Civil and Environmental Engineering
CEE 4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics
Georgia Institute of Technology
Fall 2010
FLEXURAL ANALYSIS
HOMEWORK #3
1. The figure below shows a simply supported beam a
Civil and Environmental Engineering
CEE 4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics
Georgia Institute of Technology
Fall 2010
SHEAR IN BEAMS
HOMEWORK #5
1. Compute Vn for the cross sections shown in figure b
Design Basis and Load Analysis
Chapters 2.3-2.8, 5.1-5.2
LECTURE 2-1 LIMIT STATES DESIGN
Dr. David Scott
School of Civil and Environmental Engineering
Georgia Institute of Technology
Acknowledgements:
Pearson Prentice Hall Instructor Resources
Structural
Analysis/Design of Reinforced Concrete
Short Columns
Chapters 11.1 11.5
L6-1 Definitions and Theory
Dr. David Scott
School of Civil and Environmental Engineering
Georgia Institute of Technology
Acknowledgements:
Pearson Prentice Hall Instructor Resources
Serviceability
Chapters 9.2 - 9.5
Dr. David Scott
School of Civil and Environmental Engineering
Georgia Institute of Technology
Acknowledgements:
Pearson Prentice Hall Instructor Resources
What do we mean by serviceability?
The ability of a structure to p
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Civil and Environmental Engineering
CEE 4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics
Georgia Institute of Technology
Fall 2009
SERVICEABILITY
HOMEWORK #8
1. For the cross-section shown below in figure, comput
Civil and Environmental Engineering
CEE 4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics
Georgia Institute of Technology
Fall 2009
SHEAR IN BEAMS
HOMEWORK #6
1. Compute Vn for the cross sections shown in figure b
Civil and Environmental Engineering
CEE 4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics
Georgia Institute of Technology
Fall 2009
ONE-WAY SLABS
HOMEWORK #9
1. A concrete slab cantilevered from the exterior face
Civil and Environmental Engineering
CEE 4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics
Georgia Institute of Technology
Fall 2009
DEVELOPMENT, ANCHORAGE & BAR CUTOFFS
HOMEWORK #7
1. A beam-column joint is shown
Civil and Environmental Engineering
CEE 4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics
Georgia Institute of Technology
Fall 2010
INTRODUCTION CONCRETE AND REINFORCING STEEL MATERIALS
HOMEWORK #2
1. Girder BC of
Civil and Environmental Engineering Structural Engineering and Mechanics
CE4520 — Reinforced Concrete Design Georgia Institute of Technology
Dr. Reginald DesRoches F all 201 0
Homework #1 — SOLUTION
REVIEW OF STRUCTURAL ANALYSIS AND IVIECHANICS
1. Draw
Civil and Environmental Engineering
CEE 4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics
Georgia Institute of Technology
Fall 2010
ANALYSIS OF T-BEAMS AND BEAMS WITH COMPRESSION REINFORCEMENT
HOMEWORK #4
1. Calcu
Flexural Analysis of
Reinforced Concrete Elements
Chapters 4.1-4.9
LS 3-1 Flexural Theory
Dr. David Scott
School of Civil and Environmental Engineering
Georgia Institute of Technology
Acknowledgements:
Pearson Prentice Hall Instructor Resources
Required S
Development and Anchorage of
Reinforcement
Chapters 8.2 - 8.7
LS 7-1 Bond Theory
Dr. David Scott
School of Civil and Environmental Engineering
Georgia Institute of Technology
Acknowledgements:
Pearson Prentice Hall Instructor Resources
Bond Stresses in Re
' ' NAME: 5% N knelt:
Civil and Environmental Engineering VD Structural Engine g and Mechanics
CEE 4520 Reinforced Concrete Demgn Georgia Institute of Technology
Dr. Reginald DesRoches F all 2010
QUIZ #6 Capacity of a Short Column Member
December 2, 2010
Civil and Environmental Engineering
Structural Engineering and Mechanics of Materials
CE4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Georgia Institute of Technology
Spring , 2003
th
HW
HW 109 Solution Due: Tuesday, April 8 , 2003
Column (Bending
Civil and Environmental Engineering
CE4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics of Materials
Georgia Institute of Technology
Spring 2005
HW 3 Due: Solution: Tuesday, Feb 1st , 2005
Analysis and Design of B
Homework
Assigned: 9/27/05
What is the ratio between vertical stress and vertical strain in plane-stress
conditions (the stress normal to the plane is zero and the body is free to deform in this
direction, e.g., a wall)
Plane-stress (2=3=0; 1=vertical dir
Assigned: 8/25/05
How much table salt (NaCl) can be dissolved in 1 liter of water at 20C?
What about at 40C? 60C? What happens when a saturated solution at 60C is
cooled to 20C? Discuss.
Solubility curve (http:/galileo.phys.virginia.edu/education/outreach
Civil and Environmental Engineering
CE4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics of Materials
Georgia Institute of Technology
Spring, 2007
HW 1 Solution Due: Tuesday, January 16, 2007
Review of Structural A
Civil and Environmental Engineering
CE4520 Reinforced Concrete Design
Dr. Reginald DesRoches
Structural Engineering and Mechanics of Materials
Georgia Institute of Technology
Spring, 2005
HW 4 Due: Thursday, February 10th , 2005
Solution - Analysis of Bea