A6.1- A simply supported beam, as shown in Figure 3, is subjected to factored point load Pr=1250 kN. The beam is designed to have 6-30M bars to resist the maximum bending moment, Matthe section 900 mm away from the centerline of the support.Determine the required development length for the reinforcement at the section with the maximumbending moment. If it is not possible to provide straight bar anchorage into the left support, designthe hooked anchorage.Given: Concrete: Normal density with f'c = 25 MPaReinforcement: Uncoated rebars with fy = 400 MPaShear reinforcement is in excess of CSA 23.3 minimum requirement: 10MClear cover to the stirrups: 30 mmColumn: 200mm x 500mmm+1b=500 mm200mmΣMf6-30MFigure 310 m200mmh=1000 mm+As = 6-30MCross-section

Answered: Image /qna-images/answer/8c08a327-e470-4bcc-b429-a996c07d2386.jpg

Answered: A6.1- A simply supported beam, as shown…

Steel Design (Activate Learning with these NEW titles from Engineering!)

6th Edition

ISBN:9781337094740

Author:Segui, William T.

Publisher:Segui, William T.

Chapter10: Plate Girders

Section: Chapter Questions

Problem 10.7.9P

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A beam is part of the framing system for the floor of an office building. The floor is subjected to both dead loads and live loads. The maximum moment caused by the service dead load is 45 ft-kips, and the maximum moment for the service live load is 63 ft-kips (these moments occur at the same location on the beam and can therefore be combined). a. If load and resistance factor design is used, determine the maximum factored bending moment (required moment strength). What is the controlling AISC load combination? b. What is the required nominal moment strength for a resistance factor of 0.90? c. If allowable strength design is used, determine the required moment strength. What is the controlling AISC lead combination? d. What is the required nominal moment strength for a safety factor of 1.67?
Compute the nominal shear strength of an M107.5 of A572 Grad 65 steel.
Compute the nominal shear strength of an M1211.8 of A572 Grade 65 steel.
Determine the smallest value of yield stress Fy, for which a W-, M-, or S-shape from Part 1 of the Manual will become slender. To which shapes does this value apply? What conclusion can you draw from your answer?
Verify the value of Zx for a W1850 that is tabulated in the dimensions and properties tables in Part 1 of the Manual.
A W1422 acts compositely with a 4-inch-thick floor slab whose effective width b is 90 inches. The beams are spaced at 7 feet 6 inches, and the span length is 30 feet. The superimposed loads are as follows: construction load = 20 psf, partition load = 10 psf, weight of ceiling and light fixtures = 5 psf, and live load = 60 psf, A992 steel is used, and fc=4 ksi. Determine whether the flexural strength is adequate. a. Use LRFD. b. Use ASD.
A column in a building is subjected to the following load effects: 9 kips compression from dead load 5 kips compression from roof live load 6 kips compression from snow 7 kips compression from 3 inches of rain accumulated on the roof 8 kips compression from wind a. If lead and resistance factor design is used, determine the factored load (required strength) to be used in the design of the column. Which AISC load combination controls? b. What is the required design strength of the Column? c. What is the required nominal strength of the column for a resistance factor of 0.90? d. If allowable strength design is used, determine the required load capacity (required strength) to be used in the design of the column. Which AISC load combination controls? e. What is the required nominal strength of the column for a safety factor of 1.67?

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