Article
Open Access
An Analysis of a Set of Creep-Strain and Time-to-Creep Fracture Data for a SCR-1Mo-0.2V Steel
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J. Cadek,
and V. Sustek,
Published/Copyright:
May 6, 2011
Published Online: 2011-05-06
Published in Print: 1997-04
©2011 by Walter de Gruyter GmbH & Co.
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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BY-NC-ND 3.0
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