Measurement of Residual Stress in Composites Using Central Hole Drilling and Digital Image Correlation Methods
Subject Areas :
Peyman Ghasemi Tamami
1
(Tarbiat Modares University, Faculty of Mechanical Engineering, Tehran, Iran)
Davood Akbari
2
(Tarbiat Modares University, Faculty of Mechanical Engineering, Tehran, Iran)
Farid Azadi
3
(Tarbiat Modares University, Faculty of Mechanical Engineering, Tehran, Iran)
Keywords: Digital image correlation, Composite, Hole Drilling, Residual Stress Measurement,
Abstract :
Residual stress measurement is important in composite components. Due to the non-uniform structure of the composite components, the measurement of residual stress in these components cannot be easily performed. In this study, the composite components of polyester resin with glass fiber were presented as a novel structure for a vehicle segment. These materials are manufactured by hand layup method and will generate residual stresses after curing. To calculate the number of residual stresses generated in these parts, the combined central hole drilling-digital image correlation method was used. This method has advantages over drilling by installing a rosette strain gauge. To measure the residual stresses of the desired piece, the drill was positioned on the set, and three points of bending have been done. Then the experimental test conditions are simulated in the ANSYS finite element software. By comparing the results of the experimental test and software simulation, the residual stress values in composite components were calculated with good accuracy.
[1] Shokrieh, M. 2014. Residual stresses in composite materials. Woodhead publishing, Sawston, United Kingdom.
[2] Mathar, J. 1934. Determination of initial stresses by measuring the deformation around drilled holes. Trans. ASME. 56(4): 249-254.
[3] Schajer, G. S. 2010. Advances in hole-drilling residual stress measurements. Experimental mechanics. 50(2): 159-168.
[4] Sutton, M. A., Wolters, W. J., Peters, W. H., Ranson, W. F. and McNeill, S. R. 1983. Determination of displacements using an improved digital correlation method. Image and vision computing. 1(3): 133-139.
[5] Hild, F., Roux, S. 2012. Digital image correlation. Optical methods for solid mechanics. A full-field approach. 367: 183-228.
[6] Bartlett, J. L., Croom, B. P., Burdick, J., Henkel, D., and Li, X. 2018. Revealing mechanisms of residual stress development in additive manufacturing via digital image correlation. Additive Manufacturing. 22: 1-12.
[7] Ghasemi Tamami, P. and Akbari, D. 2017. Study on defect detection of industrial parts with Digital Image Correlation method. 25th Annual Conference of Mechanical Engineering. Tehran, Iran.
[8] Standard, A. S. T. M. 2008. E837-08 Standard test method for determining residual stresses by the hole-drilling strain-gage method. ASMT international, West Conshohocken, PA.
[9] Schajer, G. S. and Yang, L. 1994. Residual-stress measurement in orthotropic materials using the hole-drilling method. Experimental Mechanics. 34(4): 324-333.
[10] Shokrieh, M. M. and Ghasemi K, A. R. 2007. Determination of calibration factors of the hole drilling method for orthotropic composites using an exact solution. Journal of Composite materials. 41(19): 2293-2311.