목차
CONTENTS
SECTION Ⅰ : Fundamentals
1 Conceptual Bridge Design / M. S. Troitsky
1.1 Introduction ... 1-1
1.2 Preliminary Design ... 1-2
1.3 Final Design ... 1-8
1.4 Remarks and Conclusions ... 1-18
2 Bridge Aesthetics - Basics / Fritz Leonhardt
2.1 Introduction ... 2-1
2.2 The Terms ... 2-2
2.3 Do Objects Have Aesthetic Qualities? ... 2-2
2.4 How Do Humans Perceive Aesthetic Values? ... 2-4
2.5 The Cultural Role of Proportions ... 2-5
2.6 How Do We Perceive Geometric Proportions? ... 2-10
2.7 Perception of Beauty in the Subconscious ... 2-12
2.8 Aesthetic Judgment and Taste ... 2-12
2.9 Characteristics, of Aesthetic Qualities Lead to Guidelines for Designing ... 2-14
2.10 Aesthetics and Ethics ... 2-18
2.11 Summary ... 2-19
3 Bridge Aesthetics-Structural Art / David P. Billington ; Frederick Gottemoeller
3.1 Introduction ... 3-1
3.2 The Engineers Aesthetic and Structural Art ... 3-2
3.3 The Three Dimensions of Structure ... 3-4
3.4 Structure and Architecture ... 3-6
3.5 Application to Everyday Design ... 3-7
3.6 The Role of Case Studies in Bridge Design ... 3-10
3.7 Case Study in Colorado : Buckley Road over I-76 ... 3-11
3.8 Achieving Structural Art in Modern Society : Computer Analysis and Design Competition ... 3-15
3.9 The Engineers Goal ... 3-18
4. Planning of Major Fixed Links / Klaus H. Ostenfeld ; Dietrich L. Hommel ; Dan Ols
4.1 Introduction ... 4-1
4.2 Project Development ... 4-3
4.3 Project Basis ... 4-10
4.4 Recent Examples of Fixed Links ... 4-18
5. Design Philosophies for Highway Bridges / John M. Kulicki
5.1 Introduction ... 5-1
5.2 Limit States ... 5-2
5.3 Philosophy of Safety ... 5-3
5.4 Design Objectives ... 5-10
6. Highway Bridge Loads and Load Distribution / Susan E. Hida
6.1 Introduction ... 6-1
6.2 Permanent Loads ... 6-2
6.3 Vehicular Live Loads ... 6-2
6.4 Pedestrian Loads ... 6-9
6.5 Wind Loads ... 6-9
6.6 Effects Due to Superimposed Deformations ... 6-10
6.7 Exceptions to Code-Specified Design Loads ... 6-11
7. Structural Theory / Xila Liu ; Leiming Zhang
7.1 Introduction ... 7-1
7.2 Equilibrium Equations ... 7-3
7.3 Compatibility Equations ... 7-9
7.4 Constitutive Equations ... 7-11
7.5 Displacement Method ... 7-13
7.6 Substructuring and Symmetry Consideration ... 7-16
8. Structural Modeling / Alexander Krimotat ; Li-Hong Sheng
8.1 Introduction ... 8-1
8.2 Theoretical Background ... 8-2
8.3 Modeling ... 8-2
8.4 Summary ... 8-12
SECTION Ⅱ : Superstructure Design
9. Reinforced Concrete Bridges / Jyouru Lyang ; Don Lee ; John Kung
9.1 Introduction ... 9-1
9.2 Materials ... 9-2
9.3 Bridge Types ... 9-5
9.4 Design Considerations ... 9-6
9.5 Design Examples ... 9-19
10 Prestressed Concrete Bridges / Lian Duan ; Kang Chen ; Andrew Tan
10.1 Introduction ... 10-1
10.2 Section Types ... 10-5
10.3 Losses of Prestress ... 10-6
10.4 Design Considerations ... 10-1
10.5 Design Example ... 10-2
11. Segmental Concrete Bridges / Gerard Sauvageot
11.1 Introduction ... 11-2
11.2 Balanced Cantilever Girder Bridges ... 11-3
11.3 Progressive and Span―by―Span Constructed Bridges ... 11-9
11.4 Incrementally Launched Bridges ... 11-1
11.5 Arches, Rigid Frames, and Truss Bridges ... 11-1
