”. In particular, the laser welding leaves a feature at the edge of the weld bead called “undercut”. In this work an experimental campaign has been conducted on Ti6Al4V butt joints. In particular a Central Composite Design (CCD) with the central point repeated three times has been investigated. In the CCD there are two factors (power and speed of the fiber laser) and five levels for each factor. This paper deals with the investigation about the correlation between the severity of the undercut and the process parameters of the laser welding. In particular, through the confocal microscopy, the original geometry of the joint was accurately acquired and rebuilt in order to make a FEM model and simulate the mechanical behavior using Ansys14.5. Moreover, response surfaces and level curves were carried out to understand and predict the depth and the width of the undercut starting from the power and the speed of the laser. At last a mathematic and geometry regression was performed in order to find a unique conical curve that interpolates all the different undercuts and that varies its parameters according to the process parameters. It is established that the process with higher speed minimizes and optimizes the undercut in the joints.
doi_str_mv	10.1063/1.4963630
format	Conference Proceeding
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At last a mathematic and geometry regression was performed in order to find a unique conical curve that interpolates all the different undercuts and that varies its parameters according to the process parameters. It is established that the process with higher speed minimizes and optimizes the undercut in the joints.</description><identifier>ISSN: 0094-243X</identifier><identifier>EISSN: 1551-7616</identifier><identifier>DOI: 10.1063/1.4963630</identifier><identifier>CODEN: APCPCS</identifier><language>eng</language><publisher>Melville: American Institute of Physics</publisher><subject>Butt joints ; Computer simulation ; Fiber lasers ; Finite element method ; Laser beam welding ; Lasers ; Mechanical properties ; Process parameters ; Response surface methodology ; Titanium base alloys ; Welding parameters</subject><ispartof>AIP conference proceedings, 2016, Vol.1769 (1)</ispartof><rights>Author(s)</rights><rights>2016 Author(s). 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In particular, the laser welding leaves a feature at the edge of the weld bead called “undercut”. In this work an experimental campaign has been conducted on Ti6Al4V butt joints. In particular a Central Composite Design (CCD) with the central point repeated three times has been investigated. In the CCD there are two factors (power and speed of the fiber laser) and five levels for each factor. This paper deals with the investigation about the correlation between the severity of the undercut and the process parameters of the laser welding. In particular, through the confocal microscopy, the original geometry of the joint was accurately acquired and rebuilt in order to make a FEM model and simulate the mechanical behavior using Ansys14.5. Moreover, response surfaces and level curves were carried out to understand and predict the depth and the width of the undercut starting from the power and the speed of the laser. At last a mathematic and geometry regression was performed in order to find a unique conical curve that interpolates all the different undercuts and that varies its parameters according to the process parameters. It is established that the process with higher speed minimizes and optimizes the undercut in the joints.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.4963630</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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source	AIP Journals Complete
subjects	Butt joints Computer simulation Fiber lasers Finite element method Laser beam welding Lasers Mechanical properties Process parameters Response surface methodology Titanium base alloys Welding parameters
title	Development of an innovative method to predict and to characterize the performances of Ti-6Al-4V LBW joints
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