Functional Performance of Cement Concrete Pavements Case Studies

Functional Performance of Cement Concrete Pavements

Dr. S.D. Sharma, Scientist, Central Road Research Institute, New Delhi

Economic liberalization in India during the past decade has resulted in the rapid expansion of cement industry. With a production capacity of about 200 million tonnes per annum, the industry has emerged as the second largest in the world. Increased investments envisaged in the core sectors of infrastructure, viz., roads, highways, and so on railways, irrigation, power, housing, through appropriate allocation in the Tenth Five Year Plan and annual budgets as well as other positive policy directives and developmental plans recently introduced by the govt. of India have brightened the scope for further growth of cement industry.

Functional needs, characterized by geometric features and surface characteristics are of paramount importance in ensuring road user comfort and safety. The effects of roughness on vehicle operating and pavement costs are well known. Higher pavement roughness reduces vehicle’s speed, increases wear and tear of vehicles, increases consumption of fuel and lubricants of vehicles. It also increases maintenance cost of vehicles as well as of pavements. Therefore, the roughness of pavement surface is one of the main factors which need immediate attention of field engineers and planners. Functional performance study in terms of roughness is conducted on different road sections of cement concrete pavements.

Importance of Functional Evaluation of Pavement

The traffic volume and overloading of vehicles on the existing road network, in the country, are growing at an alarming rate. Over the past four decades, the growth in road infrastructure has been quite substantial. The total length of roads in the country has increased from 400,000 km in 1951 to about 3.5 million km currently. National and State Highways constitute the principal road system and account for about 2 percent and 4 percent respectively of the total road length. This system is heavily trafficked and carries over 75 percent of the freight traffic. The existing system has fallen greatly short of the required capacity. The increased transport demand has been met by overstraining the existing infrastructure and the vehicle fleet which has consequently resulted into higher transportation cost. The large network built-up at huge cost is showing sign of premature ageing largely because of two factors:
  1. continuous shortfall in investment on road maintenance
  2. increasing volume of traffic and heavier loads than permissible
As a result, the primary road network system is rapidly deteriorating beyond the point where normal maintenance will not be effective. Due to poor condition of roads, it has been estimated that an annual loss to the tune of Rs. 6,000 crores is being suffered in vehicle operation costs. A broad assessment made indicates that 3 km out of every 5 km of primary road network are in bad shape needing immediate attention. Despite the recognition that road network has come to almost a crumbling stage due to lack of timely and adequate upgradation and maintenance, the allocation to road sector have not improved. The present expenditure falls far short of requirements for upgrading and warranted maintenance expenditure. It has been estimated that maintenance grants is short of about 30-40 percent for National Highways and about 50-60 percent for State Highways respectively than the actual requirements. Knowing the fact that the road maintenance grant will remain more or less same due to other developmental activities in the country, and also the road deterioration will be at a much faster rate, it is the need of the hour to use the funds in a systematic and efficient manner.

Different Techniques for Measurement of Unevenness

Manual Quasistatic Method

  1. Straight Edge
  2. Rod & Level Method
  3. Unevenness Indicator (Rolling St. Edge, devised by CRRI)
  4. Profiligraph (deviced by CRRI)
  5. TRRL Beam (TRRL – UK)

High Speed Profilimetric Method

  1. High Speed Road Monitor (TRRL –UK)
  2. GMR Profilometer (General Motors Laboratory, USA)
  3. Longitudinal Profile Analyser (Franch Bridge & Pavement Laboratory)

Unevenness Index Norms for Bump Integrator

Functional Performance of Cement Concrete Pavements
The roughness norms for highway pavements for Indian condition for bituminous and gravel roads have been revised recently but cement concrete pavement norms has been introduced for the first time and are given in Indian Roads Congress, Special Publication No. 16. For cement concrete pavement, the maximum recommended unevenness index norms for good pavement is suggested 2200 mm/km, as for the average pavement, the norms of unevenness index vary from 2200 to 3000 mm/km and any unevenness index value greater than 3000mm/km, is considered to be poor.

Surface Evenness Norms for 3m Straight Edge

When cement concrete pavement is evaluated by 3m straight edge, the maximum permitted number of surface irregularities and their sizes, for National Highways/Expressways and roads of lower category in specified lengths of 300m and 75m stretches, have been recommended as per the MORTH’s specification.

Case Studies

National Highway 2 Near Palwal

Functional Performance of Cement Concrete Pavements
Strengthening and widening to 4-Lane of National Highway from km 37.30 to km 93.83 in Haryana State was first taken up by Public Works Department, B&R Branch funded by Asian Development Bank (ADB) Project in 1988. Under this project additional 2-lane carriageway was constructed of a rigid Plain Cement Concrete (PCC) pavement whereas strengthening of existing 2-lane carriageway had been done as a flexible bituminous pavement. The Rigid pavement consisted of 150 mm Dry Lean Concrete M10 Roller Compacted, top layer, 300 M40 Pavement Quality Concrete (PQC) laid with single width (3.5 m) Slip Form Paver (Gomaco) imported from USA. The main benefits to be derived from cement concrete pavement were to reduce transport constraints there by reduce travel time and facilitate faster; cheaper and more efficient transport system in the area as well as to increase tourism facility, promote both in industrial and agricultural area.

