Localized Plastic Flow Autowaves and the Hall-Petch Relation for Al
p.271
p.271
On the Correlation of Fracture Quantities in Small Punch Test
p.275
p.275
Influence of the Microstructure on the Fracture Behavior of Carbon Bonded Alumina
p.279
p.279
Mixed Mode Interlaminar Fracture of Carbon Nanotubes Enhanced Epoxy/Glass Fiber Composites
p.283
p.283
Features of Shock-Wave Processes and Fracture in Anisotropic Materials
p.287
p.287
Failure Mechanisms of an AISI 4135 Steel Submitted to the Disk Pressure Test under Helium and Hydrogen Gas
p.291
p.291
Measurement of Residual Stresses around the Notch of Tensile Specimens of the High-Cr Tempered Martensitic Steel F82H-Mod
p.295
p.295
Strength Hierarchy for Nano-Sized Crystals
p.301
p.301
Grain Refinement and Deformation Behaviour of Medium Carbon Steel Processed by ECAP
p.307
p.307
Features of Shock-Wave Processes and Fracture in Anisotropic Materials
Abstract:
For the description of the behavior of anisotropic materials within the framework of the phenomenological approach the model which is taking into account distinctions in strength on compression and a stretching is offered. The model as allows carrying out researches with any orientation of properties of a material concerning system of coordinates. Numerical modeling is carried out in three-dimensional statement. The range of velocities of interaction up to 3000 m/sec is considered.
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Info:
Periodical:
Key Engineering Materials (Volumes 592-593)
Pages:
287-290
Citation:
Online since:
November 2013
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