Home
Overview
Technology
UHP by WC
UHT by BDD
Zero-Temp gradient
Precise phase relations
Rapid quench
Events
Intensive lecture Mineral Physics I
0. Introduction
1. Thermodynamic properties
2. Elastcity
3. Lattice vibration
4. Equation of state
5. Heat transfer
Workshop 2021
Workshop 2020
Meeting 2019
People
Results
Chemistry
Akimotoite-bridgmanite transition
P dependence of Fe3+ in Brg Mg-rich
Brg is dry
MgAlO2.5 vs bulk Mg/Si
T dependence of Fe3+ in Brg Mg-rich
T dependence of MgAlO2.5
Al in Brg at 3000 K
Clustering of O vacancies
LiNbO3-type (Mg,Fe3+)(Al3+,Si)O3
Grain growth
Grain size exponent
HP-HT technology
P61B, PETRA-III, DESY
Review of HP generation
CVD-BDD heater
Stripe BDD heater
Finite strain and BM-EOS
Related studies
Mantle temperature
Paracrystalline diamond
Psp pressure
Psp thickness
Pre-ERC
Generation of 60 GPa
Generation of 40 GPa
Precise Guide Block
P-depend. MgAlO2.5
LiNbO3-type Mg3Al2Si3O12
Al2O3 as a function of P & T
Publications
New page
Home
Overview
Technology
UHP by WC
UHT by BDD
Zero-Temp gradient
Precise phase relations
Rapid quench
Events
Intensive lecture Mineral Physics I
0. Introduction
1. Thermodynamic properties
2. Elastcity
3. Lattice vibration
4. Equation of state
5. Heat transfer
Workshop 2021
Workshop 2020
Meeting 2019
People
Results
Chemistry
Akimotoite-bridgmanite transition
P dependence of Fe3+ in Brg Mg-rich
Brg is dry
MgAlO2.5 vs bulk Mg/Si
T dependence of Fe3+ in Brg Mg-rich
T dependence of MgAlO2.5
Al in Brg at 3000 K
Clustering of O vacancies
LiNbO3-type (Mg,Fe3+)(Al3+,Si)O3
Grain growth
Grain size exponent
HP-HT technology
P61B, PETRA-III, DESY
Review of HP generation
CVD-BDD heater
Stripe BDD heater
Finite strain and BM-EOS
Related studies
Mantle temperature
Paracrystalline diamond
Psp pressure
Psp thickness
Pre-ERC
Generation of 60 GPa
Generation of 40 GPa
Precise Guide Block
P-depend. MgAlO2.5
LiNbO3-type Mg3Al2Si3O12
Al2O3 as a function of P & T
Publications
New page
Events
Intensive lecture Mineral Physics I
2. Elastcity
Chapter 2: Elasticity
1. Mathematical and physical backgrounds
Mineral Physics I 2.1 Presentation.pdf
Adobe Acrobat Document
766.6 KB
Download
2. Strain
Mineral Physics I 2.2 Presentation.pdf
Adobe Acrobat Document
882.2 KB
Download
3. Stress
Mineral Physics I 2.3 Presentation.pdf
Adobe Acrobat Document
323.3 KB
Download
Student's work
2.3a.pdf
Adobe Acrobat Document
321.7 KB
Download
Student's work
2.3b.pdf
Adobe Acrobat Document
360.1 KB
Download
4. Linear elasticity
Mineral Physics I 2021-2022 2.4 Presenta
Adobe Acrobat Document
555.3 KB
Download
Student's work
2.4a.pdf
Adobe Acrobat Document
515.1 KB
Download
5. Elastic constants of symmetric and isotropic solids
Mineral Physics I 2.5 Presentation.pdf
Adobe Acrobat Document
2.6 MB
Download
Student's work
2.5a.pdf
Adobe Acrobat Document
452.4 KB
Download
6. Frequently used elastic constants
Mineral Physics I 2.6 Presentation.pdf
Adobe Acrobat Document
442.6 KB
Download
Student's work
2.6a.pdf
Adobe Acrobat Document
492.7 KB
Download
2.6b.pdf
Adobe Acrobat Document
492.6 KB
Download
7. Averaged elasticity of composite materials
Mineral Physics I 2.7 Presentation.pdf
Adobe Acrobat Document
459.3 KB
Download
Student's work
2.7a.pdf
Adobe Acrobat Document
485.4 KB
Download
Student's work
2.7b.pdf
Adobe Acrobat Document
778.9 KB
Download
8. Elastic wave velocity of the isotropic body
Mineral Physics I 2.8 Presentation.pdf
Adobe Acrobat Document
406.8 KB
Download
Student's work
2.8a.pdf
Adobe Acrobat Document
294.4 KB
Download
Student's work
2.8b.pdf
Adobe Acrobat Document
216.1 KB
Download
9. Acoustic impedance
Mineral Physics I 2.9 Presentation.pdf
Adobe Acrobat Document
559.4 KB
Download
Student's work
2.9a.pdf
Adobe Acrobat Document
348.6 KB
Download
Student's work
2.9b.pdf
Adobe Acrobat Document
578.3 KB
Download
Back to Intensive lecture 2021-2022
Close
