The Analysis of Microstructure and the Properties of the Metallic-Matrix Composite on the Basis of the Copper and Aluminum Oxide
p.151
p.151
Application of Natural Barium-Stroncium Containing Material for Steel Treatment
p.156
p.156
Cutting Forces Calculation at Diamond Grinding of Brittle Materials
p.163
p.163
Numerical Simulation for Deformation of Polymer Samples Using the Split Hopkinson Pressure Bar Technique
p.169
p.169
Explosive Compaction of Solid Inert Three-Component Mixtures Taking into Account a Different Thickness of the Explosive Axial Layer
p.174
p.174
Acoustic and Elastic Properties of Cu3Au Alloyin in the Field of High Temperature
p.179
p.179
Fiber-Reinforced Composites in Rapid Prototyping Technologies
p.185
p.185
Controllable Decomposition in Ahm Crystals in Ultraviolet Radiation
p.189
p.189
Investigation of High-Strength and Heat-Proof Added Metal Characteristics with Thermal Microscopy Facilities
p.195
p.195
Explosive Compaction of Solid Inert Three-Component Mixtures Taking into Account a Different Thickness of the Explosive Axial Layer
Abstract:
We consider the axisymmetric problem of explosive compaction of a mixture from aluminum, sulfur and carbon placed into a cylindrical steel ampoule. The inert substance (graphite) is added to the mixture to avoid the reaction between aluminum and sulfur. We found the essential influence of the thickness of the explosive layer on the final result of explosive compaction. Insufficient thickness of explosives, as well as the excessive thickness may be a reason for an incompletely compacted final product or lead to the formation of cracks or damage.
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Periodical:
Applied Mechanics and Materials (Volume 770)
Pages:
174-178
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Online since:
June 2015
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