Progressive Collapse Analysis of Concrete-filled Steel Tubular Structures 1st Edition

Grab the definitive resource on making modern structures safer: Progressive Collapse Analysis of Concrete-filled Steel Tubular Structures, 1st Edition by Man Xu, Shan Gao, and Jing-xuan Wang is an authoritative guide that addresses one of the most critical challenges in contemporary structural engineering—how CFST systems behave under extreme local damage and how to design for robustness.

This book draws you in with clear explanations of collapse mechanisms and advances in analytical approaches, blending theoretical foundations with practical engineering insight. Readers will find rigorous discussion of load redistribution, failure modes, and the influence of material interaction in concrete-filled steel tubular (CFST) members—essential knowledge for engineers working on high-rise buildings, bridges, and infrastructure projects across Asia, Europe, North America, and beyond.

What sets this volume apart is its emphasis on applicable methods: finite element modeling strategies, simplified assessment procedures, and design recommendations that link research findings to code development and on-site practice. Case studies and comparative analyses illuminate real-world collapse scenarios and mitigation strategies, helping you translate complex analysis into safer, more resilient designs.

Designed for structural engineers, researchers, advanced students, and design professionals, this book enhances technical competence in progressive collapse assessment and CFST design. Whether you’re updating practice for seismic regions, evaluating impact resilience, or contributing to national design standards, you’ll find practical tools and clear guidance.

Secure your copy of this essential reference and strengthen your projects against progressive collapse—add Progressive Collapse Analysis of Concrete-filled Steel Tubular Structures to your professional library today.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.