Overview of work piece temperature measurement techniques for machining of Ti6Al4V

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conradie_overview_2012.pdf(1.06 MB)
Date
2012-07
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Publisher
Southern African Institute for Industrial Engineering
Abstract
ENGLISH ABSTRACT: Ti6Al4V is one of the most widely used titanium alloys in aerospace applications, but its machining remains a challenge. Comprehensive research has been done in the past, mainly investigating tool failure of various materials. Less research has been done to investigate the thermal effect of machining on work piece quality, including fatigue performance. Temperature measurement is considered to be a key enabling technology. This study presents an overview of current temperature measurement techniques for machined and tool surfaces. Two categories of methods were investigated: slower contact, and faster optical methods. Optical fibre two colour pyrometry experiments are reported that demonstrate the technique’s adequate response time. The infrared camera temperature measurement experiments synchronised temperature measurement with visual observation, aimed at mechanism analysis. The results corresponded with the literature.
AFRIKAANSE OPSOMMING: Ti6Al4V is een van die mees gewilde lugvaart allooie, maar sy masjinering is ’n uitdaging. Bestaande navorsing dek beitelslytasie omvattend. Die termiese effek van masjinering op werkstuk integriteit, insluitend vermoeiingleeftyd, het egter veel minder dekking geniet. Temperatuurmeting wat in hierdie studie ondersoek word, word as ’n sleuteltegnologie beskou. Twee kategorië metodes is ondersoek, nl stadige kontakmetodes en optiese metodes met vinnige respons, wat die meting van oorgangsverskynsels moontlik maak. Eksperimentele werk wat beide optiese vesel tweekleurpirometrie en termiese kamera tegnieke insluit bewys die tegnieke as geskik vir die benodigde navorsing.
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The original publication is available at http://sajie.journals.ac.za
CITATION: Conradie, P. J. T., Oosthuizen, G. A., Treurnicht, N. F. & Al Shaalane, A. 2012. Overview of work piece temperature measurement techniques for machining of Ti6Al4V. South African Journal of Industrial Engineering, 23 (2):116–130, doi:10.7166/23-2-335.
Keywords
Titanium alloys -- Heat treatment, Aerospace industries, Titanium alloys -- Fatigue, Cutting machines
Citation
Conradie, P. J. T., Oosthuizen, G. A., Treurnicht, N. F. & Al Shaalane, A. 2012. Overview of work piece temperature measurement techniques for machining of Ti6Al4V. South African Journal of Industrial Engineering, 23 (2):116–130, doi:10.7166/23-2-335.
URI
http://hdl.handle.net/10019.1/70405
Collections
Research Articles (Industrial Engineering)