Download GTU B.Tech 2020 Winter 5th Sem 3150612 Design Of Structures Question Paper

Download GTU (Gujarat Technological University Ahmedabad) B.Tech/BE (Bachelor of Technology/ Bachelor of Engineering) 2020 Winter 5th Sem 3150612 Design Of Structures Previous Question Paper

Seat No.: ________
Enrolment No.___________
GUJARAT TECHNOLOGICAL UNIVERSITY
BE- SEMESTER?V (NEW) EXAMINATION ? WINTER 2020
Subject Code:3150612
Date:01/02/2021
Subject Name:Design of Structures
Time:10:30 AM TO 12:30 PM
Total Marks: 56
Instructions:
1. Attempt any FOUR questions out of EIGHT questions.

2. Make suitable assumptions wherever necessary.

3. Figures to the right indicate full marks.
4. Use of IS:456(2000), IS:800 (2007) and Steel table is permitted
5. Assume M20 grade concrete and Fe415 steel for RCC element, if not provided.



MARKS
Q.1 (a) Differentiate between working stress method and limit state method of
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reinforced concrete.

(b) Write down the value of partial safety factors applied to Dead Load (DL),
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Imposed Load (IL) and Wind Load (WL) for the DL + IL + WL load
combination considered for limit state of collapse, as per IS:456(2000).
What will be the partial safety factors value for DL + WL load combination
for limit states of serviceability, as per IS:456(2000)?

(c) AnRCC beam of a rectangular section 300 mm ? 450 mm is reinforced
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with tensile reinforcement of 3 nos. 16mm Fe415 bars. The clear cover is
25 mm and the grade of concrete used is M25. State whether the section is
under reinforced. Also, calculate moment of resistance of the section.


Q.2 (a) Calculate the area of tension reinforcement needed with regard to the limit
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state method for a rectangular reinforced concrete beam of width, 250 mm
and effective depth of 315 mm. The concrete grade is M20 and the grade of
reinforcing steel is Fe415. Consider the section to be a balanced section.

(b) State and explain in brief types of limit states in the design of reinforced
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concrete structures.

(c) A rectangular reinforced concrete beam of width 300 mm and effective
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depth 565 mm is subjected to the design shear force of 250 kN. The beam
is reinforced with tensile reinforcement of 0.90 %. Design for 2-legged
shear reinforcement of 8 mm diameter having grade Fe415. Use concrete
grade M20.
Q.3 (a) Discuss the assumptions made in the limit state design of reinforced
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concrete compression members.

(b) Design lateral and longitudinal reinforcement for the short axially loaded
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square column, 500 mm ? 500 mm subjected to the design axial load of
3000 kN. Use M20 grade concrete and Fe415 steel. Take minimum
eccentricity of 20 mm.

(c) A simply supported reinforced concrete slab of effective dimension 4.5m ?
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6.0m is carrying a characteristic load of 15 KN/m2, inclusive of the dead
load, live load and floor finish load. Assuming M25 grade of concrete and
Fe415 grade of steel, overall thickness of the slab being 180 mm and 20
mm cover, what is the required area of steel in the shorter span, if 12 mm
diameter bars are used?




Q.4 (a) Plot neat sketch of stress-strain curve of concrete and stress block
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parameters adopted by IS:456(2000).

(b) A square isolated footing of dimension 1.5m ? 1.5m is subjected to a
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characteristic load, P=660kN (including the self weight of the footing) to
the ground, through a column of 350mm ? 350mm. The load factor is
taken as 1.5. The overall depth of footing is 350mm. The clear cover is
40mm. The diameter of reinforcement provided is 12mm. Calculate the
one-way shear force, per meter width, due to soil reaction at the critical
section for design.Consider SBC value 150 KN/M2

(c) Design an interior slab panel of effective dimensions 4.2m ? 6.25m
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subjected to a factored load of 15 kN/m2 inclusive of self-weight and floor
finish load. The slab is provided with main reinforcement bar diameter as
10 mm, and has overall thickness of 150mm. Clear cover is 20 mm, grade
of concrete is M20, grade of steel Fe415.
Q.5 (a) State advantages and disadvantages of welded connections.
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(b) Two plates having thickness 6 mm and 8 mm made up of Fe 410 grade
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steel are joined together by 16 mm diameter bolts of grade 4.6. Calculate
nominal bearing strength of bolt. (Take kb = 1).

(c) In a truss a compression strut 3 m long consists of two angles ISA
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100?100?6 mm. Find the strength of the member if the angels are
connected on both sides of 12 mm gusset plate usingSingle bolt. Take yield
and ultimate stress as 250 MPa and 410 MPa, respectively and Modulus of
Elasticity as 200000 MPa.



Q.6 (a) State advantages and disadvantages of Steel structures over reinforced
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structures.

(b) How the design bending strength of a beam section is calculated as per
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IS:800 (2007), if shear force on the beam exceeds 60% of design shear
strength of the section?

(c) A tie member of a roof truss consists of single ISA 100?75?8 of Fe410
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grade, is welded to a 10 mm thick gusset plate. Design the welded
connection to transmit a tensile load of 300kN. Assume connection are
made in the workshop
Q.7 (a) Draw neat sketch of different lacing systems.
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(b) Draw neat sketch of gusseted based foundation.
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(c) Determine the design axial load on the column section ISMB 400, if the
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height of the column is 3.5 m and the column is pin-ended at both ends.
Take: = 250 N/mm2, =410 N/mm2; E = 2?105 N/mm2.



Q.8 (a) Draw neat sketch of battening system.
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(b) Draw neat sketch of slab based foundation.
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(c) Design a laterally supported beam of effective span 5 m for the following
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data.
Grade of steel: Fe 410
Factored maximum B.M. = 180 kN-m
Factored maximum S. F. = 200 kN
Check for deflection is not required.

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This post was last modified on 04 March 2021