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Digital Combo: Bridge Design and Construction Bundle

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DC45.1-18 Abstract:

These Recommendations pertain to the design, testing, and installation of stay cables for cable stayed bridges using prestressing wires, strand, or bar as the main tension element. Recommendations are presented only for stay cables used in redundant cable-stayed bridges.

These Recommendations are intended to be used in conjunction with the appropriate provisions of the “LRFD Bridge Design Specifications,” from the American Association of State Highway and Transportation Officials (AASHTO LRFD).

This edition supersedes all previous editions. Standards and specifications shall refer to the latest edition unless a specific date is given.

Updated items include saddle testing provisions, fire resistance qualification testing and vibration control system requirements.

Published September 2018

108 pages

DC50.1-98 Abstract:

This publication provides specific technical requirements for the approval and acceptance of post-tensioning systems. Standards and performance requirements for prestressing materials, bearing plates, wedge plates, connections, and sheathing are discussed in detail. Qualification tests and acceptance criteria are presented for each of the individual components as well as for the complete system. A system approval summary outlines the test requirements and number of successful tests necessary for approval of a post-tensioning system. This document is not intended to cover unbonded

Published 1998

M50.3-19 Abstract:

This is a second edition of a comprehensive Specification providing minimum requirements for the post-tensioning system component testing and acceptance, design, and installation of multistrand and grouted post-tensioning systems. Based on proven knowledge and developed with the ANSI consensus process, it addresses the selection of tendon protection levels, system components, materials, installation, and stressing of post-tensioning tendons. It provides requirements and guidance for furnishing complete post-tensioning systems and all required accessories, including but not limited to anchorages, local zone reinforcement, ducts, pipes, strands, and bars from a single supplier, as required. Provisions further address submittal samples, drawings, calculations, procedures, reports, manuals, and certifica¬tions. Both temporary and permanent post-tensioning is covered in this Specification.

This Specification should be used in its entirety to avoid unnecessary differences in requirements and provisions out of context. It is primarily intended for use in bridges but is also applicable to a wide variety of structure types, including buildings. The companion document PTI M55.1, Specification for Grouting of Post-Tensioned Structures, should be used in conjunction with this document.

One of the major features of this edition is the addition of a Commentary that provides guidance for most mandatory provisions of the Specification. Grouting related items that are installed with the ducts are now included. The PT duct provisions are expanded to allow for use of either fib Bulletin 7 or 75, depending on project needs. Pourback details are provided in the Appendix. Many other provisions received smaller revisions.

Published August 2019

M55.1-19 Abstract:

M55.1-19: Specification for Grouting of PT Structures

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Description

This is a fourth edition of a comprehensive Specification providing minimum requirements for the selection, design, testing, and installation of cementitious grouts. Based on proven knowledge and developed with the ANSI consensus process, it addresses grout materials, QA/QC testing, and detailed grouting procedures. It provides requirements and guidance for the different Classes of post-tensioning grout materials related to the tendon protection levels and the qualification testing for PT grout materials. It also covers mixing and pumping procedures, production testing, and post grouting inspection.

This Specification should be used in its entirety to avoid unnecessary differences in requirements and provisions out of context. It is primarily intended for use in bridges but is also applicable to a wide variety of structure types, including buildings. The companion document PTI/ASBI M50.3, Specification for Multistrand and Grouted Post-Tensioning, should be used in conjunction with this document.

This edition of the Specification includes many far-reaching modifications that directly address grouting issues encountered in the past; some of them are:

• Wet density testing at last outlet of each tendon to ensure grout quality and documentation

• Robustness test; grout testing with 110% of maximum recommended water

• Field testing for acid-soluble chloride ion (Cl-) based on either cement weight or weight of mixed grout

• Grout material bag weight and sulfate ion level certification

• New addition of shelf life requirements

• Explicit prohibition of tendon flushing

Published August 2019

 

Table of Contents

DC45.1-18: Recommendations for Stay Cable Design, Testing and Installation (Digital Format)

1.0 — SCOPE

1.1 — Referenced standards and specifications

1.1.1 — American Association of State Highway and Transportation Officials (AASHTO)

1.1.2 — American Welding Society (AWS)

