Course syllabus
010813210-65 การออกแบบคอนกรีตเสริมเหล็ก (Reinforced Concrete Design)
Course Syllabus
Data entry : Dr.Pochara Kruavit
1. Course number and name
010813210-65 การออกแบบคอนกรีตเสริมเหล็ก (Reinforced Concrete Design)
2. Credits and contact hours
3(3-0-6)
3. Instructor’s or course coordinator’s name
Dr.Pochara Kruavit
4. Text book, title, author, and year
- Wight, J. K., & MacGregor, J. G. (2016). Reinforced Concrete: Mechanics and Design (7th ed.). Pearson Education
- ACI Committee 318. (2011). Building Code Requirements for Structural Concrete (ACI 318-11) and Commentary (ACI 318R-11)
- วิศวกรรมสถานแห่งประเทศไทย ในพระบรมราชูปถัมภ์. (2564) มาตรฐานสำหรับอาคารคอนกรีตเสริมเหล็กโดยวิธีกำลัง
- วิศวกรรมสถานแห่งประเทศไทย ในพระบรมราชูปถัมภ์. (2562) มาตรฐานสำหรับอาคารคอนกรีตเสริมเหล็กโดยวิธีหน่วยแรงใช้งาน
- พูลศักดิ์ เพียรสุสม, กรวิชญ์ ทิพย์รักษ์ และ วิทิต ปานสุข. (2565) การออกแบบโครงสร้างคอนกรีตเสริมเหล็กด้วยวิธีกำลังในทางปฏิบัติ (Reinforced Concrete Design)
5. Specific course information
- brief description of the content of the course (catalog description)
Study of reinforced concrete materials and their mechanical properties. Analysis of structural behavior under axial load, flexure, shear, torsion, and combined actions. Design of reinforced concrete structural members including beams, slabs, columns, and foundations based on working stress and strength design methods. Reinforcement detailing according to current design codes and standards. - prerequisites or co-requisites
010813103-65 Theory of Structures
010813807-65 Constructions Materials - indicate whether a required, elective, or selected elective (as per Table 5-1) course in the program
Required :
6. Specific goals for the course
- specific outcomes of instruction (e.g. The student will be able to explain the significance of current research about a particular topic.)
- CLO1 Apply mathematics and engineering basic knowledge
- CLO2 Formulate equation, determine forces and stresses
- CLO3 Design or analyze reinforced concrete members
- CLO4 Concerning safety and engineering significance
- explicitly indicate which of the student outcomes listed in Criterion 3 or any other outcomes are addressed by the course.
ABET Student Outcome (SO) Listed in Criterion 3 Course learning outcome (CLO) PO2 : การวิเคราะห์ปัญหาทางวิศวกรรม การวิเคราะห์ปัญหาทางวิศวกรรม - CLO3 Design or analyze reinforced concrete members
7. Brief list of topics to be covered
| Week | Topic | Details | Activities |
|---|---|---|---|
| 1 | Introduction to Reinforced Concrete Structures | Overview of reinforced concrete structures, advantages and disadvantages of reinforced concrete compared with other structural materials, basic components of reinforced concrete members, and introduction to reinforced concrete construction drawings. | Lecture and discussion on reinforced concrete structures and review of typical reinforced concrete structural components and construction drawings. |
| 2 | Reinforced Concrete Materials and Properties | Mechanical properties of concrete and reinforcing steel, stress–strain behavior, factors affecting strength and durability of reinforced concrete. | Lecture and example problems related to reinforced concrete material behavior. |
| 3 | Structural Loads and Load Combinations | Types of loads acting on structures, load combinations according to design codes, and application in reinforced concrete design. | Lecture and calculation examples of load combinations in structural design. |
| 4 | Theory and Assumptions of Reinforced Concrete Design | Fundamental assumptions in reinforced concrete analysis and design, behavior of reinforced concrete members under loading, and basic concepts used in design codes. | Lecture and discussion on reinforced concrete design assumptions and structural behavior. |
| 5 | Working Stress Design Method | Principles of the working stress design method, allowable stresses, and application in the analysis and design of reinforced concrete members. | Lecture and example calculations using the working stress design method. |
| 6 | Ultimate Strength Design Method | Principles of ultimate strength design, strength reduction factors, and design philosophy based on limit state design concepts. | Lecture and example problems related to ultimate strength design. |
| 7 | Design of Reinforced Concrete Beams | Flexural behavior of reinforced concrete beams and design of singly reinforced beams based on strength design principles. | Lecture and step-by-step example calculations of reinforced concrete beam design. |
| 8 | Design of T-Beams | Structural behavior of T-beams, effective flange width, and design procedures for reinforced concrete T-beam sections. | Lecture and example calculations of T-beam design. |
| 9 | Design of Shear and Torsion Reinforcement | Shear and torsional behavior of reinforced concrete members, shear strength of concrete, and design of shear and torsion reinforcement. | Lecture and design examples of shear and torsion reinforcement. |
| 10 | Design of Reinforced Concrete Slabs | Design concepts of one-way and two-way slabs, load distribution, bending behavior, and reinforcement design for slabs. | Lecture and calculation examples of slab design. |
| 11 | Development Length and Reinforcement Detailing | Bond between concrete and reinforcing steel, development length, splice length, and reinforcement detailing in reinforced concrete members. | Lecture and discussion of reinforcement detailing with design examples. |
| 12 | Design of Reinforced Concrete Columns | Axial load and bending behavior of reinforced concrete columns, column design principles, and introduction to interaction diagrams. | Lecture and example calculations for reinforced concrete column design. |
| 13 | Interaction Diagrams for Column Design | Concept and construction of axial load–bending moment interaction diagrams for reinforced concrete columns and their application in column design. | Lecture and exercises on drawing and using interaction diagrams. |
| 14 | Design of Reinforced Concrete Foundations | Design of spread footings and pile foundations, load transfer mechanisms, bearing capacity considerations, and reinforcement design for foundations. | Lecture and example calculations of reinforced concrete foundation design. |
| 15 | Design of Reinforced Concrete Structures under Wind and Earthquake Loads | Basic concepts of structural design under lateral loads including wind and earthquake forces and considerations for reinforced concrete structural safety. | Lecture and discussion on design considerations for wind and earthquake loads. |
8. Course Assessment
| Course assessment | Weight score (%) | Assessment tools | Date |
|---|---|---|---|
| Midterm Examination | 40 | midterm examination | |
| Final Examination | 50 | final examination | |
| Assignment | 10 | assignment |
The grading table
| Grading | Rank |
|---|---|
| >= 80% | A |
| 75% - 79.99% | B+ |
| 70% - 74.99% | B |
| 60% - 69.99% | C+ |
| 50% - 59.99% | C |
| 45% - 49.99% | D+ |
| 40% - 44.99% | D |
| 0% - 39.99% | F |
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