@incollection{,
	
					
					
					EAF111AA8275354579C9480F8DD16162
				,
	author={{Shishay AmareGebremeskel} and {NeelanchaliAsija} and {AryanPriyanshu} and {Indian Institute of Technology Delhi}},
	journal={{Global Journal of Researches in Engineering}},
	journal={{GJRE}}2249-45960975-586110.34257/gjre,
	address={Cambridge, United States},
	publisher={Global Journals Organisation}1476275
}

@book{b0,
	
	
		,
	title={{High strain rate properties of polymer matrix composites}}
		,
	author={{
			Jadhav
		}}
		
			,
	year={2003}
		
		
			Univ. of Pune
		
	
	,
	note={M. S. thesis}

}

@book{b1,
	
	
		,
	title={{Quasi-Static and High Strain-Rate Mechanical Behavior of FP? (?-alumina) Long Fiber Reinforced Magnesium and Aluminum Metal Matrix Composites}}
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	author={{
			O
		}}
		
			,
	year={2004}
		
		
			Dept. Materials Science & Eng., Izmir Inst. of Tech., Turkey
		
	
	,
	note={M.S. thesis}

}

@book{b2,
	
	
		,
	title={{Split Hopkinson Pressure Bar Apparatus. ASME, Southwest Research Institute}}
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	author={{
			USLindholm
		} and {
			LMYeakley
		}}
		
		
			,
	year={2006}
			,
	address={San Antonio, Texas}
		
	

}

@incollection{b3,
	
	
		,
	title={{}}
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	author={{
			BAGama
		} and {
			SLLopatnikov
		} and {
			JWGillespie
		}}
		
		
	
	
		,
	journal={{Hopkinson Bar Experimental Technique: A critical Review. ASME Appl. Mech. Rev}}
		
			57
			4
			,
	year={2004}
		
	

}

@book{b4,
	
	
		,
	title={{High Strain Rate and Impact Experiments}}
		,
	author={{
			KTRamesh
		}}
		
			,
	year={2008}
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	publisher={Springer}
		
	
	,
	note={Experimental Solid Mechanics}

}

@book{b5,
	
	
		,
	title={{Design of a Split Hopkinson Pressure Bar}}
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	author={{
			FGallina
		} and {
			RSBirch
		} and {
			MAlves
		}}
		
		
		
			,
	address={Brazil}
		
		
			Univ. of Sao Paulo
		
	
	,
	note={Unpublished results}

}

@book{b6,
	
	
		,
	title={{Design of a Split Hopkinson Bar Apparatus for use with Fiber Reinforced Composite Materials}}
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	author={{
			SMLang
		}}
		
			,
	year={2012}
			,
	address={Logan, Utah}
		
		
			Dept. Mech. Eng., Utah State Univ.
		
	
	,
	note={M.S. thesis}

}

@book{b7,
	
	
		,
	title={{Development of a Split Hopkinson Tension Bar for testing stress-strain response of particulate composites under high rates of loading}}
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	author={{
			ATOwens
		}}
		
			,
	year={2007}
			,
	address={Alabama}
		
		
			Auburn Univ.
		
	
	,
	note={M.S. thesis}

}

@book{b8,
	
	
		,
	title={{Design and Characteristics of a Split Hopkinson Pressure Bar apparatus}}
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	author={{
			JHaines
		} and {
			CKnight
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			RGlaser
		}}
		
		
		
			,
	year={2007}
		
		
			Dept. Mech. Eng., Univ. of Maine
		
	

}

@incollection{b9,
	
	
		,
	title={{Prediction of Maximum Strain and Strain Rate in SHPB Specimens Based on Energy Analysis}}
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	author={{
			TYokoyama
		}}
	
	
		,
	journal={{Okayama Univ. of Science}}
		
	
	,
	note={Unpublished results}

}

@book{b10,
	
	
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	title={{Study of wave shaping techniques of Split Hopkinson Pressure Bar using Finite Element Analysis}}
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	author={{
			NTasneem
		}}
		
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	year={2002}
		
		
			Dept. Mech. Eng., Osmania Univ., Osmania
		
	
	,
	note={M.S. thesis}

}

@book{b11,
	
	
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	title={{Dynamic testing of soft and ultrasoft materials}}
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	author={{
			SHuang
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	year={2009}
		
		
			Dept. Civ. Eng., Univ. of Toronto
		
	
	,
	note={M.S. thesis}

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@incollection{b12,
	
	
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	title={{Dynamic Compression Testing of Soft Materials}}
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			WChen
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			MJ
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	journal={{ASME Journal of Appl. Mech}}
		
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	year={2002}
		
	

}

@book{b13,
	
	
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	title={{Design and operating characteristics of a Split Hopkinson Pressure Bar Apparatus. Army materials and mechanics research center, Mechanics of materia1s division}}
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	author={{
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			SCChou
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		}}
		
		
		AMMRC TR/1-49
		
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	year={1971}
			,
	publisher={W. Massachusetts}
		
	

}

@book{b14,
	
	
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	title={{Response of CFRP Laminates under High Strain Rate Compression until Failure}}
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	author={{
			RMGuedes
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			MAVaz
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			FJFerreira
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			JLMorais
		}}
		
		
		
		
			,
	address={Portugal}
		
	
	,
	note={Unpublished results}

}

@incollection{b15,
	
	
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	title={{Split Hopkinson Pressure Bar Techniques for Characterizing Soft Materials}}
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	author={{
			BSong
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			WChen
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		,
	journal={{LAJSS}}
		
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	year={2005}
		
	

}

@book{b16,
	
	
		,
	title={{An SHPB setup with reduced time-shift and pressure bar length. IJIE}}
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	author={{
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			QMLi
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	year={2003}
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@book{b17,
	
	
		,
	title={{Determination of the wave propagation coefficient of viscoelastic SHPB: Significance for characterization of cellular materials}}
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	author={{
			HS UButt
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			PXue
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			,
	year={2013}
		
	
	,
	note={IJIE}

}

@incollection{b18,
	
	
		,
	title={{Stress in pressurized cylinders}}
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	author={{
			RGBudynas
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		,
	booktitle={{Shigley's Mechanical Engineering Design}}
				New York, ch. 3, sec
		
			,
	publisher={McGraw-Hill}
			,
	year={2011}
			
		
	
	,
	note={9th ed}

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@book{b19,
	
	
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	title={{Stress in pressure vessels}}
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	author={{
			Manual
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	,
	note={Unpublished results}

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@book{b20,
	
	
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	title={{Airy Points (2013) The Engineer's Notebook}}
		
	

}

@book{b21,
	
	
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	author={{
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		}}
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	title={{Hydraulic fluids and lubricants technical information. 520L0463. REV HC}}
				
			,
	year={2010}
		
	

}

@book{b22,
	
	
		,
	title={{What the Nyquist criterion means to your sampled data system design}}
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	author={{
			WKester
		}}
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			,
	year={2009}
		
	
	,
	note={Analog devices}

}