11.6 Segmental Cable―Stayed Bridges ... 11-2
11.7 Design Considerations ... 11-2
11.8 Seismic Considerations ... 11-3
11.9 Casting and Erection ... 11-4
11.10 Future of Segmental Bridges ... 11-4
12. Steel―Concrete Composite I―Girder Bridges / Lian Duan ; Yusuf Saleh ; Steve Altman
12.1 Introduction ... 12-1
12.2 Structural Materials ... 12-1
12.3 Structural Components ... 12-3
12.4 Flexural Design ... 12-6
12.5 Shear Design ... 12-1
12.6 Other Design Considerations ... 12-2
13. Steel―Concrete Composite Box―Girder Bridges / Yusuf Saleh ; Lian Duan
13.1 Introduction ... 13-1
13.2 Typical Sections ... 13-1
13.3 General Design Principles ... 13-2
13.4 Flexural Resistance ... 13-3
13.5 Shear resistance ... 13-3
13.6 Stiffeners, Bracings, and Diaphragms ... 13-4
13.7 Other Considerations ... 13-6
13.8 Design Example ... 13-7
14. Orthotropic Deck Bridges / Alfred R. Mangus ; Shawn Sun
14.1 Introduction ... 14-1
14.2 Conceptual Decisions ... 14-1
14.3 Applications ... 14-6
14.4 Design Considerations ... 14-2
15. Horizontally Curved Bridges / Ahmad M. Itani ; Mark L. Reno
15.1 Introduction ... 15-1
15.2 Structural Analysis for Curved Bridges ... 15-3
15.3 Curved Steel I―Girder Bridges ... 15-7
15.4 Curved Steel Box―Girder Bridges ... 15-1
15.5 Curved Concrete Box―Girder Bridges ... 15-1
16. Highway Truss Bridges / John M. Kulicki
16.1 Truss Configurations ... 16-1
16.2 Typical Components, Nomenclature, and Materials ... 16-3
16.3 Methods of Analysis ... 16-6
16.4 Floor Systems and Framing Details ... 16-1
16.5 Special Details ... 16-1
16.6 Camber and Erection ... 16-1
16.7 Summary ... 16-2
17 Arch Bridges / Gerard F. Fox
17.1 Introduction ... 17-1
17.2 Short History of Arch Bridges ... 17-2
17.3 Types of Arch Bridges ... 17-3
17.4 Examples of Typical Arch Bridges ... 17-4
17.5 Analysis of Arch Bridges ... 17-6
17.6 Design Considerations for an Arch Bridge ... 17-8
17.7 Erection of Arches ... 17-1
18 Suspension Bridges / Atsushi Okukawa ; Shuichi Suzuki ; Ikuo Harazaki
18.1 Introduction ... 18-1
18.2 Structural System ... 18-3
18.3 Design ... 18-8
18.4 Construction ... 18-2
18.5 Field Measurement and Coatings ... 18-3
19 Cable―Stayed Bridges / Man-Chung Tang
19.1 Introduction ... 19-1
19.2 Configuration ... 19-3
19.3 Design ... 19-1
19.4 Superlong Spans ... 19-1
19.5 Multispan Cable―Stayed Bridges ... 19-1
19.6 Aesthetic Lighting ... 19-1
19.7 Summary ... 19-1
20 Timber Bridges / Kenneth J. Fridley
20.1 Introduction ... 20-1
20.2 Properties of Wood and Wood Products ... 20-2
20.3 Types of Timber Bridges ... 20-7
20.4 Basic Design Concepts ... 20-1
21 Movable Bridges / Michael J. Abrahams
21.1 Introduction ... 21-1
21.2 Types of Movable Bridges ... 21-2
21.3 Structural Design ... 21-8
21.4 Bridge Machinery ... 21-1
21.5 Bridge Operation, Power, and Controls ... 21-1
21.6 Traffic Control ... 21-2
22 Floating Bridges / M. Myint Lwin
22.1 Introduction ... 22-1
22.2 Basic Concept ... 22-2
22.3 Types ... 22-4
22.4 Design Criteria ... 22-7
22.5 Structural Design and Analysis ... 22-1
22.6 Fabrication and Construction ... 22-1
22.7 Construction Cost ... 22-1
22.8 Inspection, Maintenance, and Operation ... 22-2
22.9 Closing Remarks ... 22-2
