Description

The first edition of the Post-Tensioning Manual was published in 1972. The manual provided the industry standard for the design and construction of post-tensioned structures. Subsequent editions reflected the growing use of post-tensioning.

There have been significant advancements in post-tensioning technology in the last two decades. Post-tensioning is now used in many new areas, ranging from residential slabs-on-ground to large stay cable bridges. As a result, the sixth edition contains updated information on the current practices in the use, design, and construction of post-tensioning. The sixth edition has been extensively rewritten and expanded from the fifth edition, which was published in 1990. The manual contains 12 new chapters that give design guidance on modern applications of post-tensioning. All of the original chapters have been completely revised and modified to reflect the current industry practices. New topics include seismic design, post-tensioned concrete floors, parking structures, slabs-on-ground, bridges, stay cables, storage structures, barrier cables, dynamic and fatigue, durability, inspection and maintenance, and field and plant certification. This book is an invaluable resource for practicing engineers, architects, students, educators, contractors, inspectors, and building officials, providing basic information and essential principles of post-tensioning.

Features:

Industry standard for the design and construction of post-tensioned structures

Significant additions and updates:

12 new chapters that give design guidance on modern applications of post-tensioning

All of the original chapters have been completely revised and modified to reflect the current industry practices

New topics include seismic design, post-tensioned concrete floors, parking structures, slabs-on-ground, bridges, stay cables, storage structures, barrier cables, dynamic and fatigue, durability, inspection and maintenance, and field and plant certification

354 pages; 8½ x 11 in. (hard cover)

Published 2006

Table of Contents

1. Introduction

1.1 History

1.2 Usage

1.3 State-of-the-Art Developments

1.4 Post-Tensioning Institute

1.5 Changes from Earlier Editions

1.6 Summary

2. Applications

2.1 Introduction

2.2 Buildings

2.3 Parking Structures

2.4 Bridges

2.5 Storage Structures

2.6 Grandstands and Stadiums

2.7 Staged Construction / Transfer Girders

2.8 Tension Members

2.9 Rock and Soil Anchors

2.10 Post-Tensioned Slabs-on-Ground

2.11 Masonry Structures

2.12 Barrier Cables

2.13 Repair and Rehabilitation

3. Post-Tensioning Systems

3.1 General

3.2 Types of Post-Tensioning Systems

3.3 Components of a Tendon

3.4 Choice of a Post-Tensioning System

4. Specifying Post-Tensioning

4.1 Reference Standards

4.2 Post-Tensioning Materials

4.3 Specifying Unbonded Single-Strand Tendons

4.4 Specifying Bonded Tendons

5. Analysis and Design Fundamentals

5.1 Basics of Post-Tensioned Concrete

5.2 Flexural Analysis

5.3 Flexural Design

5.4 Shear

5.5 Variable Prestress Force

5.6 Prestress Losses

6. Detailing and Construction Procedures for Buildings

6.1 General

6.2 Design Issues

6.3 Construction Issues

6.4 General Notes / Standard Details

6.5 Construction Procedures

6.6 Special Issues

7. Design Examples

7.1 Introduction

7.2 Design of a One-Way Slab in a Parking Structure

7.3 Design of a Two-Way Slab

7.4 Design of a Single Span Cast-in-Place T-Beam

7.5 Analysis of a Two Span T-Beam

7.6 Anchorage Zone Design

8. Seismic Design of Post-Tensioned Concrete Structures

8.1 Introduction

8.2 Role of Post-Tensioning in Seismic Design

8.3 Post-Tensioned Member Design

8.4 Seismic Performance of Unbonded PT Wall and Frame Systems

9. Post-Tensioned Concrete Floors

9.1 Floor Framing Systems

9.2 Planning and Design of Post-Tensioned Floor Systems

10. Post-Tensioned Parking Structures

10.1 Introduction

10.2 Applications of Post-Tensioning in Parking Structures

10.3 Economics of Parking Structures

10.4 Additional Design Requirements for PT Parking Structures

11. Post-Tensioned Slabs-on-Ground

11.2 Foundations for Residential and Light Commercial Construction

11.3 Post-Tensioned Slabs Used in Commercial and Industrial Applications

11.4 Post-Tensioned Sport Courts

11.5 Other Types of Post-Tensioned Slabs-on-Ground

11.6 Materials

12. Bridges

12.1 Introduction

12.2 Benefits of Post-Tensioning in Bridge Design and Construction

12.3 Historical Overview

12.4 Design Concepts

12.5 Design Concepts for Girder Bridges

12.6 Design Concepts for Slab Bridges

12.7 Design Concepts for Frame Bridges

12.8 Design Concepts for Arch Brides

12.9 Design Concepts for Other Types of Bridges

12.10 Special Applications of Post-Tensioning in Bridges

12.11 The Future

13. Stay Cables

13.1 Introduction

13.2 Engineering of Stay Cable Structures

13.3 Stay Cable Design

13.4 Materials for Stay Cables

13.5 Stay Installation

13.6 Stressing of Stay Cables

14. Storage Structures

14.1 Introduction

14.2 Advantages

14.3 Applications

14.4 Shapes of Storage Structures

14.5 Analysis and Design

14.6 Construction – Key Details and Practices

14.7 Applicable Standards

14.8 Summary

15. Rock and Soil Anchors

15.1 Introduction

15.2 Applications

15.3 Anchor Design

15.4 Construction

15.5 Stressing, Load Testing, and Acceptance

15.6 Acceptance

15.7 Summary

16. Design of Prestressed Barrier Cable Systems

16.1 Introduction

16.2 Building Code Requirements

16.3 Design Considerations

16.4 Prestressing to Eliminate Cable Sag

16.5 Calculating Jacking Force

16.6 Durability and Corrosion Protection

16.7 Design Examples

17. Prestressed Concrete Under Dynamic Loads and Fatigue

17.1 Introduction

17.2 Dynamic Loads

17.3 Dynamic Response

17.4 Fatigue of Prestressed Concrete Materials

17.5 Fatigue of Prestressed Concrete Members

17.6 Summary

18. Fire Resistance

18.1 Scope

18.2 General

18.3 Code Provisions

18.4 Rational Design Procedures

18.5 Additional Information

18.6 Post-Fire Investigations

19. Durability

19.1 Introduction

19.2 Durability in Buildings

19.3 Durability in Parking Structures

19.4 Durability in Bridges

19.5 Unbonded Tendons

19.6 Grouted Tendons

20. Inspection

20.1 Introduction

20.2 Construction Inspection

20.3 Post Construction Inspection

21. Post-Tensioning Institute Certification Programs

21.1 Introduction

21.2 Certification of Plants Producing PC Strand for PT Applications

21.3 Certification of Plants Producing Single-Strand Unbonded Tendons

21.4 Training and Certification of Field Personnel for Unbonded PT

21.5 Training and Certification of Field Personnel for Bonded PT

21.6 Summary

Appendices

A. Design Aids

B. Conversion Factors

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.

Return/Exchange Policy

Printed / Hard Copy Products: If your order is damaged, defective, or incorrect, we acccept its return without question within 30 days of purchase. Returns shipped COD are not accepted. University bookstores and other resellers must receive authorization from PTI to return books in resaleable condition. Authorized returns in resaleable condition are subject to 15% restocking fee.

Electronic /Downloaded Products & Online Learning Courses: These items are not eligible for return.