ENCE 464 Structural Engineering Design II (3)

 

Required course for majors in the civil specialty.

 

Catalog Description:           

Advanced design criteria in structures.  Behavior of steel and concrete structures.  AISC and ACI codes.  Fall semester   

Lecture 3 hours. 

                                                                         

Prerequisites:

ENCE 364 with a grade of C or better.

 

Corequisites:

None

 

Textbook/References:

Reinforced Concrete by E. G. Nawy – 5^th edition (uses 2002 ACI code), Prentice Hall

Manual of Steel Construction – ASD & LRFD

Design of Steel & Concrete Structures Lecture Notes – Dr. Ed Foster

                The Tower & The Bridge by David P. Billington, Princeton Univ. Press

                RISA3d free structural analysis & design program (download is free)

 

Course Objectives: (numbers in parentheses indicate relationship to engineering program outcomes)

At the completion of the course, students will have demonstrated the ability to

·         Analyze a concrete beam with compression reinforcement & check their calculations using the TK-Solver program.  (2, 4)

·         Design a concrete beam with compression reinforcement & verify the design using the TK computer program (2, 4)

·         Optimize (by using least weight of concrete) the design of a beam with compression reinforcement. (2, 4)

·         Analyze a concrete column and check with computer, draw interaction diagram (2, 4)

·         Demonstrate understanding of the column interaction diagram. (2, 4)

·         Design a column, check with computer. (2, 4)

·         Demonstrate an understanding of development length. (2, 4)

·         Design the development length for a bean. (2, 4)

·         Design a steel tension member using the LRFD code & write a TK-Solver program to do the same. (2, 3)

·         Design a beam that has full lateral support – use LRFD. (2, 4)

·         Design a beam without full lateral support – use LRFD. (2, 4)

·         Design a welded connection by the AISC-ASD code & extend the general TK-Solver program to your weld shape. (2, 4)

·         Demonstrate knowledge of structural engineering history. (2, 4)

 

Class/Laboratory Schedule:            

Lecture either three times per week for 50 minutes per class or two times per week for 75 minutes per class.

 

Topics Covered:

                                 

Week              Topic                                                             

Steel-ASD

1              Bolt & Weld design – ASD; Tower & Bridge – Chapter 7

Concrete

2-3          Doubly reinforced beam analysis & design, Tower & Bridge – Chapter 8,9

4              Deflections, Cracking and Development Lengths; Tower & Bridge – Chapter 10

5              Columns , Tower & Bridge – Chapter 11

6              Design of Members Subject to Axial Load and bending

Steel-LRFD

7              Tension Members, Tower & Bridge – Chapter 12

8,9          Beams

10                  Columns, Tower & Bridge ‑ Chapter 13 (p 233-250)

11            Tower & Bridge Chapter 13 (p 250-266)

12            Continuous Beams and Frames

13-15         Advanced structural design topics & design project

               

Contribution to Professional Component:

Contributes toward the 1.5 years of engineering topics as a 3 credit hour course in engineering sciences and engineering design.

 

Relationship to Program Outcomes:

This course supports engineering outcomes 2 and 4.

 

Prepared by:         Dr. Edwin P. Foster, 04/02/03