23 Railroad Bridges / Donald F. Sorgenfrei ; W. N. Marianos, Jr.
23.1 Introduction ... 23-1
23.2 Railroad Bridge Philosophy ... 23-3
23.3 Railroad Bridge Types ... 23-4
23.4 Bridge Deck ... 23-5
23.5 Design Criteria ... 23-7
23.6 Capacity Rating ... 23-1
24 Bridge Decks and Approach Slabs / Michael D. Keever ; John H. Fujimoto
24.1 Introduction ... 24-1
24.2 Bridge Decks ... 24-1
24.3 Approach Slabs ... 24-1
24.4 Summary ... 24-1
25 Expansion Joints / Ralph J. Dornsife
25.1 Introduction ... 25-1
25.2 General Design Criteria ... 25-2
25.3 Jointless Bridges ... 25-2
25.4 Small Movement Range Joints ... 25-3
25.5 Medium Movement Range Joints ... 25-8
25.6 Large Movement Range Joints ... 25-1
25.7 Construction and Maintenance ... 25-1
SECTION Ⅲ Substructure Design
26 Bearings / Johnny Feng ; Hong Chen
26.1 Introduction ... 26-1
26.2 Type of Bearings ... 26-1
26.3 Selection of Bearings ... 26-5
26.4 Design of Elastomeric Bearings ... 26-7
27 Piers and Columns / Jinrong Wang
27.1 Introduction ... 27-1
27.2 Structural Types ... 27-1
27.3 Design Loads ... 27-3
27.4 Design Criteria ... 27-7
28 Towers / Charles Seim
28.1 Introduction ... 28-1
28.2 Functions ... 28-2
28.3 Aesthetics ... 28-2
28.4 Concept Design ... 28-4
28.5 Final Design ... 28-1
28.6 Construction ... 28-1
28.7 Summary ... 28-1
29 Abutments and Retaining Structures / Linan Wang ; Chao Gong
29.1 Introduction ... 29-1
29.2 Abutments ... 29-1
29.3 Retaining Structures ... 29-2
30 Geotechnical Considerations / Thomans W. McNeilan ; James Chai
30.1 Introduction ... 30-1
30.2 Field Exploration Techniques ... 30-2
30.3 Defining Site Investigation Requirements ... 30-1
30.4 Development of Laboratory Testing Program ... 30-1
30.5 Data Presentation and Site Characterization ... 30-1
31 Shallow Foundations / James Chai
31.1 Introduction ... 31-1
31.2 Design Requirements ... 31-2
31.3 Failure Modes of Shallow Foundations ... 31-3
31.4 Bearing Capacity for Shallow Foundations ... 31-3
31.5 Stress Distribution Due to Footing Pressures ... 31-1
31.6 Settlement of Shallow Foundations ... 31-1
31.7 Shallow Foundations on Rock ... 31-
31.8 Structural Design of Spread Footings ... 31-2
32 Deep Foundations / Youzhi Ma ; Nan Deng
32.1 Introduction ... 32-1
32.2 Classification and Selection ... 32-2
32.3 Design Considerations ... 32-1
32.4 Axial Capacity and Settlement ; Individual Foundation ... 32-1
32.5 Lateral Capacity and Deflection ; Individual Foundation ... 32-2
32.6 Grouped Foundations ... 32-3
32.7 Seismic Design ... 32-3
SECTION Ⅳ : Seismic Design
33 Geotechnical Earthquake Considerations / Steven Kramer ; Charles Scawthorn
33.1 Introduction ... 33-1
33.2 Seismology ... 33-2
33.3 Measurement of Earthquakes ... 33-3
33.4 Strong Motion Attenuation and Duration ... 33-8
33.5 Probabilistic Seismic Hazard Analysis ... 33-1
33.6 Site Response ... 33-1
33.7 Earthquake―Induced Settlement ... 33-2
33.8 Ground Failure ... 33-2
33.9 Soil Improvement ... 33-3
34 Earthquake Damage to Bridges / Jack P. Moehle ; Marc O. Eberhard
34.1 Introduction ... 34-1
34.2 Effects of Site Conditions ... 34-2
34.3 Correlation of Damage with Construction Era ... 34-4
34.4 Effects of Changes in Condition ... 34-5