1.1.3 — ASTM International

1.1.4 — British Standards Institute

1.1.5 — California Department of Transportation (CALTRANS)

1.1.6 — European Committee for Standardization

1.1.7 — Federal Highway Administration (FHWA)

1.1.8 — French Association for Standardization

1.1.9 — German Institute for Standardization

1.1.10 — International Federation for Structural Concrete (fib)

1.1.11 — Post-Tensioning Institute (PTI)

1.1.12 — SSPC: Society for Protective Coatings

1.1.13 — Swiss Society of Engineers and Architects

2.0 — NOTATION, DEFINITIONS, AND ABBREVIATIONS

2.1 — Notation

2.2 — Definitions

2.3 — Abbreviations

3.0 — MATERIALS

3.1 — General

3.2 — Main tension elements

3.2.1 — Wire

3.2.1.1 — Quality control

3.2.2 — Strand

3.2.2.1 — Quality control

3.2.3 — Epoxy-coated strand

3.2.3.1 — Quality control

3.2.3.2 — Surface preparation

3.2.3.3 — Application of epoxy coating

3.2.3.4 — Inspection of materials

3.2.3.5 — Replacement of rejected epoxy strand

3.2.4 — Bar

3.2.4.1 — Quality control

3.2.5 — Wire or strand not specifically itemized in ASTM A421/A421M or A416/A416M

3.2.6 — Bars not specifically itemized in ASTM A722/A722M

3.3 — Individually sheathed strands with corrosion-inhibiting coating

3.3.1 — Surface preparation

3.3.2 — Application of corrosion-inhibiting coating

3.3.2.1 — Quality control

3.3.3 — Application of sheathing

3.3.4 — Inspection

3.3.5 — Replacement of rejected sheathed strand

3.3.6 — High-density polyethylene material for sheathed strand

3.3.7 — Polypropylene material for sheathed strand

3.3.8 — Corrosion-inhibiting coating material

3.3.9 — Performance tests for individually sheathed polyethylene or polypropylene strand

3.4 — Anchorage components

3.5 — Stay pipe

3.5.1 — Cross-sectional area

3.5.2 — Steel pipe

3.5.2.1 — Coating

3.5.3 — High-density polyethylene pipe

3.5.3.1 — Pipe specifications

3.5.3.2 — Material specifications

3.5.3.3 — Wall thickness

4.0 — SYSTEMS QUALIFICATION AND TESTING

4.1 — Corrosion protection

4.1.1 — General

4.1.2 — Barriers

4.1.2.1 — Anchorage/free length interface

4.1.3 — Materials

4.1.4 — Qualification of barriers

4.1.4.1 — Internal barriers

4.1.4.2 — External barriers

4.1.5 — Qualification of temporary corrosion protec¬tion system

4.1.6 — Qualification of anchorage assembly

4.1.6.1 — Leak test

4.1.6.2 — Preparation

4.1.6.3 — Testing

4.1.7 — Acceptance criteria

4.1.7.1 — Barriers

4.1.7.2 — Anchorage assembly

4.1.8 — Documentation

4.2 — Acceptance testing of stay cables

4.2.1 — Limitations of full-scale acceptance testing of stay cables—seismic loading

