Journal ArticleDOI
A Theory of the Dynamic Plastic Deformation of a Thin Diaphragm
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In this paper, a theory was developed in an attempt to describe the observed motion and plastic deformation of clamped metal diaphragms used in certain underwater explosion experiments and in certain mechanical gauges.Abstract:
The theory presented in this article was developed in an attempt to describe the observed motion and plastic deformation of clamped metal diaphragms used in certain underwater explosion experiments and in certain mechanical gauges. The theoretical attack on this problem enables one to set up certain equations of motion, which may be solved in finite form under certain conditions. The solutions enable one to specify, for instance, the final deformed diaphragm profile, the distribution of thickness after deformation, the swing‐time, which is the total time for deformation to take place, and many other quantities.The simplest case, termed the ``elementary approximation,'' turns out, except for relatively minor details, to describe adequately for many purposes the motion and final shape of the diaphragm; it is found that the deformed diaphragm shape is conical, the thickness distribution shows a marked dimpling at the center of the diaphragm, and the swing‐time ts is, to this order of approximation tS=a/c, wh...read more
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Journal ArticleDOI
Deformation of thin plates subjected to impulsive loading—A review
G.N. Nurick,J.B. Martin +1 more
TL;DR: In this article, the theoretical predictions and experimental work on the deformation of thin plates subjected to impulsive loading are reviewed. But the experimental results are not discussed. And the experimental correlations between the deflection-thickness ratio and a function of impulse, plate geometry, plate dimensions and material properties are discussed.
Journal ArticleDOI
Hyperplasticity: Increased forming limits at high workpiece velocity
V.S. Balanethiram,Glenn S. Daehn +1 more
TL;DR: In a previous report, it was demonstrated that the forming limits of BCC interstitial free iron could be significantly increased by forming at high strain rates which were induced using a technique known as electrohydraulic forming as discussed by the authors.
Journal ArticleDOI
Formability of dual phase steels in electrohydraulic forming
TL;DR: In this paper, the authors report the results of formability testing of dual phase steels in EHF conditions and provide an explanation of the observed formability improvement based on analysis of the experimental results and through the use of a modeling technique developed as part of this work for simulating the EHF process.
Journal ArticleDOI
Hyperplasticity: Enhanced formability at high rates
TL;DR: In this paper, it was shown that very large increases in the formability of three materials are observed in the electrohydraulic forming of a conical section and moderate increases are observed by the electromagnetic expansion of aluminum rings.
Journal ArticleDOI
On the dynamics of necking and fragmentation—II. Effect of material properties, geometrical constraints and absolute size
H. Zhang,Krishnaswa Ravi-Chandar +1 more
TL;DR: In this article, the authors investigate the mechanics of deformation localization and fragmentation in ductile materials at strain rates between 4000 and 15,000 s−1, using the expanding ring experiment as the primary tool for examining the material behavior in this range of strain rates.
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