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Isaac, OS and Jagadeesh, G (2020) Impulse Loading of Plates using a Diverging Shock Tube. In: Experimental Mechanics, 60 (4). pp. 565-569.
Sagar, Vidya R and Prasad, RV and Prasad, Raghu BK and Rao, MVMS (2013) Microcracking and fracture process in cement mortar and concrete: a comparative study using acoustic emission technique. In: Experimental Mechanics, 53 (7). pp. 1161-1175.
Shah, SG and Kishen, Chandra JM (2011) Fracture Properties of Concrete-Concrete Interfaces Using Digital Image Correlation. In: Experimental Mechanics, 51 (3). pp. 303-313.
Ganguli, Ranjan and Gorb, S and Lehmann, FO and Mukherjee, S (2010) An Experimental and Numerical Study of Calliphora Wing Structure. In: Experimental Mechanics, 50 (8). pp. 1183-1197.
Pandey, AK and Pratap, R and Chau, FS (2007) Effect of Pressure on Fluid Damping in MEMS Torsional Resonators with Flow Ranging from Continuum to Molecular Regime. In: Experimental Mechanics .
Srinath, LS and Murthy, NS and Hareesh, TV (1983) Determination of stress-intensity factors for cracks in tubes under torsion. In: Experimental Mechanics, 23 (3). pp. 262-267.
Ghosh, SP and Dattaguru, B and Rao, AK (1982) Photoelastic studies on progress of separation in interference fits. In: Experimental Mechanics, 22 (1). pp. 8-15.
Srinath, LS and Godhole, PB (1980) Stress-intensity factors near interior crack tips in 3-dimensional photo-elastic models under live loads and by stress-freezing techniques-influence of elastic-constant. In: Experimental Mechanics, 20 (5). N47-N47.
Chandrashekhara, K and Jacob, Abraham K (1978) A numerical method for separation of stresses in photo-orthotropic elasticity. In: Experimental Mechanics, 18 (2). pp. 61-66.
Chandrashekhara, K and Jacob, Abraham K and Prabhakaran, R (1977) Towards stress freezing in birefringent orthotropic composite models. In: Experimental Mechanics, 17 (8). pp. 317-320.
Thomas, A (1976) The determination of the refractive index of a photoelastic specimen by immersion technique. In: Experimental Mechanics, 16 (12). pp. 479-480.
Srinath, LS and Bhave, SK (1974) A new nondestructive method for three-dimensional photoelasticity. In: Experimental Mechanics, 14 (9). pp. 367-372.
Srinath, LS and Sarma, AVSSSR (1974) Determination of the optically equivalent model in three-dimensional photoelasticity. In: Experimental Mechanics, 14 (3). pp. 118-122.
Srinath, LS and Sarma, AVSSSR (1974) Determination of the optically equivalent model in three-dimensional photoelasticity. In: Experimental Mechanics, 14 (3). pp. 118-122.
Srinath, LS and Bhave, SK (1974) New nondestructive method for three-dimensional photoelasticity. In: Experimental Mechanics, 14 (9). pp. 367-372.
Srinath, LS and Sarma, AVSSSR (1973) Determination of integral fringe order in photoelasticity. In: Experimental Mechanics, 13 (3). pp. 138-141.
Rao, Akella Kameswara (1969) Accurate determination of interference in pin joints Pin-to-plate interference in experimental models of interference-fit joints is significantly overestimated by direct physical measurements, but it can be accurately determined by a simple photoelastic method. In: Experimental Mechanics, 9 (1). pp. 45-48.
Sundara Raja Iyengar, KT and Navaratna, DR (1962) Stresses in a deep beam with a central concentrated load - Discussion. In: Experimental Mechanics, 2 (1). pp. 22-23.
