Fundamentals of structural analysis / Kenneth M. Leet, Chia-Ming Uang, and Joel T. Lanning.
Material type: TextPublisher: New York : McGraw-Hill Education, 2021Edition: Sixth editionDescription: xvi, 779 pages : illustrations (some color) ; 24 cmContent type:- text
- unmediated
- volume
- 9781260570441
- 624.171 L518f 23
- TA645
Item type | Current library | Shelving location | Call number | Copy number | Status | Date due | Barcode | |
---|---|---|---|---|---|---|---|---|
Books | Main Library-Nabua | Graduate School Library | GRD 624.171 L518f 2021 (Browse shelf(Opens below)) | 1-1 | Available | 026259 |
Browsing Main Library-Nabua shelves, Shelving location: Graduate School Library Close shelf browser (Hides shelf browser)
GRD 624.15 D260p 2019 Principles of foundation engineering | GRD 624.170151 F95a 2015 Advanced modelling techniques in structural design | GRD 624.170285536 C361a 2019 Advanced structural analysis with MATLAB / | GRD 624.171 L518f 2021 Fundamentals of structural analysis / | GRD 624.18341 C425d 2020 Durability of reinforced concrete structures / | GRD 628.16 Su827 2017 Sustainable surface water management a handbook for SuDs/ | GRD 630.68 K180f 2020 Farm management |
Includes index.
Introduction -- Design loads and structural framing -- Statics of structure-reaction -- Trusses--Beams and Frames -- Cables and arches -- Defections of beam and frames -- Work-energy methods for computing defections -- Analysis of indeterminate structures by the flexibility method -- Analysis of indeterminate beams and frames by the slope-deflection -- Analysis of indeterminate beams and frames by the moment distribution method -- Influence lines for moving loads -- Approximate analysis of indeterminate structures -- Introduction to the general stiffness methods -- Matrix Analysis of trusses by the direct stiffness method -- Matrix Analysis of beams and frames by the direct stiffness method.
"This text introduces engineering and architectural students to the basic techniques required for analyzing the majority of structures and the elements of which most structures are composed, including beams, frames, trusses, arches, and cables. Although the authors assume that readers have completed basic courses in statics and strength of materials, we briefly review the basic techniques from these courses the first time we mention them. To clarify the discussion, we use many carefully chosen examples to illustrate the various analytic techniques introduced, and whenever possible, we select examples confronting engineers in real-life professional practice"-- Provided by publisher.
There are no comments on this title.