Consider that a box section is used for the beam loaded as shown in figure 3. Using flexure and shear stress formula, de
Posted: Sat May 21, 2022 12:56 pm
Consider that a box section is used for the beam loaded as shown in figure 3. Using
flexure and shear stress formula, determine the following
Use a =7 m, b=3.9 m, c=218 mm, d = 56 mm
3.1 Distance of the centroid to the outermost fiber of the beam in mm.
3.2 Moment of inertia of the beam about centroidal x-axis in *10^6mm^4
3.3. maximum flexural stress in MPa
3.4 Maximum flexural shear stress in MPa
cmm 10 kN/m mm "b" m “bºm "d" mm (typ.) FIGURE 3
flexure and shear stress formula, determine the following
Use a =7 m, b=3.9 m, c=218 mm, d = 56 mm
3.1 Distance of the centroid to the outermost fiber of the beam in mm.
3.2 Moment of inertia of the beam about centroidal x-axis in *10^6mm^4
3.3. maximum flexural stress in MPa
3.4 Maximum flexural shear stress in MPa
- Consider That A Box Section Is Used For The Beam Loaded As Shown In Figure 3 Using Flexure And Shear Stress Formula De 1 (228.42 KiB) Viewed 14 times