The round cross-sectional bar shown below is cut from a steel with a diameter of 34 mm and has the following properties(Sut = 464 MPa, Sy = 406 MPa and fully corrected Se =170 MPa).The bar is loaded at its end with a fluctuating bending load ranges from Fmin = -423 N to Fmax = 832 N.Using a design factor of nd = 1.1, what will be the maximum length of the bar that prevents failure using Modified Goodmancriteria?your answer must be in mm.accepted answer range (+/- 5 mm)A FmaxFminuzu

Answered: Image /qna-images/answer/01990061-1ff8-48bd-bafc-087929b6d4e8.jpg

Answered: The round cross-sectional bar shown…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

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The beam below is subjected to a sinusoidal forcing function with Fmax = F and Fmin -F/2 where l 40 mm. The cross section is a rectangular with thickness (t) and height (h). The beam is in room temperature, it is ground, it is 90% reliable. Find the stress state in the beam due to this loading. choose the type of steel that will give a safety factor of 3 for N=5E8 cycles using Goodman. 1 т, а — 0.4 т, b %3D 0.6 т, F 500 N,I %3D 2.85Е — 08 m*, h - b |R1 R2
A bar AISI 1035 steel forged and heat treated with minimum yield strength of 570MPa is subjected to bending moment of 290Nm and a torsional moment of 310Nm. Assuming a factor of safety of 2, determine the diameter of rod using the following theories of failure (i) Maximum Shear stress theory and (ii) Distortion Energy theory (iii) Maximum stress theory, also specify which diameter is considered as safe
12. An aluminum sleeve is held between the head and the nut of a steel bolt. The temperature is raised 40°F from 60°F after the nut is turned 45° against the sleeve from loose contact therewith. Calculate the stresses in the sleeve and the bolt. BOLT IS 1/2" DIA, 16 THREADS/ IN. E(ALUM.) 10 x 106 psi E (STEEL)= 30×106 psi Coefficient of linear expansion STEEL: 6.5 x 10-6 °/°F ALUM: 12 x 10-6/F
A steel bar withstands simultaneously a 30 kN compressive force, a 5 kNm bending moment and a lkNm torque. Assume the cross-section is circular with diameter R. Determine, for a point at the position of greatest compressive bending stress: (a) The normal stress on a plane inclined at 30° to the shaft axis (b) The shear stress on a plane inclined at 60° to the shaft axis
The figure shows a round shaft from a gear transmission. Gears are mounted at points A, C, and E. Supporting bearings are at B and D. The forces transmitted from the gears to the shaft are shown, all acting downward. Compute the maximum stress due to bending in the shaft, accounting for stress concentrations. Draw shear diagram and moment diagram. calculate the safety factor for the material selected. The material is 4150 OQT 1300. Assume that f1 = 9.5 KN , f2= 13.5 KN and f3 =18 KN
Parvinbhai

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