Related MCQs

• A pavement designer has arrived at a design traffic of 100 million standard axles for a newly developing national highway as per IRC:37 guidelines using the following data: Design life = 15 years Commercial vehicle count before pavement construction = 4500 vehicles/day Annual traffic growth rate = 8%. The vehicle damage factor used in the calculation was
• The probability that k number of vehicles arrive (i.e. cross a predefined line) in time t is given as ( t)ke- t/k! where is the average vehicle arrival rate. What is the probability that the time headway is greater than or equal to time t1 ?
• The width of the expansion joint is 20 mm in a cement concrete pavement. The laying temperature is 20 C and the maximum slab temperature in summer is 60 C. The coefficient of thermal expansion of concrete is 10 10 6 mm/mm/ C and the joint filler compresses up to 50% of the thickness. The spacing between expansion joints should be
• The following observations were made of an axle-load survey on a road Axle Load (kN)Repetitions per day35-4580075-85400 The standard axle-load is 80 kN. Equivalent daily number of repetitions for the standard axle-load are
• For a 25 cm thick cement concrete pavement, analysis of stresses gives the following values Wheel load stress due to corner loading 30 kg/cm Wheel load stress due to edge loading 32 kg/cm Warping stress at corner region during summer 9 kg/cm Warping stress at corner region during winter 7 kg/cm Warping stress at edge region durng summer 8 kg/cm Warping stress at edge region during winter 6 kg/cm Frictional stress during winter 5 kg/cm Frictional stress during winter 4 kg/cm The most critical stress value for this pavement is
• The data given below pertain to the design of a flexible pavement. Initial trafic = 1213 cvpd Traffic growth rate = 8 percent per annum Design life = 12 years Vehicle damage factor = 2.5 Distribution factor = 1.0 The design traffic in terms of million standard axles (msa) to be catered would be
• Bilumen is derived from
• In a concrete pavement A. temperature stress is tensile at bottom during day time B. load stress is compresive at bottom
• Temperature stresses in concrete pavements may cause the slab to crack. If a slab cools uniformly then the crack will develop at the following locations of the slab
• Column I below gives a list of physical properties of aggregates which should be determined to judge their suitability in road construction. Column II gives a list of laboratory tests which are conduced to determine these properties. Column I Column II P. Hardness 1. Water adsorption Q. Porosity 2. Impact test R. Toughness 3. Soundness test S. Durability 4. Abrasion test Which of the following matches is correct ?