Materials under High Pressure

The high-pressure-related problems of materials constitute a field at the confluence of several scientific disciplines. High pressure can be generated by die compression, high-velocity impact, or explosions. An understanding of materials under extreme high pressure, including flow, plastic deformati...

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出版: MDPI - Multidisciplinary Digital Publishing Institute 2024
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collection Directory of Open Access Books
description The high-pressure-related problems of materials constitute a field at the confluence of several scientific disciplines. High pressure can be generated by die compression, high-velocity impact, or explosions. An understanding of materials under extreme high pressure, including flow, plastic deformation, phase transformation, fracture, temperature rise, and chemical reactions, is needed. This Special Issue on “Materials under High Pressure” collected recent research findings on the high-pressure-related problems of various materials. A collection of fourteen peer-reviewed research articles was included in this Special Issue. The main topics covered include processing technology, characterization, testing, theoretic modeling, and simulation.
format Online
id doab-20.500.12854ir-137759
institution Directory of Open Access Books
language eng
publishDate 2024
publishDateRange 2024
publishDateSort 2024
publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
record_format ojs
spelling doab-20.500.12854ir-1377592024-05-14T14:22:50Z Materials under High Pressure Wang, Chuanting He, Yong Zheng, Yuanfeng Qiao, Xiaoguang Tang, Wenhui Zhang, Shuhai space harpoon impact friction embedding length launch initial velocity dynamic analysis modal analysis harmonic response analysis electronic component fault mechanism reactive materials Al-PTFE-W composites tension failure mechanical properties Johnson–Cook modeling reactive material impact initiated chemical reaction theoretical model PTFE/Al/oxide shock-induced energy release characteristic controlling effect shock wave THV-based reactive materials mechanical performances thermal analysis reaction threshold energy release behavior reactive materials (RMs) constitutive model quasi-sealed chamber test shock-induced reaction jet dynamic conditions virtual origin penetration mechanism shaped charge projectile velocity attenuation law underwater explosion trans-media shaped charge trapezoid cross-section formation X-ray three-stage detonation driving model double-layer prefabricated fragments fragment initial parameters explosion detonation explosive dispersal dry powder mass ratio particle jet contact blast coatings fragment deformation behavior dynamic response protection performance pure Ti hetero-structure deformation mechanism twinning high strain rate n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues The high-pressure-related problems of materials constitute a field at the confluence of several scientific disciplines. High pressure can be generated by die compression, high-velocity impact, or explosions. An understanding of materials under extreme high pressure, including flow, plastic deformation, phase transformation, fracture, temperature rise, and chemical reactions, is needed. This Special Issue on “Materials under High Pressure” collected recent research findings on the high-pressure-related problems of various materials. A collection of fourteen peer-reviewed research articles was included in this Special Issue. The main topics covered include processing technology, characterization, testing, theoretic modeling, and simulation. 2024-05-14T14:22:43Z 2024-05-14T14:22:43Z 2024 book ONIX_20240514_9783725803941_355 9783725803941 9783725803934 https://directory.doabooks.org/handle/20.500.12854/137759 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/8992 https://mdpi.com/books/pdfview/book/8992 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-0393-4 10.3390/books978-3-7258-0393-4 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725803941 9783725803934 236 open access
spellingShingle space harpoon
impact
friction
embedding length
launch initial velocity
dynamic analysis
modal analysis
harmonic response analysis
electronic component
fault mechanism
reactive materials
Al-PTFE-W composites
tension failure
mechanical properties
Johnson–Cook modeling
reactive material
impact initiated chemical reaction
theoretical model
PTFE/Al/oxide
shock-induced
energy release characteristic
controlling effect
shock wave
THV-based reactive materials
mechanical performances
thermal analysis
reaction threshold
energy release behavior
reactive materials (RMs)
constitutive model
quasi-sealed chamber test
shock-induced reaction
jet
dynamic conditions
virtual origin
penetration mechanism
shaped charge projectile
velocity attenuation law
underwater explosion
trans-media
shaped charge
trapezoid cross-section
formation
X-ray
three-stage detonation driving model
double-layer prefabricated fragments
fragment initial parameters
explosion detonation
explosive dispersal
dry powder
mass ratio
particle jet
contact blast
coatings
fragment deformation behavior
dynamic response
protection performance
pure Ti
hetero-structure
deformation mechanism
twinning
high strain rate
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Materials under High Pressure
title Materials under High Pressure
title_full Materials under High Pressure
title_fullStr Materials under High Pressure
title_full_unstemmed Materials under High Pressure
title_short Materials under High Pressure
title_sort materials under high pressure
topic space harpoon
impact
friction
embedding length
launch initial velocity
dynamic analysis
modal analysis
harmonic response analysis
electronic component
fault mechanism
reactive materials
Al-PTFE-W composites
tension failure
mechanical properties
Johnson–Cook modeling
reactive material
impact initiated chemical reaction
theoretical model
PTFE/Al/oxide
shock-induced
energy release characteristic
controlling effect
shock wave
THV-based reactive materials
mechanical performances
thermal analysis
reaction threshold
energy release behavior
reactive materials (RMs)
constitutive model
quasi-sealed chamber test
shock-induced reaction
jet
dynamic conditions
virtual origin
penetration mechanism
shaped charge projectile
velocity attenuation law
underwater explosion
trans-media
shaped charge
trapezoid cross-section
formation
X-ray
three-stage detonation driving model
double-layer prefabricated fragments
fragment initial parameters
explosion detonation
explosive dispersal
dry powder
mass ratio
particle jet
contact blast
coatings
fragment deformation behavior
dynamic response
protection performance
pure Ti
hetero-structure
deformation mechanism
twinning
high strain rate
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet space harpoon
impact
friction
embedding length
launch initial velocity
dynamic analysis
modal analysis
harmonic response analysis
electronic component
fault mechanism
reactive materials
Al-PTFE-W composites
tension failure
mechanical properties
Johnson–Cook modeling
reactive material
impact initiated chemical reaction
theoretical model
PTFE/Al/oxide
shock-induced
energy release characteristic
controlling effect
shock wave
THV-based reactive materials
mechanical performances
thermal analysis
reaction threshold
energy release behavior
reactive materials (RMs)
constitutive model
quasi-sealed chamber test
shock-induced reaction
jet
dynamic conditions
virtual origin
penetration mechanism
shaped charge projectile
velocity attenuation law
underwater explosion
trans-media
shaped charge
trapezoid cross-section
formation
X-ray
three-stage detonation driving model
double-layer prefabricated fragments
fragment initial parameters
explosion detonation
explosive dispersal
dry powder
mass ratio
particle jet
contact blast
coatings
fragment deformation behavior
dynamic response
protection performance
pure Ti
hetero-structure
deformation mechanism
twinning
high strain rate
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20240514_9783725803941_355