Yield strength of stirrups, fyt 275 MPa A= 8 kN/m E = 3 КРа F= 14 mm a.) Threshold Torsion kN-m b.) Perimeter of centerline of outermost stirrups mm c.) Area enclosed by centerline of outermost transverse torsional reinforcements mm2 d.) Spacing @critical region (round off by multiples of 10) mm c.) Spacing @2.50 m (round off by multiples of 10) mm f.) Minimum transverse reinforcements mm2 g.) Minimum longitudinal reinforcements for torsion mm2 h.) Total Longitudinal bars for torsion mm2 Design the torsional and shear reinforcement for the beam as shown in the figure. The resulting L beam supports a live load of "A" kN/m along the beam centerline plus "E" kPa uniformly distributed over the upper slab surface. Assume clear cover 40 mm and "F" diameter stirrups. Use the unit weight of concrete 23.60 kN/m. Round off your initial calculations and final answer by 3 decimal places. Given: L- 14 width of column = 0.6 m 2.4 Over-all depth of beam, h = 800 mm Width of beam, b = 400 mm Thickness of slab, t= 150 mm Effective depth, d - 735 mm fc = 35 MPa Yield strength of flexural steel, fy 414 MPa Yield strength of stirrups, fyt = 275 MPa A = 8 kN/m E E E

Yield strength of stirrups, fyt 275 MPa A= 8 kN/m E = 3 КРа F= 14 mm a.) Threshold Torsion kN-m b.) Perimeter of centerline of outermost stirrups mm c.) Area enclosed by centerline of outermost transverse torsional reinforcements mm2 d.) Spacing @critical region (round off by multiples of 10) mm c.) Spacing @2.50 m (round off by multiples of 10) mm f.) Minimum transverse reinforcements mm2 g.) Minimum longitudinal reinforcements for torsion mm2 h.) Total Longitudinal bars for torsion mm2 Design the torsional and shear reinforcement for the beam as shown in the figure. The resulting L beam supports a live load of "A" kN/m along the beam centerline plus "E" kPa uniformly distributed over the upper slab surface. Assume clear cover 40 mm and "F" diameter stirrups. Use the unit weight of concrete 23.60 kN/m. Round off your initial calculations and final answer by 3 decimal places. Given: L- 14 width of column = 0.6 m 2.4 Over-all depth of beam, h = 800 mm Width of beam, b = 400 mm Thickness of slab, t= 150 mm Effective depth, d - 735 mm fc = 35 MPa Yield strength of flexural steel, fy 414 MPa Yield strength of stirrups, fyt = 275 MPa A = 8 kN/m E E E

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

See similar textbooks

Related questions

Q: B A L1 W d tw do bf L2 Figura 1. Elevación frontal de marco estructural D H1 Figura 2. Detalle de la…

A: I am solving first three sub parts as bartleby guidelines..

Q: An axial load of magnitude P is applied to a short IPE300 steel member as shown. Determine the…

Q: •JORN THAT T Im 2m 2mm 1mf 40 mm 1.) Draw the shew and 28 Find to 3.) Flexural Date Flexural…

A: As per company's guidelines we can only answer first three questions. Kindly post other questions as…

Q: For the beam with cross-section shown, the allowable flexural stresses for tension and compression…

A: TF1=20, BF1=3x20=60, Tw=20, Dw=8x20=160, TF2=20, BF2=10x20=200, D=a+8a+a=20+160+20 = 200

Q: Determine the safe span that a 100 * 150 mm purlin would have if it has a spacing 800 mm on centers,…

A: According to given data a 100 * 150 mm purlin if it has a spacing 800 mm on centersa roof load of…

Q: 4- Is this a safe beam under the action of 120 kN.m moment? d= 55cm, bw-32cm, n=15.

A: Given Data:Moment M= 120kNmd=55cm=550mmb=32cm=320mmn=15fc=10mpafy= 220mpaModulus of rupture=…

Q: the beam shown if the working stress in bending is 175 MPa. What is the maximum bending stress in…

Q: besign the steel reinforcement op a 400mm x600mm RC beam used to camy a pactored moment,mu-500KN.m.…

A: Using the Limit State method to design the steel reinforcement of the beam, We will design this beam…

Q: A rectangular beam has the following properties: fc'=28MPa fy=270MPa b=300mm d=450mm As=4 of…

Q: Below is a trapezoidal beam with 3-28mm reinforcing bars at the bottom. Using the design properties…

A: Given: fc = 21 MPa fy = 140 MPa n = 7 b1 = 200 mm b2 = 500 mm d = 650-50 mm Area of steel:…

Q: If M₂-465 kip-ft, find the magnitude of the bending stress at a point H. For the beam cross section,…

