"A complete guide to designing structures to better withstand the effects of fires of various growthsStructural Fire Loads: Theory and Principles combines the disciplines of structural engineering and fire protection engineering by offering a screening tool that can be used by engineers to perform preliminary assessments of fire as a load and its impact on structures. The book covers slow, medium, fast, and ultra-fast fire growth and fires in combination with seismic loads.Neither the 2009 IBC nor ASCE-7 considers fire a structural design load in buildings when prescriptive resistive design methods are used. However, the ICC Performance Code for Building and Facilities requires that the structural integrity of a building be evaluated and maintained to limit fire impact. This practical guide bridges the gap between structural engineering and fire protection engineering when fire is considered a design load.Structural Fire Loads features: Practical examples for fire protection and structural engineering design presented in a simple, step-by-step computational format Details on slow, medium, fast, and ultra-fast fire growth A Solutions Manual for equations presented in chapters 6 and 7 NIST Best Practices and Surveys for Fire Loads A single source that outlines how fire impacts structures Authoritative coverage: Overview of Current Practice
Structural Fire Load and Computer Models
Differential Equations and Assumptions
Simplifications of Differential Equations
Fire Load and Severity of Fires
Structural Analysis and Design"-- Provided by publisher. "This practical guide provides a single source for evaluating how fire impacts structures and how to design structures to better withstand the effects of fires of various growths"-- Provided by publisher.
Includes bibliographical references and index.