Performance-Based Design is currently accepted commonly as the most advanced design and evaluation approach. However, successful application of this procedure depends largely on the ability to accurately estimate the parameters of structural response. Determination of these parameters requires application of analysis procedures where the main non-linear behavior features (constitutive and geometrical) of structures are included. This chapter presents and discusses these features of non-linear behavior and how they are incorporated in the process of static or dynamic structural analyses
Tools to Safeguard New Buildings and Assess Existing Ones Nonlinear analysis methods such as static ...
The earthquake resistant design codes in force in the different countries are applied to the field o...
Inelastic behavior is inevitable in most structures subjected to strong earthquake forces. Any ratio...
Performance-Based Design is currently accepted commonly as the most advanced design and evaluation a...
Over the last decades, increasing computational power is allowing engineers to do more advanced eart...
In the study presented in this paper, static and dynamic nonlinear analyses were undertaken on repre...
Reinforced concrete structures usually are designed to meet safety standards and operation. In order...
The crucial issue of assessing the seismic vulnerability of RC structures has recently gained the at...
SUMMARY Earthquake engineering design of buildings increasingly is using nonlinear dynamic analysis ...
Diploma thesis compares the methods for the calculation of the response of structures with seismic l...
Students, researchers, and practicing engineers regularly use mathematical models to evaluate the se...
The introduction of a performance-based design philosophy in FEMA-273 (1997) for seismic rehabilitat...
The performance of a structural system can be evaluated resorting to non-linear static analysis, al...
Throughout the governing design codes, several different methods are presented for the evaluation of...
A method of evaluating the damage pattern and deflections of planar structures under earthquake exci...
Tools to Safeguard New Buildings and Assess Existing Ones Nonlinear analysis methods such as static ...
The earthquake resistant design codes in force in the different countries are applied to the field o...
Inelastic behavior is inevitable in most structures subjected to strong earthquake forces. Any ratio...
Performance-Based Design is currently accepted commonly as the most advanced design and evaluation a...
Over the last decades, increasing computational power is allowing engineers to do more advanced eart...
In the study presented in this paper, static and dynamic nonlinear analyses were undertaken on repre...
Reinforced concrete structures usually are designed to meet safety standards and operation. In order...
The crucial issue of assessing the seismic vulnerability of RC structures has recently gained the at...
SUMMARY Earthquake engineering design of buildings increasingly is using nonlinear dynamic analysis ...
Diploma thesis compares the methods for the calculation of the response of structures with seismic l...
Students, researchers, and practicing engineers regularly use mathematical models to evaluate the se...
The introduction of a performance-based design philosophy in FEMA-273 (1997) for seismic rehabilitat...
The performance of a structural system can be evaluated resorting to non-linear static analysis, al...
Throughout the governing design codes, several different methods are presented for the evaluation of...
A method of evaluating the damage pattern and deflections of planar structures under earthquake exci...
Tools to Safeguard New Buildings and Assess Existing Ones Nonlinear analysis methods such as static ...
The earthquake resistant design codes in force in the different countries are applied to the field o...
Inelastic behavior is inevitable in most structures subjected to strong earthquake forces. Any ratio...