Q: A cantilever beam AB, loaded by a uniform load (see figure), is applied on a channel section. If the…

Q: Q5- For the T-beam section shown below, calculate the cracking torque and check the section adequacy…

Q: Q2: Calculate maximum tensile and compressive stresses and draw bending stresses along the depth of…

Q: Solve using Method Of Consistent Deformation. (indeterminate beam) Please provide Compatibility…

A: The propped cantilever beam is given asTo find:-Analysis of the beam by using method of consistent…

Q: Design the torsional and shear reinforcement for the beam as shown in the figure. The resulting L…

A: Concrete shear reinforcement is designed to resist forces greater than concrete's shear strength. A…

Q: Q2. For the beam and loading shown below. The allawable flexural stress is 12MPa, allawable shear…

A: The given data is shown below: Flexural stress=12 MPaAllowable shear stress=825 KPa

Q: 225 P,- 8 P,- 10 9- 18 2 (m) 1 (m) 4.50 (m) 1.50 (m)

Q: 1. Draw the shear and moment Diagram of the beam. 2. Determine the maximum compressive stress of the…

A: Given- A continuous beam of total span 12m and subjected to a UDL of 45Kn/m over the entire span.…

Q: Determine the minimum width "b" of the beam shown if the flexural stress is not to exceed 12 MPa.…

Q: Derive the relationship for maximum and minimum shear stress in a wide flange I-Section. Also…

A: Given: V=50KNflange width=300mmflange depth= 40mmweb thickness=40mmweb depth=220mm Calculate the…

Q: PROBLEM A: Design the depth of a rectangular beam to carry a uniformly distributed load of 10 kN/m…

Q: 12kn/m 1okn/m section: 350 A B +50 P: 600KN, e= 200mi CASUme 10%. losses) From the figure shown,…

Q: If the allowable bearing stress for the material under the supports at A and B is (sb)allow = 1.5…

Q: 1: For the loaded simply supported beam shown in figure, if the allowable bending stress is 100 MPa…

Q: property of the channel is given below: Depth, D = 225 mm Flange Thickness, t= 9mm Flange Width, B,…

Q: Situation 1 | An overhang beam is loaded as shown below. The beam cross-section was built by…

A: As per company's guidelines we can only answer first question Kindly post other questions as…

Q: A steel beam is under 0.006 shear strain. What is the shear stress exerted on the beam if the…

A: Given, Shear strain = 0.006 Moduls of rigidity = 83×103 Find, Shear stress

Q: SECTION: 35omm 12 KN/m 7S0 mm A Ps 600KN e = 2 00 mm (A SSUME 10% LOSSES) A. Calculate the stress at…

Q: A to SokN

A: the given truss is indeterminate truss so that its can not be analyze by only equilibrium equation…

Q: 13-v represented of .a) resistance friction) b) Safety factor for shear) c) resistance factor for…

Q: Refer to the figure shown. Determine the following considering the effect of the Prestressing force…

A: To find:Bending stress

Q: Situation 1 | An overhang beam is loaded as shown below. The beam cross-section was built by…

Q: For the beam shown below, draw bending stress distribution along the depth of beam at mid span…

A: Given that:

Q: 6-05kN 6.VY KN 3.55m 3.XY m 6 kN E 3.YZ m 3.55m B 3.VY m 3.05m 8.ZY KN 8.55kN

Q: 4- Is this a safe beam under the action of 120 kN.m moment? d= 55cm, by-32cm, n=15. C25: Allowable…

A: allowable stress : Civil engineers utilize a design philosophy known as permissible stress design.…

Q: 225 of 207 225

Q: use method of joint find out Force in member AC.

A: Given, A truss,

Q: Determine the minimum width "b" of the beam shown if the flexural stress is not to exceed 14 MPa.…

A: For the given beam and loading, the minimum width b has to be computed if the flexural stress is not…

Q: Determine the minimum width "b" of the beam shown if the flexural stress is not to exceed 13 MPa.…

Concept explainers

Design criteria for structural loading

The different loads such as loads due to self-weight (dead load) and external loads such as live load, wind loads, seismic load, snow load, and other loads and load combinations that influence the design of a building are called structural loading. The nature of the applied load differs from changes in the location, design, and type of materials used. The design criteria require that structures must be designed and constructed to be able to withstand all load types that are expected to act upon the structure and render its usage for the designated purpose. The structural members such as beams, slabs, columns, and foundations help the structure to withstand the applied load. There are different institutes such as ASCE and ACI that provide building design codes to assure minimum safety requirements and quality of the structures.

