Wai-Fah Chen, Norimitsu Kishi, Masato Komuro ...
1256 pages - Publisher: J. Ross Publishing; 1st edition (January, 2011) ...
Language: English - ISBN-10: 1932159991 - ISBN-13: 978-1932159998 ...
Research on the topic of steel frames with semi-rigid connections
has been conducted over the past 10 years. With the publication of the
2005 AISC specifications as well as Eurocode 3, practical implementation
of the use of PR connections in structural systems is now a real
possibility. The Semi-rigid Connections Handbook presents a
simple and comprehensive introduction that will help design
practitioners implement these new developments into engineering
practice. Beginning with a discussion of the new specifications and
classifications of these connections, the authors go on to show, on the
basis of the collected connections database, practical mathematical
models for computer implementation and provide case studies on these
frames including composite construction. With the help of the
user-friendly list of collected data in tabular form with illustrative
figures, information on semi-rigid connections is now available in a
single publication and may ultimately result in its wide-spread usage
among practitioners.
Key Features: -Introduces the 2005 AISC specifications and the new Eurocode 3 on semi-rigid construction -Includes more than 900 pages of semi-rigid connection test data in tabular form with figures -Provides connection models for analysis and design with case studies -Includes the recent development of steel-concrete composite connections with case studies -WAV offers updated connection data, the Steel Connection Data Bank
(SCDB) program, references, and a link to the semi-rigid website at the
Muroran Institute of Technology (MIT), Japan.
Semi-Rigid Connections Handbook Table of Contents: Preface -W. F. Chen,
University of Hawaii, USA About the Editors Section I. Specifications
and Classifications - Y. Goto, Nagoya Institute of Techology, Japan 1.
Classification and AISC Specification 1.1. Classification of connections
1.1.1. General 1.1.2. EC3 classification system (CEN 2005) 1.1.3. AISC
classification system (AISC 2005) 1.1.4. Bjorhovde et al. classification
system (Bjorhovde et al. 1990) 1.1.5. Nethercot et al. classification
system (Nethercot et al. 1998) 1.1.6. Goto et al. classification system
(Goto et al.1998) 1.1.7. Comparison of existing classification systems
1.2. AISC Specification 1.2.1. Introduction 1.2.2. Connection
classification 1.2.3. Structural analysis and design for frames with PR
connections References Section II. Effects of Semi-Rigid Connections on
Structural Members and Frames - Eric M. Lui and Zhiling Zhang, Syracuse
University, USA 2. Effects of Semi-Rigid Connections on Structural
Members and Frames 2.1. Introduction 2.1.1. Connection Behavior 2.1.1.1.
Connection Stiffness 2.1.1.2. Connection Strength 2.1.1.3. Connection
Rotational Ductility 2.2. Effects of Semi-Rigid Connections on Columns
2.2.1. Column Effective Length Factor 2.2.2. K Factor for Columns in
Semi-Rigid Frames 2.2.2.1. Sway Prevented Frames 2.2.2.2. Sway Permitted
Frames 2.2.2.3. Procedure for Evaluating K using the Modified Moment of
Inertia Approach 2.2.2.4. Other Approaches for K Factor Computation
2.2.2.5. Column Strength Design Equations 2.3. Effects of Semi-Rigid
Connections on Beams 2.3.1 Lateral Torsional Buckling Load for Compact
Beams 2.3.1.1 Beam Strength Design Equations 2.3.2 Beams with Semi-Rigid
Connections 2.3.2.1 Analysis of Semi-Rigid Beams 2.3.2.2 Design of
Semi-Rigid Beams 2.4. Effects of Semi-Rigid Connections on Frames 2.4.1.
Analysis of Semi-Rigid Frames 2.4.1.1.