Comparative Study of Concrete Walls with Window and Door Type Openings
Author(s)
Cooper, Carlia
Guan, Hong
Lee, Jun
Griffith University Author(s)
Year published
2006
Metadata
Show full item recordAbstract
A comparative study is undertaken to initially verify the effectiveness of the Layered Finite Element Method (LFEM) in predicting the failure characteristics of reinforced concrete walls with openings, so that the method can ultimately be used to undertake parametric analyses independent of any experimental investigation. The LFEM is used to model, based on previous experimental investigations, seven (7) concrete wall panels with and without openings (window and door). The ultimate loads, load-deflection responses up to failure, deflected shapes and crack patterns predicted by the LFEM are compared to the experimental ...
View more >A comparative study is undertaken to initially verify the effectiveness of the Layered Finite Element Method (LFEM) in predicting the failure characteristics of reinforced concrete walls with openings, so that the method can ultimately be used to undertake parametric analyses independent of any experimental investigation. The LFEM is used to model, based on previous experimental investigations, seven (7) concrete wall panels with and without openings (window and door). The ultimate loads, load-deflection responses up to failure, deflected shapes and crack patterns predicted by the LFEM are compared to the experimental observations. The results of this comparative study have assisted in verifying the LEFM as a reliable and effective technique for determining a relationship between ultimate load capacity and varying opening configurations so that more dependable design aids and formulae may be established.
View less >
View more >A comparative study is undertaken to initially verify the effectiveness of the Layered Finite Element Method (LFEM) in predicting the failure characteristics of reinforced concrete walls with openings, so that the method can ultimately be used to undertake parametric analyses independent of any experimental investigation. The LFEM is used to model, based on previous experimental investigations, seven (7) concrete wall panels with and without openings (window and door). The ultimate loads, load-deflection responses up to failure, deflected shapes and crack patterns predicted by the LFEM are compared to the experimental observations. The results of this comparative study have assisted in verifying the LEFM as a reliable and effective technique for determining a relationship between ultimate load capacity and varying opening configurations so that more dependable design aids and formulae may be established.
View less >
Conference Title
Recent Advances in Structural Engineering, Mechanics and Materials