34.5 Effects of Structural Configuration ... 34-6
34.6 Unseating at Expansion Joints ... 34-7
34.7 Damage to Superstructures ... 34-1
34.8 Damage to Bearings ... 34-1
34.9 Damage to Substructures ... 34-1
34.10 Summary ... 34-2
35 Dynamic Analysis / Rambabu Bavirisetty ; Murugesu Vinayagamoorthy ;
35.1 Introduction ... 35-1
35.2 Single―Degree―of―Freedom System ... 35-3
35.3 Multidegree―of Freedom System ... 35-1
35.4 Response Spectrum Analysis ... 35-2
35.5 Inelastic Dynamic Analysis ... 35-3
35.6 Summary ... 35-3
36 Nonlinear Analysis of Bridge Structures / Mohamed Akkari ; Lian Duan
36.1 Introduction ... 36-1
36.2 Analysis Classification and General Guidelines ... 36-2
36.3 Geometrical Nonlinearity Formulations ... 36-4
36.4 Material Nonlinearity Formulations ... 36-9
36.5 Nonlinear Section Analysis ... 36-1
36.6 Nonlinear Frame Analysis ... 36-2
36.7 Practical Applications ... 36-2
37 Seismic Design Philosophies and Performance―Based Design Criteria / Lian Duan ; Fang Li
37.1 Introduction ... 37-1
37.2 Design Philosophies ... 37-2
37.3 No―Collapse―Based Design Approaches ... 37-2
37.4 Performance―Based Design Approaches ... 37-9
37.5 Sample Performance―Based Criteria ... 37-1
37.6 Summary ... 37-3
38 Seismic Design of Reinforced Concrete Bridges / Yan Xiao
38.1 Introduction ... 38-1
38.2 Typical Column Performance ... 38-4
38.3 Flexural Design of Columns ... 38-7
38.4 Shear Design of Columns ... 38-1
38.5 Moment―Resisting Connection between Column and Beam ... 38-1
38.6 Column Footing Design ... 38-1
39 Seismic Design of Steel Bridges / Chia-Ming Uang ; Keh-Chyuan Tsai ; Michel Brune
39.1 Introduction ... 39-1
39.2 Ductile Moment―Resisting Frame(MRF) Design ... 39-7
39.3 Ductile Braced Frame Design ... 39-1
39.4 Stiffened Steel Box Pier Design ... 39-1
39.5 Alternative Schemes ... 39-2
40 Seismic Retrofit Practice / James Roberts ; Brian Maroney
40.1 Introduction ... 40-1
40.2 Identification and Prioritization ... 40-2
40.3 Performance Criteria ... 40-5
40.4 Retrofit Design ... 40-8
40.5 Construction ... 40-1
40.6 Costs ... 40-2
40.7 Summary ... 40-2
41 Seismic Isolation and Supplemental Energy Dissipation / Rihui Zhang
41.1 Introduction ... 41-1
41.2 Basic Concepts, Modeling, and Analysis ... 41-2
41.3 Seismic Isolation and Energy Dissipation Devices ... 41-8
41.4 Performance and Testing Requirements ... 41-1
41.5 Design Guidelines and Design Examples ... 41-1
41.6 Recent Developments and Applications ... 41-2
41.7 Summary ... 41-3
42 Soil―Foundation-Structure Interaction / Wen-Shou Tseng ; Joseph Penzien
42.1 Introduction ... 42-1
42.2 Description of SFSI Problems ... 42-2
42.3 Current State―of―the―Practice ... 42-6
42.4 Seismic Inputs to SFSI System ... 42-1
42.5 Characterization of Soil―Foundation System. ... 42-2
42.6 Demand Analysis Procedures ... 42-2
42.7 Demand Analysis Examples ... 42-3
42.8 Capacity Evaluations ... 42-4
42.9 Concluding Statements ... 42-4
43 Seismic Retrofit Technology / Kevin I. Keady ; Fadel Alameddine ; Thomas E. Sar
43.1 Introduction ... 43-1
43.2 Analysis Techniques for Bridge Retrofit ... 43-2
43.3 Superstructure retrofits ... 43-3
43.4 Substructure Retrofits ... 43-1
