Wai-Fah, Chen - Structural Engineering Handbook [CRC Press 1999] v2.pdf

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“Frontmatter”
Structural Engineering Handbook
Ed. Chen Wai-Fah
Boca Raton: CRC Press LLC,
1999
Structural Engineering Contents
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Basic Theory of Plates and Elastic Stability
Structural Analysis
J.Y. Richard Liew,
E. M. Lui
Eiki Yamaguchi
N.E. Shanmugam, and
C.H. Yu
Structural Steel Design
1
Structural Concrete Design
2
Earthquake Engineering
Composite Construction
Amy Grider and Julio A. Ramirez and Young Mook Yun
Charles Scawthorn
Edoardo Cosenza and Riccardo Zandonini
Wei-Wen Yu
Cold-Formed Steel Structures
Aluminum Structures
Timber Structures
Bridge Structures
Shell Structures
Maurice L. Sharp
Kenneth J. Fridley
Shouji Toma, Lian Duan, and Wai-Fah Chen
Clarence D. Miller
J. Y. Richard Liew and T. Balendra and W. F. Chen
Multistory Frame Structures
Space Frame Structures
Cooling Tower Structures
Transmission Structures
Tien T. Lan
Phillip L. Gould and Wilfried B. Krätzig
Shu-jin Fang, Subir Roy, and Jacob Kramer
15B
Tunnel Structures
Birger Schmidt, Christian Ingerslev, Brian Brenner, and J.-N. Wang
16
Performance-Based Seismic Design Criteria For Bridges
LianDuanandMarkReno
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1999 by CRC Press LLC
17
18
19
20
21
22
23
24
25
26
27
28
29
Effective Length Factors of Compression Members
Stub Girder Floor Systems
Plate and Box Girders
Reidar Bjorhovde
Lian Duan and W.F. Chen
Mohamed Elgaaly
Jackson Durkee
O.W. Blodgett and D.K. Miller
Steel Bridge Construction
Basic Principles of Shock Loading
Welded Connections
O.W. Blodgett and D. K. Miller
Roberto Leon
Composite Connections
Fatigue and Fracture
Underground Pipe
Robert J. Dexter and John W. Fisher
J. M. Doyle and S.J. Fang
D. V. Rosowsky
T.T. Soong and G.F. Dargush
Seung-Eock Kim and
Structural Reliability
3
Passive Energy Dissipation and Active Control
An Innnovative Design For Steel Frame Using Advanced Analysis
4
W. F. Chen
Welded Tubular Connections—CHS Trusses
Peter W. Marshall
30
Earthquake Damage to Structures
Mark Yashinsky
c
1999 by CRC Press LLC
Yamaguchi, E.
“Basic
Theory of Plates and Elastic Stability”
Structural Engineering Handbook
Ed.
Chen Wai-Fah
Boca Raton: CRC Press LLC,
1999
Basic Theory of Plates and Elastic
Stability
1.1
1.2
1.3
Introduction
Plates
Stability
Basic Assumptions
Governing Equations
Boundary Con-
ditions
Circular Plate
Examples of Bending Problems
Basic Concepts
Structural Instability
Walled Members
Plates
Columns
Thin-
Eiki Yamaguchi
Department of Civil Engineering,
Kyushu Institute of Technology,
Kitakyusha, Japan
1.4 Defining Terms
References
Further Reading
1.1
Introduction
This chapter is concerned with basic assumptions and equations of plates and basic concepts of elastic
stability. Herein, we shall illustrate the concepts and the applications of these equations by means of
relatively simple examples; more complex applications will be taken up in the following chapters.
1.2
1.2.1
Plates
Basic Assumptions
We consider a continuum shown in Figure
1.1.
A feature of the body is that one dimension is much
smaller than the other two dimensions:
t << L
x
, L
y
(1.1)
where
t, L
x
, and
L
y
are representative dimensions in three directions (Figure
1.1).
If the continuum
has this geometrical characteristic of Equation
1.1
and is flat before loading, it is called a plate. Note
that a shell possesses a similar geometrical characteristic but is curved even before loading.
The characteristic of Equation
1.1
lends itself to the following assumptions regarding some stress
and strain components:
σ
z
ε
z
=
=
0
ε
xz
=
ε
yz
=
0
(1.2)
(1.3)
We can derive the following displacement field from Equation
1.3:
c
1999 by CRC Press LLC

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