Prof. Devdas Menon & Prof. Amlan Kumar Sengupta
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CONTENTS
Chapter 1: Introduction, Prestressing Systems and Material Properties
1.1 Introduction
1.2 Advantages and Types of Prestressing
1.3 Pre-tensioning Systems and Devices
1.4 Post-tensioning Systems and Devices
1.5 Concrete (Part I)
1.6 Concrete (Part II)
1.7 Prestressing Steel
Chapter 2: Losses in Prestress
2.1 Losses in Prestress (Part I)
2.2 Losses in Prestress (Part II)
2.3 Losses in Prestress (Part III)
Chapter 3: Analysis of Members
3.1 Analysis of Members under Axial Load
3.2 Analysis of Member under Flexure (Part I)
3.3 Analysis of Member under Flexure (Part II)
3.4 Analysis of Member under Flexure (Part III)
3.5 Analysis of Member under Flexure (Part IV)
3.6 Analysis of Member under Flexure (Part V)
Chapter 4: Design of Members
4.1 Design of Members
4.2 Design of Sections for Flexure (Part I)
4.3 Design of Sections for Flexure (Part II)
4.4 Design of Sections for Flexure (Part III)
4.5 Design of Sections for Flexure (Part IV)
4.6 Detailing Requirements for Flexure
Chapter 5: Analysis and Design for Shear and Torsion
5.1 Analysis for Shear
5.2 Design for Shear (Part I)
5.3 Design for Shear (Part II)
5.4 Analysis for Torsion
5.5 Design for Torsion (Part I)
5.6 Design for Torsion (Part II)
Chapter 6: Calculations of Deflection and Crack Width
6.1 Calculation of Deflection
6.2 Calculation of Crack Width
Chapter 7: Transmission of Prestress
7.1 Transmission of Prestress (Part I)
7.2 Transmission of Prestress (Part II)
Chapter 8: Cantilever and Continuous Beams
8.1 Cantilever Beams
8.2 Continuous Beams (Part I)
8.3 Continuous Beams (Part II)
Chapter 9: Special Topics
9.1 Composite Sections
9.2 One-way Slabs
9.3 Two-way Slabs (Part I)
9.4 Two-way Slabs (Part II)
9.5 Compression Members
9.6 Circular Prestressing
Click
after waiting 5s to get mediafire link.CONTENTS
Chapter 1: Introduction, Prestressing Systems and Material Properties
1.1 Introduction
1.2 Advantages and Types of Prestressing
1.3 Pre-tensioning Systems and Devices
1.4 Post-tensioning Systems and Devices
1.5 Concrete (Part I)
1.6 Concrete (Part II)
1.7 Prestressing Steel
Chapter 2: Losses in Prestress
2.1 Losses in Prestress (Part I)
2.2 Losses in Prestress (Part II)
2.3 Losses in Prestress (Part III)
Chapter 3: Analysis of Members
3.1 Analysis of Members under Axial Load
3.2 Analysis of Member under Flexure (Part I)
3.3 Analysis of Member under Flexure (Part II)
3.4 Analysis of Member under Flexure (Part III)
3.5 Analysis of Member under Flexure (Part IV)
3.6 Analysis of Member under Flexure (Part V)
Chapter 4: Design of Members
4.1 Design of Members
4.2 Design of Sections for Flexure (Part I)
4.3 Design of Sections for Flexure (Part II)
4.4 Design of Sections for Flexure (Part III)
4.5 Design of Sections for Flexure (Part IV)
4.6 Detailing Requirements for Flexure
Chapter 5: Analysis and Design for Shear and Torsion
5.1 Analysis for Shear
5.2 Design for Shear (Part I)
5.3 Design for Shear (Part II)
5.4 Analysis for Torsion
5.5 Design for Torsion (Part I)
5.6 Design for Torsion (Part II)
Chapter 6: Calculations of Deflection and Crack Width
6.1 Calculation of Deflection
6.2 Calculation of Crack Width
Chapter 7: Transmission of Prestress
7.1 Transmission of Prestress (Part I)
7.2 Transmission of Prestress (Part II)
Chapter 8: Cantilever and Continuous Beams
8.1 Cantilever Beams
8.2 Continuous Beams (Part I)
8.3 Continuous Beams (Part II)
Chapter 9: Special Topics
9.1 Composite Sections
9.2 One-way Slabs
9.3 Two-way Slabs (Part I)
9.4 Two-way Slabs (Part II)
9.5 Compression Members
9.6 Circular Prestressing
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