Two parts of a machine, both made from steel, areheld together by 9 equally-spaced M6 x 1.0 grade 8.8bolts that are uniformly tightened to provide a totalinitial clamping force of 77 kN. Each bolt has a proofstress of 600 MPa, and a tensile area of 20.1 mm². Theelasticities are such that the joint constant is 0.18.A uniform static tensile load of 36 kN is applied to theentire joint after it has been preloaded.What is the smaller value of either the factor of safetyagainst joint separation or the load factor in thisapplication? Express your answer to a resolution of twodecimal places.

Smaller value of FOS is 2.60 which is For joint separation under the applied load.Explanation:Given…

Answered: Two parts of a machine, both made from…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

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Problem 1.1MA

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Problem 17 A joint shown has the basic layout shown in the diagram below. (All dimensions on the diagram are in inches.) A single pin of diameter 0.5 inches (A = 0.2 in2) holds together the yoke and bar as shown. The material has an ultimate strength in tension of 80 ksi, and an ultimate strength in shear of 45 ksi. The load P has a value of 10000 lb. By examining the shear stress in the pin, the normal stress in the yoke, and the normal stress in the bar, find the overall factor of safety for the joint. P=10,000 lb YOKE -0.5 PIN BAR P=10,000 lb 1.5- 20 1.5 0.5 0.5
• Bars (1) have a cross-sectional area of A₁ = 0.65 in.2 and a length, L₁= 7 ft. • Bars (1) are made of cast iron with an elastic modulus of E₁ = 24,000 ksi, a coefficient of thermal expansion, a₁ = 12.3 x 10-6/°F and yield strength of oy = 120 ksi. • Bar (2) has a cross-sectional area of A₂ = 1.45 in.² and a length, L₂ = 5.5 ft. • Bar (2) is made of stainless steel with a coefficient of thermal expansion, a₂ = 10.6 × 10-6/°F. • The stress-strain diagram provided below presents the results of the stainless steel's (i.e., Bar (2)) bar tension test. • There is a gap of A = 0.1 in. in the connection at B and a = 3 ft. • All bars are unstressed before a load P = 12 kips is applied and the temperature increases by AT = 40°F. Stress-strain diagram for stainless steel bar: (1) a Stress (ksi) L2 Rigid bar 120 100 80 60 40 20 0 0 0 B (2) P a (1) C Upper scale L₁ Connection details at node C Lower scale. C 0.025 0.050 0.075 0.100 0.125 0.150 0.175 0.006 0.008 0.010 0.012 0.014 0.002 0.004 Strain…
Answer is closer to 32 kN/m, but how does it get there?
Two parts of a machine, both made from steel, are held together by 5 equally-spaced M6 x 1.0 grade 8.8 bolts that are uniformly tightened to provide a total initial clamping force of 23 kN in the members. Each bolt has a proof stress of 600 MPa, and a tensile area of 20.1 mm². The elasticities are such that the joint constant is 0.2. A uniform static tensile load of 12 kN is applied to the entire joint after it has been preloaded. What is the magnitude of the total clamping force in the joint after the application of the tensile load? Express your answer in units of kilonewtons.

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