4.3 — Acceptance and performance testing of isolated MTE cable saddles

4.3.1 — Introduction

4.3.2 — Testing protocol for saddles

4.3.3 — Friction testing

4.3.3.1 — Testing procedure

4.3.3.2 — Interpretation

4.3.4 — Fatigue, strength, and corrosion protection

4.3.4.1 — Qualification of saddles

4.3.4.2 — Saddle fatigue test

4.3.4.3 — Additional testing

4.3.5 — Acceptance of prior tests of cable saddles

4.4 — Acceptance of prior tests of stay cables

4.5 — Quality control of other stay cable components

4.6 — Fire resistance qualification testing

4.6.1 — Furnace and test temperatures

4.6.2 — Test specimen and monitoring temperature of MTE

4.7 — Summary of testing requirements

5.0 — LRFD DESIGN

5.1 — Loads

5.1.1 — Dead loads

5.1.2 — Live loads

5.1.3 — Fatigue load

5.1.4 — Dynamic load allowance

5.1.5 — Wind loads on stay cables

5.1.6 — Thermal loads

5.2 — Wind-induced vibrations

5.2.1 — Mechanisms of dynamic excitation

5.2.2 — Monitoring of cable vibrations

5.2.3 — Design provisions

5.2.3.1 — Contingency measures

5.2.3.2 — Rain-wind-induced vibrations

5.2.3.4 — Aerodynamic contour of cable

5.2.3.5 — Damping

5.2.3.6 — Stabilizing cables

5.2.3.7 — Connections

5.2.3.8 — Rattling

5.3 — Design

5.3.1 — Design limit states

5.3.2 — Load factors and combinations

5.3.2.1 — Construction limit state

5.3.3 — Resistance factors

5.3.3.1 — Special seismic resistance factors

5.3.4 — Bending effects—free length

5.3.4.1 — Strength of stay cable anchorages for lateral loads

5.3.5 — Fatigue limit state

5.4 — Cable replacement

5.5 — Loss of cable

5.5.1 — Cable loss due to fire

5.6 — Construction

5.7 — Design of cable saddles

5.7.1 — General

5.7.1.1 — Design requirements

5.7.2 — Design criteria

5.7.2.1 — Cable radius

5.7.2.2 — Slip and force transfer

5.7.2.3 — Cable bending stresses

5.7.2.4 — Cable loss with saddles

5.7.2.5 — Analytical requirements for seismic loading

5.7.3 — Detailing

5.7.3.1 — Corrosion protection system

5.7.3.2 — Qualification of saddle corrosion protection system details

5.7.4 — Testing

5.7.4.1 — Saddle design testing

5.7.4.2 — Fatigue testing

5.7.4.3 — Friction testing

5.8 — Alternative stay cable systems

5.9 — Guide pipe minimum design forces

5.10 — Extrados/low-fatigue stay systems

6.0 — INSTALLATION OF STAY CABLES

6.1 — Quality control program

6.2 — Fabrication

6.2.1 — General

6.2.2 — Prefabrication

6.2.3 — Site fabrication

6.3 — Handling of stay cable components

6.3.1 — Procedures

6.3.2 — Cable protection and coiling

6.3.3 — Equipment and lifting devices

6.3.4 — Damage and repair

6.4 — Packing and shipping

6.4.1 — Stay cable metallic components

6.4.2 — Strands, wires, and bars

6.4.2.1 — Bare strands and wires

6.4.2.2 — Bare bars

6.4.2.3 — Epoxy-coated, galvanized, or sheathed strand

6.4.3 — Anchor and socket assemblies

6.4.4 — Pipe

6.4.4.1 — High-density polyethylene pipe without tension element

6.4.4.2 — Steel pipe

6.4.5 — Preassembled cables with HDPE pipe

6.5 — Material site inspection

6.6 — Storage

6.6.1 — Requirements and limitations

6.6.2 — Facility

6.6.3 — Environmental control

6.7 — Pre-installation inspection

6.7.1 — Bare, epoxy-coated, galvanized, or sheathed strands and wire

6.7.2 — Bare strands and wires

6.7.3 — Epoxy-coated or sheathed strands

6.7.4 — Bar

6.7.5 — High-density polyethylene pipe

6.7.6 — Steel pipe

6.7.7 — Pre-assembled cable

6.7.8 — Anchors and socket assemblies

6.8 — Stay pipe assembly preparation

6.8.1 — High-density polyethylene pipe

6.8.1.1 — Pipe length

6.8.1.2 — Fusion welds

6.8.2 — Steel pipe

6.8.2.1 — Welding requirements

6.8.2.2 — Inspection for steel pipe welding

6.9 — Installation

6.9.1 — Installation program

6.9.1.1 — Cable alignment and centering devices

6.9.1.2 — Minimum cable forces

