CE-C702: Theory of Reinforced Concrete Structures Syllabus for CE 7th Sem 2019 Pattern Mumbai University

Theory of Reinforced Concrete Structures detailed syllabus scheme for Civil Engineering (CE), 2019 regulation has been taken from the University of Mumbai official website and presented for the Bachelor of Engineering students. For Course Code, Course Title, Test 1, Test 2, Avg, End Sem Exam, Team Work, Practical, Oral, Total, and other information, do visit full semester subjects post given below.

For all other Mumbai University Civil Engineering 7th Sem Syllabus 2019 Pattern, do visit CE 7th Sem 2019 Pattern Scheme. The detailed syllabus scheme for theory of reinforced concrete structures is as follows.

Theory of Reinforced Concrete Structures Syllabus for Civil Engineering BE 7th Sem 2019 Pattern Mumbai University

Rationale

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Course Objectives:

1. To develop the clear understanding of design philosophy amongst the students for the design of reinforced concrete structure using (WSM) working stress method and (LSM) limit state method.
2. To study the various clauses of IS: 456-2000 and its significance in the RCC design.
3. To apply the concepts of LSM in the analysis and design of beams, slabs and columns.
4. To study the concept of Serviceability and durability for deflection and crack width calculation in RCC structures.
5. To study the concept of reinforced concrete footing design subjected to axial load and moment.
6. To develop the concept of design using ready charts and curves for column subjected to axial load and moments.

Module I

Working Stress Method Concept of reinforced concrete, Working Stress Method (WSM) of design for reinforced concrete, permissible stresses as per IS-456-2000; stress- strain curve of concrete and steel, characteristics of concrete steel reinforcement. Concept of balanced, under reinforced and over reinforced sections. Analysis design of singly reinforced and doubly reinforced rectangular beams for flexure, shear by WSM, Analysis and design of Cracked and un-cracked RCC column sections by WSM 12

Module II

Limit State Method Introduction to limit state method of design as per IS-456-2000; concepts of probability and reliability, characteristic loads, characteristic strength, partial safety factors for loads and materials, introduction to various limit states. 03

Module III

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Module IV

Design of Slabs using LSM: Design of one way, one way continuous slab and two way slabs with all end conditions as per IS-456-2000. 06

Module V

Limit State of Collapse – Compression: Limit state of collapse compression for short and slender column. Members subjected to combined axial and uni-axial as well as biaxial bending. Development of interactive curves and their use in column design. 08

Module VI

Design of Foundations: Isolated square and rectangular footings subjected to axial load and moments. Design of combined rectangular pad footings, slab beam type footing. Design of Raft foundations ( No numerical to be asked on raft foundations in the exam . 08

Course Outcomes:

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Theory examination:

• Use of IS:456-2000 shall be allowed in the examination.
• Question paper will comprise of six questions; each carrying 20 marks.
• The first question will be compulsory will have the short questions having weightage of 4-5 marks covering the entire syllabus.
• The remaining five questions will be based on all the modules of the entire syllabus. For this, the modules shall be divided proportionately further; and the weightage of marks shall be judiciously awarded in proportion to the importance of the sub-module contents thereof.
• There can be an internal choice in various sub-questions/ questions in order to accommodate the questions on all the topics/ sub-topics.
• The students will have to attempt any three questions out of remaining five questions.
• Total four questions need to be attempted.

Term Work:

The term-work shall comprise of the neatly written report of the assignments. The assignments shall be given covering the entire syllabus in such a way that the students would attempt at least two problems on each modules/ sub-modules contents thereof. At least one numerical on raft foundation shall be included in assignments. Distribution of Term-work Marks: The marks of the term-work shall be judiciously awarded depending upon the quality of the term work including that of the report on assignments. The final certification acceptance of the termwork warrants the satisfactory and the appropriate completion of the assignments, the minimum passing marks to be obtained by the students. The following weightage of marks shall be given for different components of the term work.

• Assignments : 20 Marks
• Attendance : 05 Marks

Further, while giving weightage of marks on the attendance, following guidelines shall be resorted to. 75%- 80%: 03 Marks; 81%- 90%: 04 Marks 91% onwards: 05 Mark

Recommended Books:

1. Design of Reinforced Concrete Structures: Dayaratnam, P; Oxford and IBH.
2. Limit State Design – Reinforced Concrete: Jain A. K, Nemchand and Bros., Roorkee
3. Limit State Design – Reinforced Concrete: Shah andKarve, Structure Publications, Pune.
4. Ultimate Strength Design for Structural Concrete: Arthur, P. D. andRamakrishnan, V., Wheeler and Co. Pvt. Ltd.
5. Reinforced Concrete: H.J. Shah, Charotar Publishers, Anand.
6. Fundamentals of Reinforced Concrete: Sinha& Roy, S. Chand and Co. Ltd.
7. Illustrated Reinforced Concrete Design: Dr. V. L. Shah and Dr. S. R. Karve, Structure Publications, Pune.
8. Reinforced Concrete Design: Wang, C. K., Salmon, C. G., andPincheira, J. A, John Wiley (2007), 7th Edition.
9. Reinforced Concrete Fundamentals: Ferguson, P. M., Breen, J. E., and Jirsa, J. O., John Wiley & Sons (1988) 5th Edition.
10. RCC Design (WSM and LSM): Punmia, B. C., Jain, A. K., andJain,Arun, K., Laxmi Publications.
11. Limit State Design of Reinforced Concrete (as per IS: 456-2000): Punmia, B. C., Jain, A. K., and Jain,Arun, K., Laxmi Publications.
12. Design of RCC structural Elements (RCC Vol-I): Bhavikatti, S. S., New Age International Publications.
13. Reinforced Concrete: SyalandGoel; Wheeler Publishers.
14. Relevant IS Codes: BIS Publications, New Delhi.
15. Reinforced Concrete Design: Pillai,S.U.andMenon,Devdas, Tata Mc-Graw Hill Publishing House, New Delhi.
16. Reinforced Concrete Designby S.N. Sinha, Tata Mc-Graw Hill Publishing House, New Delhi.
17. Theory of Reinforced concrete structures by N. Subramanian , Oxford University Press.

For detail syllabus of all other subjects of Civil Engineering (CE) 7th Sem 2019 regulation, visit CE 7th Sem Subjects syllabus for 2019 regulation.