Energy Principle of Corrosion Environment Accelerating Crack Propagation During Anodic Dissolution Corrosion Fatigue

A general method to predict the crack propagation of anodic dissolution corrosion fatigue is developed in this paper. Crack propagation of corrosion fatigue is presented as the result of the synergistic interactions of mechanical and environmental factors, and corrosive environment accelerates crack...

Full description

Saved in:
Bibliographic Details
Published inShanghai jiao tong da xue xue bao Vol. 18; no. 2; pp. 190 - 196
Main Author 黄小光 许金泉 冯淼林
Format Journal Article
LanguageEnglish
Published Heidelberg Shanghai Jiaotong University Press 01.04.2013
Subjects
Anodic dissolution
Architecture
Computer Science
Corrosion environments
Corrosion fatigue
Crack propagation
Cracks
Electrical Engineering
Energy conservation
Engineering
Fatigue failure
Fracture mechanics
Life Sciences
Materials Science
corrosion fatigue
anodic dissolution
TG 174.34
crack propagation
conservation of energy
Online AccessGet full text
ISSN1007-1172
1995-8188
DOI10.1007/s12204-013-1382-5

Cover

More Information
Summary:A general method to predict the crack propagation of anodic dissolution corrosion fatigue is developed in this paper. Crack propagation of corrosion fatigue is presented as the result of the synergistic interactions of mechanical and environmental factors, and corrosive environment accelerates crack propagation mainly in term of anodic dissolution. By studying the variation of mechanical energy and electrochemical energy of anodic dissolution during the crack propagation process, an explicit expression of crack propagation rate is derived by the conservation of energy. The comparisons with experimental data demonstrate the validity of the proposed model. Moreover, the applicable upper-limit crack length for steady crack propagation is determined and the crack propagation life is evaluated
Bibliography:A general method to predict the crack propagation of anodic dissolution corrosion fatigue is developed in this paper. Crack propagation of corrosion fatigue is presented as the result of the synergistic interactions of mechanical and environmental factors, and corrosive environment accelerates crack propagation mainly in term of anodic dissolution. By studying the variation of mechanical energy and electrochemical energy of anodic dissolution during the crack propagation process, an explicit expression of crack propagation rate is derived by the conservation of energy. The comparisons with experimental data demonstrate the validity of the proposed model. Moreover, the applicable upper-limit crack length for steady crack propagation is determined and the crack propagation life is evaluated
31-1943/U
crack propagation, corrosion fatigue, conservation of energy, anodic dissolution
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ObjectType-Article-1
ObjectType-Feature-2
ISSN:1007-1172
1995-8188
DOI:10.1007/s12204-013-1382-5