Hybrid Self-Centring Steel Frames
portes grátis
Hybrid Self-Centring Steel Frames
Hysteretic Behaviour and Structural Seismic Design
Yam, Michael C.H.; Ke, Ke; Zhou, Xuhong; Zhang, Huanyang
Elsevier - Health Sciences Division
04/2026
300
Mole
Inglês
9780443274671
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. Introduction
2. Connections for self-centring energy dissipation bays
3. Braces for self-centring energy dissipation bays
4. Inelastic structural seismic responses
5. Inelastic spectral seismic demands
6. Prediction models of inelastic seismic demands based on regression analysis
7. Prediction models of inelastic seismic demands based on machine-learning techniques
8. Performance-based design methodologies
9. Conclusions
2. Connections for self-centring energy dissipation bays
3. Braces for self-centring energy dissipation bays
4. Inelastic structural seismic responses
5. Inelastic spectral seismic demands
6. Prediction models of inelastic seismic demands based on regression analysis
7. Prediction models of inelastic seismic demands based on machine-learning techniques
8. Performance-based design methodologies
9. Conclusions
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Seismic resilient structures; Hybrid self-centring steel frames; Energy dissipation bay; Shape memory alloy; Energy factor; Performance-based seismic design; Hysteretic modelling; Bilinear flag-shaped model
1. Introduction
2. Connections for self-centring energy dissipation bays
3. Braces for self-centring energy dissipation bays
4. Inelastic structural seismic responses
5. Inelastic spectral seismic demands
6. Prediction models of inelastic seismic demands based on regression analysis
7. Prediction models of inelastic seismic demands based on machine-learning techniques
8. Performance-based design methodologies
9. Conclusions
2. Connections for self-centring energy dissipation bays
3. Braces for self-centring energy dissipation bays
4. Inelastic structural seismic responses
5. Inelastic spectral seismic demands
6. Prediction models of inelastic seismic demands based on regression analysis
7. Prediction models of inelastic seismic demands based on machine-learning techniques
8. Performance-based design methodologies
9. Conclusions
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
