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Integral Abutment Bridge Design Guidelines（92 Pages）
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* \7 D6 t+ J  z% l+ t$ m: |3 ATABLE OF CONTENTS
! u" a9 H: t- J- O% ITable of Contents...........................................................................................................................................vii
Introduction.....................................................................................................................................................xi
SECTION 1 Introduction to Integral Abutment Bridges...............................................................................1-1
4 \, H+ P) s, F6 z1 j1.1 Integral Abutment Bridge................................................................................................................1-1
1.2 Difference from Conventional Bridges............................................................................................1-1
( X. G0 l0 q# l( E1.3 Document Precedence.....................................................................................................................1-1
$ Y  c* P1 p( g) P# T. s0 w3 A1.4 Definitions......................................................................................................................................1-1
/ n( y0 C3 v! o: v/ \1.5 Notation..........................................................................................................................................1-3
' ~+ r, s; Z6 Z  z/ @5 A: eSECTION 2 General Design and Location Features.....................................................................................2-1
2.1 First Choice.....................................................................................................................................2-1
2.2 Structure Geometrical Criteria.........................................................................................................2-1
3 z/ n% y* s3 y" H3 l2.2.1 Criteria for the Simplified Design Method.............................................................................2-1
2.2.2 Detailed Design for Projects That Exceed the Criteria for Simplified Design......................2-2
* G* d) f/ s  r/ h2.2.3 Semi-Integral, Jointed and Other Structural Alternatives......................................................2-2
2.3 Laying out the Bridge......................................................................................................................2-3
2.3.1 Conventional Layout..............................................................................................................2-3
2.3.2 Ideal Layout...........................................................................................................................2-3
2.4 Hydraulic RequirementS.................................................................................................................2-5
2.4.1 Scour Considerations..............................................................................................................2-6
2.4.2 Cofferdam Requirements.......................................................................................................2-6
) C) b- n% z  c5 }2.5 Geotechnical...................................................................................................................................2-6
- p" n, O6 Q- z% q0 |) XSECTION 3 Loads........................................................................................................................................3-1
3.1 General Information........................................................................................................................3-1
3.2 Application of Loads.......................................................................................................................3-1
3.2.1 Construction Stage.................................................................................................................3-1
! i- S3 g( a6 x6 [4 Y% M& [2 |3.2.1.1 Permanent Dead Loads on Pile Cap..............................................................................3-1
3.2.1.2 Construction Dead and Live Loads...............................................................................3-1
/ h& \$ E. s8 K0 G2 X1 n3.2.1.3 Permanent Dead Load on Piles.....................................................................................3-1
3.2.2 Final Stage.............................................................................................................................3-1
3.2.2.1 Composite Permanent Dead Loads...............................................................................3-2
9 F% B, I, I" i' n3.2.2.2 Live Loads....................................................................................................................3-2
: N3 ?/ O( i: x* M" B3.2.2.3 Longitudinal Effects.....................................................................................................3-2
3.2.2.4 Earth Loads...................................................................................................................3-2
" R# a) u1 Q4 Q( L) vSECTION 4 Structural Analysis and Evaluation...........................................................................................4-1
4.1 General Information........................................................................................................................4-1
4.2 Structural Design Criteria................................................................................................................4-1
7 B9 v1 h! N- a% P4 ]& B4.3 Design Methodology......................................................................................................................4-1
4.3.1 Simplified Design Method.....................................................................................................4-1
4.3.2 Detailed Design......................................................................................................................4-2
* z) {  A' m1 ]  g/ M4.4 Superstructure.................................................................................................................................4-2
