2010
DOI: 10.1007/s11340-010-9390-y
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Identification of Interaction Pressure Between Structure and Explosive with Inverse Approach

Abstract: An inverse approach for the identification of the time-dependent localized interaction pressure between a structure and an explosive has been proposed and developed. In this approach, surface measurements of structural response (displacement and velocity) are integrated with numerical simulations to identify the spatial and time-dependent interaction pressure (i.e. the normal traction) on a structure surface. For verification and validation purposes, numerical simulations are used to (a) generate the time-depe… Show more

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Cited by 9 publications
(2 citation statements)
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“…Thus, it can be said that an imparted impulse will result in an initial velocity uptake which is directly proportional, and therefore measurement of one allows for the other to be determined. This proves the concept of using plate deformation under blast loads in an inverse approach-namely that from knowledge of plate deformation one may be able to determine the imparted load-and provides physical verification of the inverse approach developed by [66,67].…”
Section: Proof-of-concept Experimental Studiessupporting
confidence: 54%
“…Thus, it can be said that an imparted impulse will result in an initial velocity uptake which is directly proportional, and therefore measurement of one allows for the other to be determined. This proves the concept of using plate deformation under blast loads in an inverse approach-namely that from knowledge of plate deformation one may be able to determine the imparted load-and provides physical verification of the inverse approach developed by [66,67].…”
Section: Proof-of-concept Experimental Studiessupporting
confidence: 54%
“…Thus, it can be said that an imparted impulse will result in an initial velocity uptake which is directly proportional, and therefore measurement of one allows for the other to be determined. This proves the concept of using plate deformation under blast loads in an inverse approachnamely that from knowledge of plate deformation one may be able to determine the imparted load-and provides physical verification of the inverse approach developed by [67,68].…”
Section: (B) Proof-of-concept Experimental Studiesmentioning
confidence: 54%