Roads & Pavements – Heavy Duty Tracks

Steel fibre reinforced concrete is an excellent new type of composite material compared with ordinary concrete. SFRC’s tensile, bending, cracking and wear resistance, the impact of fatigue resistance, toughness and other properties have significantly increased, which not only allows the surface layer thinning, contraction joints spacing to increase and improve the use of road performance, extend the road life, but also to saves costs and shortens the construction period. In analysis based on the ratio of test strength, through a project example, it is confirmed that the actual steel fibre reinforced concrete applied to the old concrete pavement repair project is feasible.

Adequately designed and well constructed SFRC roads last for 30-40 years. This is amply brought out by the splendid performance world wide of concrete roads and pavements constructed in the 1930s and 1940s even though many of them were not designed to withstand the heavy loads of commercial vehicles and the high traffic volumes that eventually used them. It is often said that the life of concrete slab is limitless and can be prolonged to almost any desired period. This is achieved by careful design construction under strictly controlled conditions, careful monitoring of the performance, maintaining the joints periodically and providing overlays well before the slab shows any signs of cracking and failure.

One of the drawbacks generally attributed to concrete roads is that they are costlier than bitumen roads. This is a very general sort of statement which, while true in certain circumstances, is far from being generally applicable. However, before we get down to actual cost comparisons from existing on ground situations, a few points need to be clarified.

First of all, is the fact that the Bureau of Indian Standards (BIS) has laid down that whenever an asset has to be created or built, and competing technologies/methods/materials for building the sase are available, the technology/method/material which gives the lowest life-cycle cost will be selected. Initial cost will not be the guiding factor. And in life-cycle cost, SFRC roads with their low maintenance requirements, invariably turn out to be cheaper than bituminous ones. The BIS directive on the subject of life-cycle cost is contained in IS-13174, which was issued in two parts. Part-I, which came out in 1991, dealt with ‘Terminology’, while Part II, which was issued in 1991, lays down the ‘Methodology’ for working out life-cycle costs.

The second point to note is that whereas a bitumen road uses between 4-5% of binding material (bitumen), a SFRC road uses between 17-18% binder (cement). Hence, a SFRC road is inherently designed for a longer and more trouble-free life.

Thirdly SFRC road being rigid, is far less affected by differences in soil conditions under it, than bituminous roads. Therefore, there will be very little difference in the thickness of a SFRC pavement constructed on a weak soil and one that is built on a good, strong sub-grade. On the other hand, a bituminous road built on poor soil may need to be double the thickness of one built on a good sub-grade.

Fourthly, properly designed bituminous pavements, generally tend to be between 20-40% thicker than equivalent SFRC pavements, which have been designed to cater for the same traffic. This difference in thickness is mainly made up of aggregates. Since several parts of our country, including the Gangetic plain, are facing a shortage of aggregates, this factor could prove crucial in selection of pavement type.

• Long Life
• Practically Maintenance Free Performance
• Good Riding Quality
• Good Abrasion Resistance
• SFRC Roads can withstand extremes of weather
• Exclusion of water
• Ill Effect of Oil Spillage Avoided
• Skid Resistant
• Can be used in areas where soils have poor engineering properties
• Fuel Saving
• Design Precision
• Availability of Binder
• Reflective Characteristics
• Safer Driving
• Environment and Health