Theoretical methods for predicting fracture criteria of surface finishings bonded on concrete and masonry structures
Memoirs of the Faculty of Engineering, Yamaguchi University Volume 54 Issue 1
Page 99-106
published_at 2003-10
Title
表面部材の接着一体性および崩壊の限界予測に関する理論的研究
Theoretical methods for predicting fracture criteria of surface finishings bonded on concrete and masonry structures
Creators
Baba Akio
Creators
Watanabe Tsugumichi
Creators
Mori Akiko
Creators
Morita Kazuhiro
Creators
Kawate Hiroshi
Creators
Sato Shunsuke
Source Identifiers
Creator Keywords
surface layer
exfoliation mechanism
safety design
shear lag theory
buckling theory
This paper deals with the exfoliation mechanisms of surface layers usually bonded to concrete and masonry components in order to establish the safety design methods of buildings, that is to say, preventing from any damage under daily external forces, standard disasters such as rare earthquakes and any exfoliation under extremely rare earthquakes. Three fundamental mechanisms are clarified to control a whole process through the initiation to the final fracture. As a result, the effects on normal stresses in surface layers and shear stresses on boundary surface of the layers are predicted quantitatively on the basis of geometry, mechanical properties and various kinds of differential movements.
Languages
jpn
Resource Type
departmental bulletin paper
Publishers
山口大学工学部
Date Issued
2003-10
File Version
Version of Record
Access Rights
open access
Relations
[isVersionOf]
[URI]http://memoirs.lib-e.yamaguchi-u.ac.jp/
Schools
工学部