NCHRP Report 679: Design of Concrete Structures Using High-Strength Steel Reinforcement

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NCHRP Report 679: Design of Concrete Structures Using High-Strength Steel Reinforcement (2011)
National Cooperative Highway Research Program (NCHRP)

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Russell, Henry G, Miller, Richard A, Harries, Kent A, Shahrooz, Bahram M, Transportation Research Board. "Front Matter." NCHRP Report 679: Design of Concrete Structures Using High-Strength Steel Reinforcement. Washington, DC: The National Academies Press, 2011.

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Front Matter (R1-R10)

1.1 Introduction (5-5)

1.3.1 Mechanical Properties of A1035 Reinforcing Steel (6-6)

1.3.2 Tension Properties of A1035 Reinforcing Steel (7-7)

1.3.3 Flexural Reinforcement (8-8)

1.3.4 Shear Reinforcement (9-9)

1.3.6 Bond and Development (10-10)

1.3.7 Serviceability Considerations (11-12)

1.3.8 Corrosion Performance of Reinforcing Steel Grades (13-13)

1.4 Survey of Use of High-Strength Steel Reinforcement in Bridge Structures (14-14)

1.4.2 Reported Use of A1035 Reinforcing Steel in Highway Bridge Infrastructure (15-15)

2.2.1 ASTM A1035 Reinforcing Steel (16-17)

2.3.1 Flexural Resistance (18-20)

2.3.2 Tension-Controlled and Compression-Controlled Strain Limits for High-Strength ASTM A1035 Reinforcing Bars (21-22)

2.3.4 Experimental Evaluation (23-24)

2.3.5 Summary and Recommendations (25-25)

2.4 Fatigue Performance of High-Strength Reinforcing Steel (26-26)

2.4.2 Effect of High-Strength Steel on the AASHTO Fatigue Provisions (27-27)

2.4.3 Fatigue of Slabs (AASHTO LRFD Section 9) (28-28)

2.4.4 Fatigue Test Specimens (29-29)

2.4.5 Summary of Fatigue Tests and Conclusions (30-31)

2.5.2 Experimental Evaluation (32-36)

2.6 Shear Friction (37-37)

2.6.1 Experimental Program (38-39)

2.6.2 Experimental Results (40-42)

2.7 Compression Members (43-43)

2.7.1 Column Capacity (44-44)

2.7.2 Spacing of Spiral Reinforcement (45-47)

2.8.1 Splice Development (48-49)

2.8.2 Hook Anchorage (50-54)

2.9 Serviceability Considerations (55-55)

2.9.1 Deflections of Flexural Members (56-56)

2.9.2 Crack Widths (57-57)

2.9.3 Summary and Conclusions (58-58)

3.1.3 Proposed Changes to Section 9 of the LRFD Specifications (59-60)

3.2.2 Flexure (61-61)

3.3.1 Application in Seismic Zones 2, 3, and 4 (62-62)

3.3.5 Control of Flexural Cracking and Corrosion (63-63)

References (64-67)

Notation (68-71)

Appendices (72-72)

Abbreviations used without definitions in TRB publications (73-73)