6.9.1.3 — Final acceptance of stay forces

6.9.2 — Vibration control

6.9.3 — Jacks and gauges

6.9.4 — Stressing

6.9.5 — Detensioning

6.9.6 — Installation records

6.9.6.1 — Monitoring

6.9.6.2 — Permanent records

7.0 — STAY CABLE INSPECTION AND MONITORING

7.1 — General

7.1.1 — Design considerations

7.1.2 — Inspection and maintenance

7.1.3 — Inspections

7.2 — Visual inspection of stays

7.3 — Condition evaluation

7.4 — Non-destructive evaluation and monitoring

7.5 — Frequency of inspection

7.6 — Monitoring of cable vibrations

7.7 — Cable inspection and maintenance manual

7.7.1 — Items for inspection and maintenance manual

8.0 — VIBRATION CONTROL SYSTEM PERFOR¬MANCE

8.1 — Requirements

8.2 — Working amplitudes

8.3 — Extreme amplitudes

8.4 — Operational conditions

8.5 — Amplitude effect on anchors

8.6 — Inherent structural damping

8.7 — Performance verification

9.0 — CITED REFERENCES

APPENDIX A—DETAILS OF “ONE PIN TEST”

APPENDIX B — SAMPLE OF GALVANIZED STRAND SPECIFICATIONS

APPENDIX C — CORROSION PROTECTION SYSTEM DETAIL

App.C.1 — Temporary corrosion protection

App.C.2 — Wrapping with protective tape

App.C.3 — Coating for steel pipe

App.C.3.1 — Shop-applied prime coat

App.C.3.1.1 — Surface preparation

App.C.3.1.2 — Prime coat preparation

App.C.3.1.3 — Prime coat application

App.C.3.1.4 — Quality inspection for prime coat

App.C.3.2 — Field-applied intermediate and finish coats

App.C.4 — Portland cement grout

App.C.4.1 — General

APPENDIX D — CONVERSION FACTORS SI TO US UNITS

APPENDIX E — ALTERNATE SADDLE FATIGUE TEST SETUP

M50.1-98: Acceptance Standards for PT Systems (Digital Format)

TABLE OF CONTENTS

SYSTEM APPROVAL TEST REQUIREMENT SUMMARY

1 SCOPE

1.1 References

1.2 Definitions

2 PRESTRESSING MATERIALS

2.1 Strands

2.2 Bars

2.3 Special Prestressing Materials

3 BEARING PLATES

3.1 Basic Bearing Plates Design Criteria

3.2 Special Bearing Plates Testing Requirements

4 CONNECTIONS

4.1 Strand-Wedge Connections

4.2 Bar-Anchor Nut and Bar-Coupler Connection Performance Requirements

5 SHEATHING

5.1 Duct for Bonded Tendons General Performance Requirements

5.2 Duct for External Tendons

5.3 Sheath for Ground Anchors

5.4 Transition

5.5 Grouting Attachments

6 QUALIFICATION TESTS

6.1 Number of Required Component Qualification Tests

6.2 System Qualification Tests

7 INSTALLATION EQUIPMENT

7.1 Stressing Equipment

7.2 Strand Installation Equipment

7.3 Grouting Equipment

INDEX

M50.3-19: Specification for Multistrand and Grouted Post-Tensioning (Digital Format)

1.0 — INTRODUCTION

1.1 — General description

1.2 — Alternative post-tensioning scheme

1.3 — Referenced standards and specifications

2.0 — DEFINITIONS AND ABBREVIATIONS

2.1 — Definitions

2.2 – Abbreviations

3.0 — POST-TENSIONING SYSTEM (PTS) TENDON PROTECTION LEVELS (PL)

3.1 — Protection Level 1A (PL-1A)

3.2 — Protection Level 1B (PL-1B)

3.3 — Protection Level 2 (PL-2)

3.4 — Protection Level 3 (PL-3)

4.0 — MATERIAL AND PERFORMANCE REQUIREMENTS

4.1 — General

4.2 — Material standards

4.2.1 — Strand

4.2.2 — Bar

4.2.3 – Special prestressing materials

4.3 — Component standards

4.3.1 — General

4.3.2 — Post-tensioning anchorages

4.3.3 — Permanent grout caps

4.3.4 — Bar couplers

4.3.5 — Duct

4.3.5.1 — Corrugated metal duct

4.3.5.2 — Corrugated plastic duct

4.3.5.3 — Smooth HDPE duct

4.3.6 — Duct connections and fittings

4.3.7 — Heat-shrink sleeves

4.3.8 — Precast segmental duct couplers

4.3.9 — External smooth HDPE duct connections

4.3.10 — Rigid ducts and steel pipes

4.3.11 — Connection tolerance between pipe and duct

4.3.12 — Inlets, outlets, valves, and plugs

4.4 — System approval testing

4.4.1 — Post-tensioning anchorages

4.4.2 — Grouting component assembly pressure test (PL-1B, PL-2, and PL-3 only) and system safety proof test (PL-1A only)

