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3D Numerical Prediction of Thermal Weakening of Granite under Tension
Timo Saksala
Civil Engineering
Research output
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Contribution to journal
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Article
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Scientific
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peer-review
6
Citations (Scopus)
4
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Dive into the research topics of '3D Numerical Prediction of Thermal Weakening of Granite under Tension'. Together they form a unique fingerprint.
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Keyphrases
Silica
100%
Numerical Prediction
100%
Embedded Discontinuity
100%
Thermal Weakening
100%
Tensile Strength
50%
Downsampling
50%
Numerical Test
50%
Good Accuracy
50%
Initial-boundary Value Problem
50%
Finite Element
50%
Rock Fracture
50%
Heterogeneous Materials
50%
Feldspar
50%
Linear Elastic
50%
Granitic Rocks
50%
Rankine Criterion
50%
Uniaxial Tension Test
50%
Mass Scaling
50%
Critical Time Step
50%
Thermomechanical
50%
Weakening Effect
50%
Anomalous Temperature Dependence
50%
Curie Point Depth
50%
Staggered Method
50%
Biotite
50%
Temperature Prediction
50%
Rock Tensile Strength
50%
Thermally Induced Cracking
50%
Tetrahedral Element
50%
Engineering
Numerical Prediction
100%
Silicon Dioxide
100%
Boundary Value
50%
Temperature Dependence
50%
Good Accuracy
50%
Ultimate Tensile Strength
50%
Rock Fracture
50%
Numerical Approach
50%
Rankine
50%
Target Temperature
50%
Induced Cracking
50%
Rock Tensile Strength
50%
4-Node Tetrahedral Element
50%
Finite Element Analysis
50%