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Introduction1Chapter
1Platform
Steel
Structures21.1Layout
of
platform
steel
structures21.2Paving
panel
design41.2.1Form
and
structural
detail
of
the
paving
panels41.2.2Calculation
of
paving
plates51.2.3Stiffeners
of
plate
calculation71.3Platform
beam
design101.3.1Key
points
of
platform
beam
design101.3.2Design
and
calculation
of
platform
beam101.4Platform
column
design201.4.1Cross-section
design201.4.2Calculation
of
the
axial
compression
column
with
solid
web211.4.3Lace-barred
latticed
columns
and
sewed
slab
latticed
columns231.5Joint
design251.5.1Primary
beam
to
secondary
beam
joint251.5.2Primary
beam
to
column
joints271.5.3Column
base
joints291.6Design
of
steel
stairs
of
the
platform
structures291.6.1Form
and
structural
detail
of
steel
stairs291.6.2Calculation
of
inclined
stair30Thinking
questions31Exercises31Chapter
2Design
of
Light
Portal
Frame
Structures332.1Structure
forms
and
structure
layout332.1.1Structure
forms332.1.2Geometric
size
of
building342.1.3Structure
layout352.2Loads
and
internal
force
combination362.2.1Loads362.2.2Combination
of
load
effects372.2.3Internal
force
calculation382.2.4Deformation
calculation382.3Design
of
columns
and
beams392.3.1Plate
width-to-thickness
ratio
and
web
post-buckling
strength392.3.2Section
strength
of
beams
and
columns
considering
post-buckling
strength422.3.3Overall
stability
of
the
variable
section
column
of
the
portal
frame422.4Design
of
purlin
and
wall
beam532.4.1Purlin
design532.4.2Wall
beam
design612.5Joints
design662.5.1Design
of
column-beam
joints
and
beam-to-beam
splicing
joints662.5.2Design
of
column
base
joints692.5.3Design
of
corbels702.5.4Connection
structure
of
swinging
column
and
inclined
beam712.6Design
of
braces(supports)712.7Design
of
profiled
steel
sheet722.7.1Material
and
section
forms
of
the
profiled
steel
sheets722.7.2Loads
and
load
combinations
of
the
profiled
steel
sheets742.7.3Specifications
for
construction
of
the
profiled
steel
sheets75Thinking
questions76Exercises76Chapter
3Heavy
Industrial
Building783.1Overview
of
heavy
industrial
building783.1.1Application
and
structure
features
of
heavy
industrial
building783.1.2Structure
constitution
of
heavy
industrial
building783.2Structural
layout
of
heavy
industrial
building793.2.1Column
grid
layout
of
heavy
industrial
building793.2.2Roof
arrangement
of
heavy
industrial
building803.2.3Transverse
frame
of
heavy
industrial
building803.2.4Frame
column
of
heavy
industrial
building823.2.5Roof
truss
of
heavy
industrial
building853.2.6Column
bracing
of
heavy
industrial
building883.2.7Roof
bracing
of
heavy
industrial
building903.3Principle
of
structure
calculation
of
heavy
industrial
building933.3.1Load
calculation933.3.2Internal
force
calculation
of
rigid-jointed
frame933.3.3Principle
of
internal
force
combination943.4Design
of
steel
roof
truss943.4.1Loads
of
roof
truss943.4.2Internal
force
calculation
and
combination
of
roof
truss953.4.3Effective
length
of
members
in
roof
truss953.4.4Section
form
of
members
in
roof
truss973.4.5Connection
structure
of
roof
truss993.4.6Section
selection
for
roof
truss
members993.4.7Joints
design1003.4.8Introduction
of
roof
truss
construction
drawing
characteristics1023.4.9Design
example
of
steel
roof
truss1023.5Crane
girder
design
of
heavy
industrial
building1043.5.1Load
and
working
performance
of
crane
girder1043.5.2Composition
of
crane
girder
system1053.5.3Connections
between
crane
girder
and
column1063.5.4Cross-section
checking
calculation
of
crane
beam106Thinking
questions110Exercises110Chapter
4Design
of
Large-span
Steel
Roof
Structures1124.1Structural
forms
of
large-span
steel
roof
systems1124.2Plate-like
space
trusses1124.2.1Characteristics
and
geometric
composition
analysis1134.2.2Types
of
plate-like
space
truss1144.2.3Structure
form
selection
of
plate-like
space
truss1204.2.4Bottom
supports
of
plate-like
space
truss1224.2.5Dimensions
of
plate-like
space
truss1244.2.6Roof
drainage
and
slope
of
space
truss1254.2.7Allowable
deflection
of
space
truss1264.3Latticed
shells1264.3.1Kinds
of
latticed
shells1274.3.2Forms
of
latticed
shells1284.3.3Basic
principles
for
the
design
of
latticed
shells1334.4Calculation
of
plate-like
space
trusses
and
latticed
shells1354.4.1Loads
and
action1354.4.2Internal
force
calculation
of
space
latticed
structures1374.4.3Internal
forces
calculation
under
seismic
action1404.5Design
of
members
in
plate-like
space
truss
and
latticed
shell1424.6Design
of
joints
in
plate-like
space
trusses
and
latticed
shells1444.6.1Welded
hollow
spherical
joints(WHSJ)1444.6.2Design
of
bolted
spherical
joints1474.6.3Support
joints152Thinking
questions154Exercise154Chapter
5Multi-story
and
High-rise
Steel
Buildings1555.1Composition
of
multi-story
and
high-rise
building
structure1555.1.1Types
of
multi-story
building
structures1555.1.2Outline
of
structure
layout1615.2Floor
layout
and
design1645.2.1Layout
principles
and
schemes
of
the
floor1645.2.2Design
of
profiled
sheet-concrete
composite
floor1685.3Design
of
columns
and
supports1765.3.1Design
of
frame
columns1765.3.2The
column-to-beam
connection1795.3.3Arrangement
of
horizontal
braces1825.3.4Design
of
vertical
braces1825.4Brief
introduction
of
analysis
and
calculation
of
high-rise
steel
buildings1885.4.1Load
and
action1885.4.2Structural
analysis
and
calculation1895.4.3Structural
design195Thinking
questions198Exercise198Chapter
6Steel
Tube
Structures
and
Tubular
Connections1996.1Introduction1996.2Steel
tubular
connection
forms
and
geometric
parameters2016.3Judgment
criteria
for
the
capacity
of
tubular
connections2046.4Static
capacity
of
CHS
connections2056.4.1Failure
modes
of
CHS
connections2056.4.2Analysis
models
for
the
capacities
of
CHS
connections2066.4.3Bearing
capacity
formulae
of
several
CHS
connections2096.5Static
capacity
of
RHS
connections2146.5.1Failure
modes
of
RHS
connections2146.5.2Analysis
models
of
the
capacities
of
RHS
connections2156.5.3Bearing
capacity
formulae
of
several
RHS
connections221Thinking
questions224Exercise224References225Appendix226
