1. Design a connection composed of two steel straps held together by two bolts located along the longitudinal axes of the straps (see Figure 1 below). The straps are to be of the same width and thickness and should transmit a force of 17.6 kN. Use the following stresses in determining the strap thickness and width as well as the bolt diameter. (Round up all sizes to the next millimetre) Allowable stresses: compression (crushing) stress = 160 MPa. • shear stress = 90 MPa.. • tension (tearing) stress = 110 MPa 17.6 kN 17.6 kN 17.6 kN 17.6 kN
1. Design a connection composed of two steel straps held together by two bolts located along the longitudinal axes of the straps (see Figure 1 below). The straps are to be of the same width and thickness and should transmit a force of 17.6 kN. Use the following stresses in determining the strap thickness and width as well as the bolt diameter. (Round up all sizes to the next millimetre) Allowable stresses: compression (crushing) stress = 160 MPa. • shear stress = 90 MPa.. • tension (tearing) stress = 110 MPa 17.6 kN 17.6 kN 17.6 kN 17.6 kN
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Transcribed Image Text:1.
Design a connection composed of two steel straps held together by two bolts located along the
longitudinal axes of the straps (see Figure 1 below). The straps are to be of the same width and
thickness and should transmit a force of 17.6 kN. Use the following stresses in determining the
strap thickness and width as well as the bolt diameter. (Round up all sizes to the next millimetre)
Allowable stresses:
compression (crushing) stress = 160 MPa.
• shear stress = 90 MPa..
• tension (tearing) stress = 110 MPa
17.6 kN
17.6 kN
17.6 kN
17.6 kN
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