Title :
The Whole Process Analyses of the Concrete Cover Corrosion Cracking Based on Virtual Crack Model
Author :
Wang Xianli ; Xu Jing ; Qi Chunling
Author_Institution :
Inst. of Traffic & Constr. Eng., Beihua Univ., Jilin, China
Abstract :
Based on virtual crack model and the following hypothesis: (1)supposing that there are two symmetrical radial initial cracks at concrete and steel interface position, (2)considering that the corrosion crack starts to extend when the difference of crack tip stress intensity factors caused by rust expansion force and cohesive force reaches concrete fracture toughness, the concrete cover corrosion cracking process was simulated with the finite element method, the full curve of concrete cover rust expansion force and crack propagation process was calculated at the same time. The conclusions drawn can provide reference for the durability design of RC structures.
Keywords :
corrosion protection; design engineering; durability; finite element analysis; fracture toughness; reinforced concrete; steel; stress analysis; structural engineering computing; virtual reality; RC structures; cohesive force; concrete cover corrosion cracking; concrete cover rust expansion force; concrete fracture toughness; crack propagation process; crack tip stress intensity factors; durability design; finite element method; full curve; steel interface position; symmetrical radial initial cracks; virtual crack model; whole process analyses; Automation; Manufacturing; Corrosion cracking; Fracture toughness; RC;
Conference_Titel :
Digital Manufacturing and Automation (ICDMA), 2013 Fourth International Conference on
Conference_Location :
Qingdao
DOI :
10.1109/ICDMA.2013.382
