An I-beam is strengthened by bolting a plate to the top and bottom flange as shown. If the bolts are placed so that s = 180 mm, and each bolt can resist a maximum shear force of Vbolt = 27 kN, determine the largest shear force, V, to which the beam can be subjected. Express you answer in kN to the nearest whole kN.
An I-beam is strengthened by bolting a plate to the top and bottom flange as shown. If the bolts are placed so that s = 180 mm, and each bolt can resist a maximum shear force of Vbolt = 27 kN, determine the largest shear force, V, to which the beam can be subjected. Express you answer in kN to the nearest whole kN.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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An I-beam is strengthened by bolting a plate to the top and bottom flange as shown. If the bolts are placed so that s = 180 mm, and each bolt can resist a maximum shear force of Vbolt = 27 kN, determine the largest shear force, V, to which the beam can be subjected. Express you answer in kN to the nearest whole kN.
Transcribed Image Text:This image depicts a structural I-beam with detailed measurements. It has a vertical section (web) and two horizontal sections (flanges) at the top and bottom. The beam is supported by bolts, indicated by circles on the flanges.
Key dimensions include:
- Overall height of the beam: 300 mm
- Width of the flanges: 200 mm
- Thickness of the flanges: 20 mm
- Thickness of the web: 10 mm
- Distance from the edge of the flange to the bolt: 10 mm
- Bolt spacing, represented by "s": unspecified
The arrow labeled "V" indicates a vertical force acting on the beam. The design and dimensions suggest the beam is suited for heavy load-bearing applications.
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