Related MCQs

• The edge stress can be found out for a slab thickness of range 10-30 cm using design charts.
• Find the distance at which the maximum corner stress would occur if the following data is available.Modulus of elasticity of cement concrete, E = 2×105 kg/cm2Thickness of slab, h = 18 cmPoisson’s ratio, μ = 0.15Modulus of subgrade reaction, k = 6 kg/cm3Radius of contact area, a = 15 cm
• At what distance from the apex of the slab corner does the maximum stress occur in a rigid pavement?
• In the design chart for finding corner stress by IRC, what parameter below is not constant?
• What is the critical stress at the edge of rigid pavement for the below data?Wheel load, P = 5100 kgModulus of elasticity, E = 2.1×105 kg/cm2Pavement thickness, h = 16 cmPoisson’s ratio, μ = 0.15Modulus of subgrade reaction, k = 7 kg/cm3Radius of contact area, a = 15 cm
• Find the corner stress for the data given below.Wheel load, P = 5500 kgPavement thickness, h = 20 cmRadius of relative stiffness, l = 65 kg/cm3Radius of contact area, a = 15 cm
• What is the modified equation for maximum stress at the corner?
• What is the critical stress at the interior of rigid pavement for the below data?Wheel load, P = 5100 kgModulus of elasticity, E = 3×105 kg/cm2Pavement thickness, h = 17 cmPoisson’s ratio, μ = 0.15Modulus of subgrade reaction, k = 7 kg/cm3Radius of contact area, a = 15 cm
• Compute the equivalent radius of resisting section if the radius of wheel load distribution is 15 cm and the pavement thickness is 15 cm.
• When the value of the radius of wheel load distribution is ______, it is equal to the equivalent radius of resisting section.