4.4.3 — Duct testing

4.4.4 — Corrugated plastic duct

4.4.5 — System pressure tests

4.4.5.1 — Corrugated plastic duct connections

4.4.5.2 — Precast segmental duct couplers

4.4.5.3 — Internal duct systems

4.4.5.4 — External duct systems

5.0 — INSTALLATION DRAWINGS AND STRESSING CALCULATIONS

5.1 — General

5.2 — System drawings

5.3 — Tendon drawings

5.3.1 — Plans and elevations

5.3.2 — Sections

5.3.3 —Measurements

5.3.4 — Tolerances

5.3.5 — Stressing data

5.3.6 — Material take-off

5.3.7 — Temporary openings for PT work

5.3.8 — Installation requirements

5.4 — Stressing calculations

6.0 — QUALITY ASSURANCE AND QUALITY CONTROL (QA/QC)

6.1 — QA program

6.2 — Procurement

6.3 — Project quality plan

6.4 — Receiving

6.4.1 — Wedges

6.4.2 — Prestressing steel

6.4.3 — Anchorages

6.5 — Identification and traceability of materials

6.6 — Sampling of prestressing material

6.7 — Defects during installation

7.0 — PERSONNEL QUALIFICATIONS

7.1 — Supervision

8.0 — SHIPPING AND STORAGE OF MATERIALS

8.1 — General

8.2 — Anchorages

8.3 — Wedges

8.4 — Metal duct

8.5 — Plastic duct

8.6 — Strand

8.7 — Bars

8.8 — Cement and grout

8.9 — Accessories

9.0 — BEARING PLATE AND DUCT INSTALLATION

9.1 — General

9.2 — Measurements

9.3 — Tolerances

9.4 — Anchorage components

9.5 — Deviation pipes

9.6 — Ducts

9.7 — Accessories

9.8 — Splices and joints

9.9 — Location of grout inlets and outlets

10.0 — PLACING CONCRETE

10.1 — Precautions

10.2 — Proving of post-tensioning ducts

10.3 — Problems and remedies

11.0 — PRESTRESSING STEEL INSTALLATION

11.1 — General

11.2 — Strand

11.3 — Bar

11.4 — Corrosion protection

11.5 — Acceptance criteria

12.0 — STRESSING OPERATIONS

12.1 — General

12.2 — Maximum stress at jacking

12.3 — Stressing sequence

12.4 — Stressing jacks and gauges

12.5 — Calibration of jacks and gauges

12.6 — Elongations and agreement with forces

12.7 — Friction testing

12.8 — Wire failures in strand tendons

12.9 — Cutting of post-tensioning steel

12.10 — Capping of tendons

12.11 — Record of stressing operations

13.0 — GROUTING OPERATIONS

13.1 — Duct air test

14.0 — PROTECTION OF POST-TENSIONING ANCHORAGES

14.1 — General

14.2 — Pourbacks

14.3 — Anchorage coating system

15.0 — REPAIRS OF HOLES AND ACCESS OPENINGS

15.1 — Openings

16.0 — REFERENCES

APPENDIX A – TYPICAL POURBACK DETAILS AND INLET AND OUTLET DETAILS

APPENDIX B – TYPICAL REPAIR DETAILS FOR ACCESS OPENINGS, BLOCKOUTS, AND HOLES

M55.1-19: Specification for Grouting of PT Structures (Digital Format)

1.0 — INTRODUCTION

1.1 — Scope

1.2 — Uses

1.3 — Key factors

1.4 — Definitions

1.5 – Referenced standards and specifications

1.5.1 – American National Standards Institute (ANSI)/American Petroleum Institute (API)

