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Changes in magnetic remanence during simulated deep sedimentary burial
Graham J. Borradaile, Mike Jackson
Earth and Environmental Sciences-Twin Cities
Research output
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Contribution to journal
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Article
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peer-review
23
Scopus citations
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Keyphrases
Iron Oxide
100%
Magnetic Remanence
100%
Sedimentary Burial
100%
Compaction
40%
Prestress
30%
Stress-free
30%
Coercivity
20%
Differential Stress
20%
Dislocation
10%
Magnetic Properties
10%
Grain Size
10%
Domain Walls
10%
Minimal Change
10%
Defect Density
10%
Orthogonal Components
10%
Remanence
10%
Geothermal Gradient
10%
Irreversible Changes
10%
Applied Load
10%
Low Coercivity
10%
Isothermal Remanent Magnetization
10%
Confining Pressure
10%
High Coercivity
10%
Pore Fluid
10%
Mean Grain Size
10%
Higher Differential
10%
Grain Scale
10%
Portland Cement
10%
Experimental Stress
10%
Prestressed State
10%
Rock Analogue
10%
Granular Rocks
10%
Hysteresis Parameters
10%
Hydrostatic Compaction
10%
Soft Components
10%
Compaction Stress
10%
Grain Contacts
10%
Earth and Planetary Sciences
Coercivity
100%
Remanence
100%
Grain Size
50%
Remanent Magnetization
25%
Magnetic Property
25%
Calcite
25%
Geothermal Gradient
25%
Domain Wall
25%
Confining Pressure
25%
Material Science
Grain Size
100%
Magnetic Property
50%
Portland Cement
50%
Defect Density
50%
Domain Wall
50%
Chemical Engineering
Calcite
100%