43.5 Summary ... 43-2
44 Seismic Design Practice in Japan / Shigeki Unjoh
44.1 Introduction ... 44-4
44.2 History of Earthquake Damage and Development of Seismic Design Methods ... 44-4
44.3 Damage of Highway Bridges Caused by the Hyogo - ken Nanbu Earthquake ... 44-6
44.4 1996 Seismic Design Specifications of Highway Bridges ... 44-8
44.5 Seismic Retrofit Practices for Highway Bridges ... 44-2
SECTION Ⅴ Construction and Maintenance
45 Steel Bridge Construction / Jackson Durkee
45.1 Introduction ... 45-2
45.2 Construction Engineering in Relation to Design Engineering ... 45-2
45.3 Construction Engineering Can Be Critical ... 45-3
45.4 Premises and Objectives of Construction Engineering ... 45-3
45.5 Fabrication and Erection Information Shown on Design Plans ... 45-3
45.6 Erection Feasibility ... 45-4
45.7 Illustrations of Challenges in Construction Engineering ... 45-4
45.8 Obstacles to Effective Construction Engineering ... 45-4
45.9 Examples of Inadequate Construction Engineering Allowances and Effort ... 45-5
45.10 Considerations Governing Construction Engineering Practices ... 45-6
45.11 Camber considerations ... 45-7
45.12 Two General Approaches to Fabrication and Erection of Bridge Steelwork ... 45-9
45.13 Example of Arch Bridge Construction ... 45-1
45.14 Which Construction Procedure is to be Preferred? ... 45-1
45.15 Example of Suspension Bridge Cable Construction ... 45-1
45.16 Example of Cable―Stayed Bridge Construction ... 45-1
45.17 Field Checking at Critical Erection Stages ... 45-2
45.18 Determination of Erection Strength Adequacy ... 45-2
45.19 Philosophy of the Erection Rating Factor ... 45-2
45.20 Minimum Erection Rating Factors ... 45-2
45.21 Deficiencies of Typical Construction Procedure Drawings and Instructions ... 45-2
45.22 Shop and Field Liaison by Construction Engineers ... 45-2
45.23 Comprehensive Bridge Erection―Engineering Specifications ... 45-2
45.24 Standard Conditions for Contracting ... 45-2
45.25 Design―and―Construct ... 45-2
45.26 Construction Engineering Procedures and Practices the Future ... 45-3
45.27 Concluding Comments ... 45-3
45.28 Further Illustrations ... 45-3
46 Concrete Bridge Construction / Simon A. Blank ; Michael M. Blank ; Luis R. Luber
46.1 Introduction ... 46-1
46.2 Effective Construction Engineering ... 46-1
46.3 Construction Project Management ... 46-7
46.4 Major Construction Considerations ... 46-7
46.5 Structural Materials ... 46-8
46.6 Construction Operations ... 46-1
46.7 Falsework ... 46-1
47 Substructures of Major Overwater Bridges / Ben C. Gerwick, Jr.
47.1 Introduction ... 47-1
47.2 Large Diameter Tubular Piles ... 47-2
47.3 Cofferdams for Bridge Piers ... 47-1
47.4 Open Caissons ... 47-2
47.5 Pneumatic Caissons ... 47-2
47.6 Box Caissons ... 47-2
47.7 Present and Future Trends ... 47-3
48 Bridge Construction Inspection / Mahmoud Fustok ; Masoud Alemi
48.1 Introduction ... 48-1
48.2 Inspection Objectives and Responsibilities ... 48-2
48.3 Material Inspection ... 48-2
48.4 Operation Inspection ... 48-3
48.5 Component Inspection ... 48-6
48.6 Temporary Structures ... 48-1
48.7 Safety ... 48-1
48.8 Record Keeping and As-Built Plans ... 48-1