Question

Yield strength of stirrups, fyt
275
MPa
A=
8
kN/m
E =
3
КРа
F=
14
mm
a.) Threshold Torsion
kN-m
b.) Perimeter of centerline of outermost stirrups
mm
c.) Area enclosed by centerline of outermost transverse torsional reinforcements
mm2
d.) Spacing @critical region (round off by multiples of 10)
mm
c.) Spacing @2.50 m (round off by multiples of 10)
mm
f.) Minimum transverse reinforcements
mm2
g.) Minimum longitudinal reinforcements for torsion
mm2
h.) Total Longitudinal bars for torsion
mm2

Design the torsional and shear reinforcement for the beam as shown in the figure. The resulting L beam
supports a live load of "A" kN/m along the beam centerline plus "E" kPa uniformly distributed over the
upper slab surface. Assume clear cover 40 mm and "F" diameter stirrups. Use the unit weight of concrete
23.60 kN/m. Round off your initial calculations and final answer by 3 decimal places.
Given:
L-
14
width of column =
0.6 m
2.4
Over-all depth of beam, h =
800 mm
Width of beam, b =
400 mm
Thickness of slab, t=
150 mm
Effective depth, d -
735 mm
fc =
35
MPa
Yield strength of flexural steel, fy
414 MPa
Yield strength of stirrups, fyt =
275 MPa
A =
8
kN/m
E E E

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Step 7

Trending now

This is a popular solution!

Step by step

Solved in 7 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, civil-engineering and related others by exploring similar questions and additional content below.

Similar questions

A flooring system consists of parallel I-beam sections spaced at 3 m on centers with simple spans of 6m. The beam supports a 200mm thick slab that laterally supports the top of the beams. The flooring system is designed for a superimposed load of 1750 N/m^2 The properties of the I-beam sections are: d= 352mm, tw= 7mm bf=170 mm, tf= 10mm Ix= 0.00012m^4, W= 44.85 kg/m Fy- 248 MPa,E= 200,000 GPa 1. Calculate the plastic section of the steel section in mm^3 2. Calculate the nominal strength (kN.m) of an individual beam if it is laterally supported by the concrete slab. 3. Calculate the unfactored service dead load on an individual beam in kN/m 4. Calculate the maximum service live load (kPa) the beam can sustain under LRFD provisions using φb= 0.9 5. Calculate the maximum live load (kPa) the beam can sustain under ASD provisions using Ωb=1.67
For the beam and loading shown, consider section n-n and determine the shearing stress at (a) Point a (b) Point b (c) Largest shear stress in section n-n 100kN 100 KN 31 20 m 180 mm b 38 mm a 38 mm 500 mm 20 mm 250 mm B TOT 500 mm, k -200 mm -20 mm
Q3/ For the beam and loading shown, determine the maximum normal stress due to bending. 150 kN 150 kN S0 mm 90 kN/m D VE B. 300 mm 24 m b.5 m osm -05m
I need right solution with detailed clear calculations
47 d lameters H. WOA vod Consists of three bars of unequal as shown in fig., find the stress in each bar and the C langation off the rood ? use E= 200GVa %3D -30mm =20mm 20W At B 1.5m 2.5m 2m
|2kn/m lokn/m section: 350 B 750 P= 600KN, e= 200mm CAsSume 10%. losses) From the figure shown, Calculate the stress at the bottom at x = 8 m from the left support. (MPa)
1. Draw the shear and moment Diagram of the beam. 2. Determine the maximum compressive stress of the section. 3. Determine the maximum tensile stress of the section. 4. Determine the Maximum horizontal shear stress on the section. 45KN /m I1OKN-m I1OKN. m 135KN 270KN 135KN Gm Gm-
In reinforced beam having a width of 300 mm and an effective depth of 600 mm, carries a moment of 60 kN-m, which developed a stress (fc) of 5 MPa in the Concrete. Considering Cracked Analysis. a) If n = 9, compute the distance of the neutral axis from the top of the beam. Hint kd = k x d. Note: k < 1.0
Determine the Global stiffness matrix of the continuous beam shown. Assume EI is 150kN -m² is constant for each element.*For uniform load Q= 48 kN/m*For concentrated load P= 48 kN
Help me with right solution...urgenttttttttt
15 mm PROBLEM 6.9 -250 mm 65 kN 90 kN 65 kN 0.3 m (300 пm) For the beam and loading shown, consider section n-n and determine (a) the largest shearing stress in that section, (b) the shearing stress at point a. 25 mm 250 mm 10 mm 15 mm 06 m 06 m 06m 06 m
Problem 4 Design the steel reinforcement for the uniaxial eccentrically loaded short column shown below, using the appropriate interaction diagram. Use f. 28 MPa, and fy 420 MPa. %3D Knowing that: e, = 150 mm, and Pn = 2200 kN 100 mm y 300 500 mm mm 300 100 mm mm