An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel

J. Cadek,; V. Sustek,

doi:10.1515/HTMP.1997.16.2.97

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An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel

J. Cadek, and V. Sustek,

Published/Copyright: May 6, 2011

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From the journal High Temperature Materials and Processes Volume 16 Issue 2

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Vancouver

Cadek,, J. and Sustek,, V.. "An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel" High Temperature Materials and Processes, vol. 16, no. 2, 1997, pp. 97-108. https://doi.org/10.1515/HTMP.1997.16.2.97

Cadek,, J. & Sustek,, V. (1997). An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel. High Temperature Materials and Processes, 16(2), 97-108. https://doi.org/10.1515/HTMP.1997.16.2.97

Cadek,, J. and Sustek,, V. (1997) An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel. High Temperature Materials and Processes, Vol. 16 (Issue 2), pp. 97-108. https://doi.org/10.1515/HTMP.1997.16.2.97

Cadek,, J. and Sustek,, V.. "An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel" High Temperature Materials and Processes 16, no. 2 (1997): 97-108. https://doi.org/10.1515/HTMP.1997.16.2.97

Cadek, J, Sustek, V. An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel. High Temperature Materials and Processes. 1997;16(2): 97-108. https://doi.org/10.1515/HTMP.1997.16.2.97

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Published Online: 2011-05-06

Published in Print: 1997-04

Articles in the same Issue

TABLE OF CONTENTS
Electrochemical Evaluation of Aging of Al-Zn Mg Alloys
Dwell Sensitivity Fatigue Behaviour of High Temperature Materials
An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel
Effective Pair Potentials of a Binary Fluid Mixture and their Application to Molten Salts
Studies and Preparation of Hafnium Metal
Fracture Micromechanisms of Strengthened Al-Al4-C3 Systems
Internal Distribution of Lattice Defects and Splitting in Lamp Grade Tungsten Wires Deformed by Torsion
Improvement of Low Temperature Fracture Toughness of AIST 403 Stainless Steel by Microalloying and Heat Treatment

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Articles in the same Issue

TABLE OF CONTENTS
Electrochemical Evaluation of Aging of Al-Zn Mg Alloys
Dwell Sensitivity Fatigue Behaviour of High Temperature Materials
An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel
Effective Pair Potentials of a Binary Fluid Mixture and their Application to Molten Salts
Studies and Preparation of Hafnium Metal
Fracture Micromechanisms of Strengthened Al-Al4-C3 Systems
Internal Distribution of Lattice Defects and Splitting in Lamp Grade Tungsten Wires Deformed by Torsion
Improvement of Low Temperature Fracture Toughness of AIST 403 Stainless Steel by Microalloying and Heat Treatment