; L6 U; g* T! R: b7 `0 o1 w- _4.4.1 Bridge End and Anchorage General Details..........................................................................4-2
4.5 Substructure....................................................................................................................................4-3
8 s7 ]: n: t. ]2 B4.5.1 Abutment Movement..............................................................................................................4-3
4.5.1.1 Thermal Movement.......................................................................................................4-3
4.5.1.2 Shrinkage and Creep.....................................................................................................4-4
1 A. e5 h$ |$ D. C  j6 p. 2009 by the Structures Section, Program Development Division
Vermont Agency of Transportation
viii 2008VTRANS INTEGRAL ABUTMENT DESIGN GUIDELINE
4.5.1.3 Total Allowable Movement..........................................................................................4-4
4.5.1.4 Grade of Steel...............................................................................................................4-4
% s- ?& r: z* b  }+ n4.5.1.5 Pile Selection................................................................................................................4-4
, {( p: L: v0 f/ q) I+ n9 x) p+ }$ i4.5.1.6 Pile Orientation.............................................................................................................4-9
9 t/ n8 ^* x5 U4.5.2 Pile Design............................................................................................................................4-9
$ F; W2 W$ K( W1 X8 O, N& i4.5.2.1 L-Pile Software Analysis............................................................................................4-11
$ Y3 W2 g1 h% r4 M3 s' A1 W4.5.2.1.1 Lateral Load at Pile Head.......................................................................................4-11
% `! E- V5 g' P1 W) Y3 |5 S4.5.2.1.2 Pile Deflection and Moment..................................................................................4-11
+ o, W7 U; S8 h9 j/ d4.5.2.1.3 Unbraced Lengths..................................................................................................4-12
4.5.2.1.4 Depth to Fixity.......................................................................................................4-12
- `9 q# ]2 z3 G" M, P. `8 E9 k* ?# t4.5.2.2 Combined Axial Compression and Flexure................................................................4-16
0 F. {6 l' |& X" `- }4.5.3 Pile Cap...............................................................................................................................4-16
4.5.4 Wingwall Design..................................................................................................................4-16
) Z+ ^* r% I% O7 ?) q4.6 Project Notes and Special Provisions............................................................................................4-16
% U# e/ @& U6 ?: {" L4 I# o3 u4.7 Load Rating..................................................................................................................................4-16
, T1 A4 }3 t2 H, o2 i5 O0 YSECTION 5 Concrete Structures...................................................................................................................5-1
5 V) W& V' n4 N8 Q! d5.1 General Information........................................................................................................................5-1
( G0 J; ^9 }0 x5 y& D# D. [5.2 Prestress Superstructure Specific Details........................................................................................5-1
5.2.1 Voided Slab and Box Beam Bridge Decks............................................................................5-1
5.2.2 Northeast Bulb-T (NEBT)......................................................................................................5-2
5.2.2.1 Cast-In-Place Concrete Slab Decks..............................................................................5-4
5.2.3 Design for Frame Action (Negative Moment) at Ends of Deck.............................................5-4
* x- r2 D- R: w3 `6 jSECTION 6 Steel Structures........................................................................................................................6-1
6.1 General Information........................................................................................................................6-1
) Q; K* z6 d: j3 w% e7 S$ \6.2 Steel Girder Specific Details...........................................................................................................6-1
; `- F- R0 K' y2 ]- ^. o/ KSECTION 7 Aluminum Structures................................................................................................................7-1
7.1 General Information........................................................................................................................7-1
* \$ j0 W/ s# ?; LSECTION 8 Wood Structures.......................................................................................................................8-1
8.1 General Information........................................................................................................................8-1
8 W& r) A, S0 W3 z$ }1 `- pSECTION 9 Deck and Deck Systems............................................................................................................9-1
1 T# C; r- C0 C: ]6 o9.1 General Information........................................................................................................................9-1
& X9 ]/ m/ i1 l+ x3 h; KSECTION 10 Foundations..........................................................................................................................10-1
10.1 Initial Considerations................................................................................................................10-1
8 ]9 M; W3 c. }/ B# [: ^& ^10.1.1 Geotechnical Exploration.....................................................................................................10-1