1.5.2 — ASTM International

1.5.3 – Federal Highway Administration (FHWA)

1.6 — Post-Tensioning System (PTS) Tendon Protection Levels (PL)

2.0 — MATERIALS

2.1 — General

2.2 — Portland cement

2.3 — Supplemental cementitious materials

2.4 — Chemical admixtures

2.4.1 — Set-controlling admixtures

2.4.2 — Air-entraining admixtures

2.4.3 — Anti-bleeding admixtures

2.4.4 — Expansion-causing admixtures

2.4.5 — Corrosion inhibitors

2.5 — Aggregates

2.6 — Water

2.7 — Ducts

2.8 — Inlets and outlets

2.9 — Grout caps

2.10 — Traceability of materials

3.0 — DESIGN

3.1 — General

3.2 — Scope

3.3 — Class A, B, C, and D grouts

3.3.1 — Positive pressure grouting

3.3.3 — Proportions of grout

3.3.4 — Chloride ion content

3.4 — Testing requirements for Class A, B, C, and D grouts

3.4.1 — Class A

3.4.2 — Classes B and C

3.4.3 — Class D

4.0 — TESTING, QUALITY CONTROL, AND QUALITY ASSURANCE

4.1 — General

4.2 — Scope

4.3 — Materials certifications

4.4 — Laboratory testing

4.4.1 — Non-prepackaged grouts

4.4.2 — Prepackaged grouts

4.4.3 — Setting time test

4.4.4 — Grout strength test

4.4.5 — Permeability test

4.4.6 — Volume change test

4.4.7 — Pumpability and fluidity tests

4.4.8 — Bleed tests

4.4.9 — Corrosion test

4.4.10 — Wet density test

4.4.11 — Inclined tube test

4.4.12 — Shelf life test

4.5 — Personnel qualifications

4.6 — Grouting procedures

4.6.1 — Written grouting procedures

4.6.2 — Mixing and placing grout

4.7 — Field testing

4.7.1 — Field trial tests

4.7.2 — Field mockup tests

4.7.3 – Production tests

5.0 — CONSTRUCTION

5.1 — General

5.2 — Time to grouting and temporary corrosion protection

5.3 — Preparation for grouting operations

5.3.1 — Materials and equipment

5.3.2 — Ducts

5.3.3 — Inlets and outlets

5.3.4 — Operators

5.3.5 — Safety

5.3.6 — Supplies

5.3.7 — Testing equipment

5.4 — Storage of materials

5.5 — Equipment

5.5.1 — General

5.5.2 — Mixer, storage hopper, and screen

5.5.3 — Grout injection equipment

5.5.4 — Duct air test

5.5.5 — Backup equipment

5.6 — Mixing and injecting of non-thixotropic grouts

5.6.1 — Batching and mixing of grout

5.6.2 — Preparation for grouting

5.6.3 — Grouting operations

5.6.4 — Vertical grouting

5.6.5 — Post-grouting operations

5.6.6 — Measures to be taken after grouting

5.6.7 — Checklist and record of grouting operation

5.7 — Temperature considerations

5.7.1 — Hot climates

5.7.2 — Cold climates

6.0 — REFERENCES

APPENDIX A — TROUBLESHOOTING GROUTING PROBLEMS

A.1 — Problems and solutions

A.1.1 — Duct line plugs

A.1.2 — Downtime, equipment failures, and outages

A.1.3 — Cross grouting (unintended grout flow between ducts)

APPENDIX B — STANDARD TEST METHOD FOR EVALUATION OF CORROSION PROTECTION CAPABILITY OF PT GROUTS (ACCELERATED CORROSION TEST FOR GROUTS)

Scope

Referenced documents

ASTM Standards

Significance and use

Apparatus

Test specimens

Instrumentation

Experimental procedure

Precision and bias

Keywords

APPENDIX C – GROUTING CHECKLIST – SAMPLE

APPENDIX D – GROUTING RECORD FORM – SAMPLE

ADDENDA AND ERRATA INFO

Any applicable addenda or errata are included with individual documents at the time of purchase. For a listing of and access to all product addenda and errata, visit the Addenda and Errata page. Errata page.

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