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American Journal of Mechanical Engineering
ISSN (Print): 2328-4102 ISSN (Online): 2328-4110 Website: https://www.sciepub.com/journal/ajme Editor-in-chief: Kambiz Ebrahimi, Dr. SRINIVASA VENKATESHAPPA CHIKKOL
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Issue 7, Volume 1
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American Journal of Mechanical Engineering. 2013, 1(7), 309-312
DOI: 10.12691/ajme-1-7-31
Open AccessArticle

Analysis of Influence of Strain Gage Rosette on Relieved Strain

Patrik Šarga1, , Peter Senko1 and František Trebuňa1

1Department of Applied Mechanics and Mechatronics, Technical university in Košice, Faculty of Mechanical Engineering,; Letná 9, 040 01 Košice, Slovakia

Pub. Date: November 11, 2013
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Cite this paper:
Patrik Šarga, Peter Senko and František Trebuňa. Analysis of Influence of Strain Gage Rosette on Relieved Strain. American Journal of Mechanical Engineering. 2013; 1(7):309-312. doi: 10.12691/ajme-1-7-31

Abstract

Hole-drilling method is the most widely used method for measuring residual stresses. This method is performed using strain gage rosette attached to the surface of the studied components, through which we drill blind or through-hole. This paper is devoted to analyzing of influence of strain gage rosette on relieved strain. Our aim was to establish more accurately model of strain gage rosette, and examine its effect on hardening of the surface around the hole. For modeling by FEM was used strain gage rosette RY 21 made by HBM.

Keywords:
residual stress hole-drilling method strain gage rosette FEM (finite element method)

Creative CommonsThis work is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

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References:

[1]  ASTM Standard E837-08.
 
[2]  Flaman, M.T., Manning, B.H.: Determination of Residual Stress Variation with Depth by the Hole-Drilling Method, Experimental Mechanics, No. 25, 1985.
 
[3]  Manning, B. W., Flaman, M. T.: Finite-Element Calculations of Calibration Constans for Determination of Residual Stresses with Depth by the Hole-Drilling Method. Ontario Hydro (Research Division) Report 82-88-K, Toronto, Canada, 1982.
 
[4]  Lu, J.: Handbook of measurement of residual stresses. Society for experimental mechanics, Fairmont press Liburn, GA, 1996, Chapter 2.
 
[5]  Senko, P.: Verifikácia určovania zvyškových napätí v závislosti na hĺbke odvrtávania. DDP TU v Košiciach, September 2005.
 
[6]  Schajer, G. S.: Application of finite element calculations to residual stress measurements. Journal of engineering materials and technology, Transaction, ASME, 103, April 1981, 157-163.
 
[7]  Šarga, P.: Riadenie odvŕtavania a vyhodnocovania zvyškových napätí, DDP TU v Košiciach, September 2005.
 
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