10.1.2 Pile Design and Verification................................................................................................10-1
10.1.3 Required Information for Contract Documents....................................................................10-1
10.2 Selecting a Pile for Integral Abutments....................................................................................10-1
10.2.1 Loads on Piles......................................................................................................................10-1
10.2.2 Pile Cap Geometry...............................................................................................................10-2
: i# Y0 Q0 M! ]. \10.2.2.1 Number of Piles and Pile Spacing..............................................................................10-2
10.2.2.2 Pile Groups.................................................................................................................10-2
10.2.2.3 Pile Length Requirement............................................................................................10-2
10.3 Service Limit State....................................................................................................................10-2
10.4 Strength Limit State..................................................................................................................10-2
" J, J% u* W' k6 D0 Y6 I% j+ m10.4.1 Nominal Structural Pile Resistance (NSPR)........................................................................10-3
10.4.2 Nominal Axial Pile Resistance (NAPR)..............................................................................10-3
10.4.3 Downdrag and Other Losses to Geotechnical Strength.......................................................10-3
10.4.4 Strength Limit State Resistance Factors for Driven Piles....................................................10-3
. 2009 by the Structures Section, Program Development Division
Vermont Agency of Transportation
6 j) p$ P% F$ y* d+ D0 qTABLE OF CONTENTS ix
, [% H; W" I9 w4 _10.5 Pile Driving Analysis................................................................................................................10-4
: P3 y$ r0 d* W7 ?& s10.5.1 Pile Driving Concerns..........................................................................................................10-4
4 j& {( {/ f' [! m3 L* |10.5.2 Maximum Pile Driving Stress..............................................................................................10-4
10.5.3 Nominal Pile Driving Resistance (NPDR)...........................................................................10-5
# B# q$ Q# c" l' w7 g2 W" s10.5.3.1 Verification of the Nominal Axial Pile Resistance (NAPR) in Compression............10-5
10.5.4 Resistance Factors for Verifying the NAPR........................................................................10-5
10.6 Design Steps for Piles...............................................................................................................10-6
SECTION 11 Abutment, Piers and Walls....................................................................................................11-1
! n7 l' l, F- W11.1 General Information..................................................................................................................11-1
SECTION 12 Buried Structures and Tunnel Liners....................................................................................12-1
6 b0 R0 z4 w2 @% _9 `# A1 k$ ^+ w12.1 General Information..................................................................................................................12-1
" c0 i+ L6 G7 i2 T  kSECTION 13 Railings................................................................................................................................13-1
% E7 o% o) J8 E6 b# C13.1 General Information..................................................................................................................13-1
SECTION 14 Joints and Bearings...............................................................................................................14-1
0 P; R5 l- T$ d14.1 General Information..................................................................................................................14-1
SECTION 15 Summary..............................................................................................................................15-1
SECTION 16 References............................................................................................................................16-1
16.1 General Information..................................................................................................................16-1
$ z" p( U: z, r% O+ e5 h16.2 Performance.............................................................................................................................16-1
16.3 Design Issues............................................................................................................................16-2
16.4 Analysis....................................................................................................................................16-2
16.5 Approach Slabs.........................................................................................................................16-2
( m' c9 M; g: A0 d0 W16.6 Forces.......................................................................................................................................16-2
16.7 State Manual References...........................................................................................................16-3
Appendix A Design Outline.............................................................................................................................1
Appendix B Design Example...........................................................................................................................1
Notes:..........................................................................................................................................................16-1
  `; Z+ w3 d3 P# {+ l+ k( I2 E) o
4 ?& v  s& e  C2 V