48.9 Summary ... 48-1
49 Maintenance Inspection and Rating / Murugesu Vinayagamoorthy
49.1 Introduction ... 49-1
49.2 Maintenance Documentation ... 49-2
49.3 Fundamentals of Bridge Inspection ... 49-2
49.4 Inspection Guidelines ... 49-4
49.5 Fundamentals of Bridge Rating ... 49-9
49.6 Superstructure Rating Examples ... 49-1
49.7 Posting of Bridges ... 49-2
50 Strengthening and Rehabilitation / F. Wayne Klaiber ; Terry J. Wipf
50.1 Introduction ... 50-1
50.2 Lightweight Decks ... 50-3
50.3 Composite Action ... 50-1
50.4 Improving the Strength of Various Bridge Members ... 50-1
50.5 Post―Tensioning Various Bridge Components ... 50-2
50.6 Developing Additional Bridge Continuity ... 50-3
50.7 Recent Developments ... 50-3
50.8 Summary ... 50-3
SECTION Ⅵ Special Topics
51 Applications of Composites in Highway Bridges / Joseph M. Plecnik ; Oscar Henriquez
51.1 Introduction ... 51-1
51.2 Material Properties ... 51-2
51.3 Advantages and Disadvantages of Composites in Bridge Applications ... 51-4
51.4 Pultruded Composite Shapes and Composite Cables ... 51-6
51.5 FRP Reinforcing Bars for Concrete ... 51-8
51.6 Composite Bridge Decks ... 51-9
51.7 Wearing Surface for a Composite Deck ... 51-1
51.8 Composite Bridge Structural Systems ... 51-1
51.9 Column Wrapping Using Composites ... 51-1
51.10 Strengthening of Bridge Girders Using CFRP Laminates ... 51-1
51.11 Composite Highway Light Poles ... 51-1
51.12 Nondestructive Evaluation of Composite Bridge Systems ... 51-1
51.13 Summary ... 51-1
52 Effective Length of Compression Members / Lian Duan ; Wai-Fah Chen
52.1 Introduction ... 52-1
52.2 Isolated Columns ... 52-2
52.3 Framed Columns-Alignment Chart Method ... 52-3
52.4 Modifications to Alignment Charts ... 52-8
52.5 Framed Columns -Alternative Methods ... 52-1
52.6 Crossing Frame System ... 52-1
52.7 Latticed and Built-Up Members ... 52-1
52.8 Tapered Columns ... 52-1
52.9 Summary ... 52-2
53 Fatigue and Fracture / Robert J. Dexter ; John W. Fisher
53.1 Introduction ... 53-1
53.2 Redundancy, Ductility, and Structural Collapse ... 53-4
53.3 Fatigue Resistance ... 53-5
53.4 Fracture Resistance ... 53-1
53.5 Summary ... 53-1
54 Statistics of Steel Weight of Highway Bridges / Shouji Toma
54.1 Introduction ... 54-1
54.2 Design Criteria ... 54-2
54.3 Data Base of Steel Weights ... 54-4
54.4 Statistics of Steel Weights ... 54-4
54.5 Regression Equations ... 54-1
54.6 Comparisons ... 54-2
54.7 Assessment of Bridge Design ... 54-2
54.8 Summary ... 54-2
55 Weigh―in―Motion Measurement of Trucks on Bridges / Andrzej S. Nowak ; Sangjin Kim
55.1 Introduction ... 55-1
55.2 Weigh―in―Motion Truck Weight Measurement ... 55-1
55.3 Fatigue Load Measurement ... 55-6
55.4 Dynamic Load Measurement ... 55-1
55.5 Summary ... 55-1
56 Impact Effect of Moving Vehicles / Mingzhu Duan ; Philip C. Perdikaris ; Wai-Fah Ch
56.1 Introduction ... 56-1
56.2 Consideration of Impact Effect in Highway Bridge Design ... 56-2
56.3 Consideration of Impact Effect in Railway Bridge Design ... 56-7
56.4 Free Vibration Analysis ... 56-9
56.5 Forced Vibration Analysis under Moving Load ... 56-1
57 Wind Effects on Long―Span Bridges / Chun S. Cai ; Serge Montens
