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Microinstruments for submicron material studies
M. T.A. Saif
, N. C. MacDonald
Mechanical Science and Engineering
Bioengineering
Beckman Institute for Advanced Science and Technology
Carl R. Woese Institute for Genomic Biology
Biomedical and Translational Sciences
Center for South Asian and Middle Eastern Studies
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Keyphrases
Submicron
100%
Microinstruments
100%
Material Studies
100%
Material Characterization
66%
Low Temperature
33%
High Temperature
33%
Multicrystalline Silicon
33%
Silicon Dioxide
33%
High Pressure
33%
Environmental Conditions
33%
Torsion
33%
Surface Analysis
33%
High Vacuum
33%
Electron Microscopic Analysis
33%
Maximum Shear Stress
33%
Aluminum-silicon Alloy
33%
Submicron Scale
33%
Square Cross-section
33%
Vibration Isolation
33%
High Humidity
33%
Low Thermal Mass
33%
Composite-aluminum
33%
Vacuum Compatibility
33%
Vacuum Electron
33%
Material Science
Silicon
100%
Silicon Dioxide
100%
Electron Microscopy
100%
Surface Analysis
100%
Aluminum Composite
100%
Single Crystal
100%
Engineering
Cross Section
100%
Study Materials
100%
Low-Temperature
50%
Silicon Single Crystal
50%
Maximum Shear Stress
50%
Vibration Isolation
50%
Square Cross
50%
High Pressure and High Temperature
50%
Silicon Dioxide
50%