INTEGRAL ABUTMENT BRIDGES - DESIGN AND CONSTRUCTIBILITY (8 Pages)
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David I. Harvey, Don W. Kennedy
Associated Engineering (B.C.) Ltd., Canada
8 ?4 Q5 a- a6 Q( VGordon W. Ruffo
5 R4 r. U( k( k$ jCarston-Aimes Construction Consultants Ltd., Canada

Integral Abutment Bridges Current Practice in the United States And Canada（20 Pages）
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目录

8 S1 D. F. M0 u( P3 ?4 D$ j" n
3 Y) }1 S& ^6 a2 D3 S! {

INTEGRAL BRIDGE ABUTMENTS（50 Pages）
: P4 n- B4 h8 Y4 q) IR. J. Lock
: r8 D3 O: y% O8 g. D  ~CUED/D-SOILS/TR320 (June 2002)
$ r0 t; G% h: D  P$ [+ ^; q; KM.Eng. Project Report
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7 [. L/ P5 ^( U1.0 INTRODUCTION ..............................................................................................4
+ P  c' s/ a% A2 `9 ?. U: t0 U) l1.1 Purpose and Scope of Project .................................................................................... 5
1.2 Mode of Bridge Movement ....................................................................................... 6
+ L: o/ h  T4 j3 j5 ?1.3 Magnitude of Deck Expansion .................................................................................. 6
2.0 LITERATURE REVIEW - Model Test Procedures...........................................7
' h# k0 D9 J% C3 b2.1 TRL Report 146: Cyclic loading of sand behind integral bridge abutments............. 7
2.2 Integral Bridges: A fundamental approach to the time-temperature loading problem
' \+ D6 L2 e( W0 S8 y9 M$ t(England et al., 2000) .......................................................................................................... 11
3.0 EARTH PRESSURES - Experimental Results.................................................13
3.1 BA 42/96 - The Design of Integral Bridges ............................................................ 13
3.2 TRL Report 146: Cyclic loading of sand behind integral bridge abutments
(Springman et al. 1996) ....................................................................................................... 14
3.3 Integral Bridges: A fundamental approach to the time-temperature loading problem
$ K1 X4 v- x# \9 W6 \4 Y(England et al., 2000) .......................................................................................................... 16
( c4 p; G2 H. b' }# x: u3.4 Experimental and Analytical Investigations of Piles and Abutments of Integral
Bridges (Arsoy et al., 2002) ................................................................................................ 19
1 ?2 H2 |: ^! p1 q( E4.0 EARTH PRESSURES - Field Measurements ..................................................20
4.1 Field tests................................................................................................................. 20
4.2 Testing an Integral Steel Frame Bridge: Elgaaly et al., 1992; Skew Effects on
6 d! v( O+ [4 ]Backfill Pressures at Integral Bridge Abutments: Sandford & Elgaaly, 1993. ................... 21
) A/ X, S" I' n$ {! D- m5 _4.3 Measurement of thermal cyclic movements on two portal frame bridges on the M1:
8 y( I* i. U4 ]$ c% p/ j6 ^Darley & Alderman, 1995 ................................................................................................... 24
4.4 Field Study of an Integral Backwall Bridge: Hoppe & Gomez, 1996..................... 24
/ F# D% j* x7 Z4.5 Seasonal thermal effects over three years on the shallow abutment of an integral
2 c( i7 N5 d7 W$ t3 abridge in Glasgow: Darley et al., 1998................................................................................ 26
4.6 Performance of an integral Bridge over the M1-A1 Link Road at Bramham
Crossroads: Barker & Carder, 2001 .................................................................................... 27
4.7 Field Performance of Integral Abutment Bridge: Lawver et al., 2000.................... 28
1 Z4 G: N- u* s% K$ ~4.8 Integral Bridge in West Lafayette, Indiana. Frosch, 2002....................................... 29
  a- E" H3 K: i" b4.9 Coefficients of Thermal Expansion......................................................................... 30
/ A. ^7 t. V9 M4.10 Influence of deck compression................................................................................ 31
5.0 SETTLEMENT - Experimental Results ...........................................................33
5.1 BA 42/96 - The Design of Integral Bridges ............................................................ 33
5.2 TRL Report 146: Cyclic loading of sand behind integral bridge abutments
$ g% c! v/ s0 ?3 I, ?7 D- F(Springman et al. 1996) ....................................................................................................... 33
5 L+ W! y. t) a& n# T0 y& U5.3 Integral Bridges: A fundamental approach to the time-temperature loading problem
; b* {, |' X1 l, A  \0 D(England et al., 2000) .......................................................................................................... 36
6.0 SETTLEMENT - Field Measurements.............................................................38
2 i& \0 |. r) ^6.1 Highways Agency Maintenance Data ..................................................................... 38
6.2 Field Studies ............................................................................................................ 40
& C0 O) `( {1 {2 O6 @6.3 Approach Slabs........................................................................................................ 42
7.0 CONCLUSIONS...............................................................................................44
7.1 Superstructure.......................................................................................................... 44
- @1 k. `8 ?6 {3 j8 F7.2 Abutment design...................................................................................................... 44
7.3 Settlement mitigation............................................................................................... 45
! J" o& v* w9 y* }4 R8.0 REFERENCES .................................................................................................46
# `6 v/ u6 A- V5 W; O/ h1 i9.0 ACKNOWLEDGEMENTS..............................................................................49
APPENDIX A Earth pressure coefficient definitions .............................................50
6 X; f) J* w2 \) ?7 p