57.1 Introduction ... 57-1
57.2 Winds and Long―Span Bridges ... 57-2
57.3 Experimental Investigation ... 57-3
57.4 Analytical Solutions ... 57-6
57.5 Practical Applications ... 57-1
58 Cable Force Adjustment and Construction Control / D. J. Han ; Quansheng Yan
58.1 Introduction ... 58-1
58.2 Determination of Designed Cable Forces ... 58-2
58.3 Adjustment of the Cable Forces ... 58-5
58.4 Simulation of Construction Process ... 58-1
58.5 Construction Control ... 58-1
58.6 An Engineering Example ... 58-1
59 Active Control in Bridge Engineering / Zaiguang Wu
59.1 Introduction ... 59-1
59.2 Typical Control Configurations and Systems ... 59-3
59.3 General Control Strategies and Typical Control Algorithms ... 59-1
59.4 Case Studies ... 59-1
59.5 Remarks and Conclusions ... 59-2
60 Vessel Collision Design of Bridges / Michael Knott ; Zolan Pruca
60.1 Introduction ... 60-2
60.2 Initial Planning ... 60-4
60.3 Waterway Characteristics ... 60-6
60.4 Vessel Traffic Characteristics ... 60-6
60.5 Collision Risk Analysis ... 60-8
60.6 Vessel Impact Loads ... 60-1
60.7 Bridge Analysis and Design ... 60-1
60.8 Bridge Protection Measures ... 60-1
60.9 Conclusions ... 60-1
61 Bridge Hydraulics / Jim Springer ; Ke Zhou
61.1 Introduction ... 61-1
61.2 Bridge Hydrology and Hydraulics ... 61-1
61.3 Bridge Scour ... 61-1
62 Sound Walls and Railings / Farzin Lackpour ; Fuat S. Guzaltan
62.1 Sound Walls ... 62-1
62.2 Bridge Railings ... 62-1
SECTION Ⅶ Worldwide Practice
63 Bridge Design Practice in China / Guohao Li ; Rucheng Xiao
63.1 Introduction ... 63-1
63.2 Beam Bridges ... 63-1
63.3 Arch Bridges ... 63-1
63.4 T―Type and Continuous Rigid Frame Bridges ... 63-2
63.5 Steel Bridges ... 63-2
63.6 Cable―Stayed Bridges ... 63-2
63.7 Suspension Bridges ... 63-3
64 Design Practice in Europe / Jean M. Muller
64.1 Introduction ... 64-1
64.2 Design ... 64-2
64.3 Short―and Medium―Span Bridges ... 64-1
64.4 Long―Span Bridges ... 64-2
64.5 Large Projects ... 64-3
64.6 Future European Bridges ... 64-3
65 Design Practice in Japan / Masatsugu Nagai ; Tetsuya Yabuki ; Shuichi Suzuki
65.1 Design ... 65-1
65.2 Stone Bridges ... 65-2
65.3 Timber Bridges ... 65-4
65.4 Steel Bridges ... 65-7
65.5 Concrete Bridges ... 65-1
65.6 Hybrid Bridges ... 65-1
65.7 Long―Span Bridges(Honshu―Shikoku Bridge Project) ... 65-1
65.8 New Bridge Technology Relating to Special Bridge Projects ... 65-2
65.9 Summary ... 65-3
66 Design Practice in Russia / Simon A. Blank ; Oleg A. Popov ; Vadim A. Seliver
66.1 Introduction ... 66-1
66.2 Historical Evolution ... 66-2
66.3 Modern Development ... 66-4
66.4 Design Theory and Methods ... 66-7
66.5 Inspection and Test Techniques ... 66-1
66.6 Steel and Composite Bridges ... 66-1
66.7 Concrete Bridges ... 66-1
66.8 Cable―Stayed Bridges ... 66-2
66.9 Prospects ... 66-3
67 The Evolution of Bridges in the United States / Norman F. Root
67.1 Introduction ... 67-2
67.2 Early U.S. Bridges ... 67-2
67.3 The Canal Era ... 67-3
67.4 The Railroad Era ... 67-8
67.5 The Motor Car Era ... 67-1
67.6 The Interstate Era ... 67-3
67.7 Era of the Signature Bridge ... 67-4
67.8 Epilogue ... 67-4
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