: I# A5 R' P6 G+ b5 P
THE 2005 – FHWA CONFERENCE 会议论文集（343Pages）
! N( H% Y$ N1 s& x: Q3 RIntegral Abutment and Jointless Bridges
& u1 f8 Q( I7 y' }; F7 E(IAJB 2005) March 16 – 18, 2005
# \* n) K$ ^5 a$ Z/ H9 p# tBaltimore, Maryland
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- n5 [4 S0 [8 \; C/ K+ q
Session I: Current Practices with Design Guidelines and Foundation Design
- b& r/ _1 ]; N. HIntegral Abutment and Jointless Bridges                                                                    
V. Mistry                               3
6 z* P$ H5 Y  U0 R, Q0 U
Integral Abutments and Jointless Bridges (IAJB)          2004 Survey Summary         
7 h2 H1 C5 K" [1 E6 hR. Maruri, S.Petro                 12
6 b' E+ `9 N+ K3 p. P/ N  G# F
The In-Service Behavior of Integral Abutment Bridges:  Abutment-Pile Response   
R. Frosch, M. Wenning, V. Chovichien 30

/ p) O$ i+ D, n8 L+ qNew York State Department of Transportation's Experience with Integral Abutment Bridges
1 V4 M, w! a$ {- q4 W) r3 VA. Yannotti, S. Alampalli, H. White        41
% B; l0 Q- e4 C
& }7 q" b6 B* ?, I2 HIntegral Abutment Design and Construction: The New England Experience            
- B# o2 N" }& \7 E6 f D. Conboy, E. Stoothoff                        50
. b) S- `0 ?" ^/ T9 `$ ~
4 h  q; V, @7 v4 |2 pVDOT Integral Bridge Design Guidelines                                                                  
K. Weakley                                            61

Session II: Case Studies
" K/ Y8 }# u6 U5 MCase Study: A Jointless Structure to Replace the Belt Parkway Bridge  Over Ocean Parkway
S. Jayakumaran, M. Bergmann, S. Ashraf, C. Norrish 73

7 f5 P2 r! U0 ?  ZCase Study – Jointless Bridge Beltrami County State Aid Highway 33 Over Mississippi River in Ten Lake Township,
+ R, l) T) w/ _. e! B7 ^3 x Minnesota J. Wetmore, B. Peterson                             84

, T" r# l' |7 Q' J8 l' vDesign and Construction of Dual 630-foot, Jointless, Three-spanContinuous Multi-girder Bridges in St. Albans, West Virginia,
7 e' J5 d, z8 UUnited States, Carrying U.S. Route 60 over the Coal River
J. Perkun, K. Michael                                                  97

8 c: `0 e0 o% ?( S5 fIntegral Abutment Bridges with FRP Decks – Case Studies
V. Shekar, S. Aluri, H. GangaRao                             113
( Q% q( H. g& e! O- L1 _
New Mexico’s Practice and Experience in Using Continuous Spans for Jointless Bridges
S. Maberry, J. Camp, J. Bowser                            125

4 F5 |% t# {! uIntegral Abutment Bridges – Iowa and Colorado Experience
D. Liu, R. Magliola, K. Dunker                               136
# m7 T4 Z* j9 C" A8 a6 l& s2 Q
Moose Creek Bridge – Case Study of a prefabricated Integral Abutment Bridge in Canada
I. Husain, B. Huh, J. Low, M. McCormick                 148
Session III: Maintenance and Rehabilitation
Session IV: Construction Practices
Author Index
/ C( v& a  `2 c) Z' W  C

what‘s   this  dongdong？

一般银看不懂 this dongdong costs too much

回复 greetingpine 的帖子
1 M! v% G( q$ R% P8 `& i4 p& Z8 K& b
加钱其实只是为了防止被人随便转到其他论坛上，要不我就把级别弄高点

8 |5 M' w1 r! \( l7 s# [
这篇贴和 子菁版主的 美国道路桥梁深度考察报告
6 l5 L5 ^/ q* h7 x
" D( O( U6 ?2 V- h联合起来看，来了解国外的桥梁设计方法。

我觉得。。。国内很多地方的设计，虽然一部分原因是设计理念的差距，这部分差距是很大，但是另一个很重要的原因是市场的因素

工程投入、历史积累、理念等多方面的差距
# l* i9 A2 b$ {% g/ }' y' x, U有对比才有进步，取长补短。