The work was executed as per the MOST’s Specifications for “Road and Bridge” published by Indian Roads Congress, 1992 and such modifications thereto as given the “Technical Specifications” in tender. 75 per hour capacity Miller Batching Plant was used by the Concrator for producing Concrete. Gomaco Slip Form Concrete Paver capable of paving a width of 3.5m per minute was used. The concrete pavement was constructed lane by-lane 3.5m each in two runs.

Texturing and Curing Machine was used for texturing and spraying curing compound on the plastic concrete surface. The concrete M40 having 300 mm thick 3.5 m wide concrete pavement was vibrated and finished by slip form paver. After required interval of time the concrete surface was textured with Texturing & Curing Machine following train and finally sprayed with curing compound on to the still plastic concrete surface.

Under NHDP Programme, the various sections of National Highway -02 near Kanpur, Khaga, Allahabad, and Varansi in Uttar Pradesh and others in Bihar State are being constructed using 8 m width Slip Form Paver to enable construction of 8 m width pavement in one operation.

Industrial Roads at Kasana (Road I and Road II) and Loni

With a view to make the national capital region of Delhi more environment-friendly, Delhi government moved many factories and industrial establishments from the capital to nearby satellite cities. For this purpose, the U.P. Govt. Pradesh constructed a sprawling industrial complex, just 35 kms away from Delhi. In view of the need for creating long lasting road assets at the complex, three roads having a 7.5km length were constructed using single lane width slip form paver at Kasana and Loni.

National Highway Near Khaga (Road I & II)

Under National Highway Development Programme (NHDP) Project, there are two major programme, one is Golden their Quadrilateral (GQ) Programme to connect all the four metro cities i.e. Delhi, Kolkata, Chennai and Mumbai and under another programme to connect the East-West (Silchar to Rajkot) and North-South (Srinagar to Kannyakumai). Delhi-Kolkata section is being widened and strengthened of existing carriageway with dual carriageway with minimum 4 lanning width. Some section, falling under Delhi-Kolkata, was constructed with cement concrete pavement using modern slipform paving having 8.5m width covering two lane width as well as shoulder width of 1.5m.
Functional Performance of Cement Concrete Pavements

Field Study

National Highway No. 2 Near Palwal

The riding quality assessment of cement concrete pavements was done using Bump Integrator at the time of commencement of In-House Project in 2004. During years 2004–2006, the roughness was assessed by Bump Integrator on both wheel paths of all roads and average roughness of both wheel paths, for both years are reported in Table 1 (2004-06).

Industrial Roads

The riding quality assessment of cement concrete pavements was done using Bump Integrator and with conventional method using 3 m Straight Edge also at the time of construction in year 1998. The roughness was again assessed in 2004 by Bump Integrator on both wheel paths of all roads and an average roughness of both wheel paths is reported.

The irregularities under 3m Straight Edge were also measured on all the three industrial roads at Kasana and Loni at wheel path at 2 locations on Road No. 1 (Kasana) and 3 locations on Road No. 2 (Kasana) and 5 locations of Loni Road at the time of construction. The total number of irregularities of size of 4mm, 7mm and more than 7mm in each 300m test sections are measured and presented in Table 2. The roughness index values measured in 1998 and 2004 of industrial road at Kasana and Loni using ARUR / BI are presented in Table 3.

National Highway Near Khaga (Road I & II) – Roughness Measurements Just After Construction

Recently, Institute evaluated roughness measurements using Bump Integrator on 2 selected sections on Khaga- Allahabad (Road I) and Khaga-Kanpur (Road II) in the year 2004. The unevenness index values on both sections are presented in Table 4.

Discussion on Data

The performance study in terms of unevenness index conducted on the selected sections of National Highway near Palwal, it was observed that the roughness index values in 2004 were found to be 2314 mm/km and overall condition rating was found to be average. The roughness index values in 2006 were found to be 2211mm/km respectively and overall condition rating was found to be average. It can be seen from the data that there is marginal change in roughness index values after two years time.

The riding quality assessment done on Industrial Road Kasana and Loni at the time of construction in 1998 were found to be 100 percent average and unevenness index values were found to be in ranging from 2506 mm/km to 2892 mm/km. The surface finish obtained of all industrial roads just after construction were initially very high, it can be seen from the straight edge data collected during the execution of project. The riding quality assessment again done on same Industrial Road Kasana (Road I and Road II) and Loni after 6 years of time in 2004 and unevenness index values were found to be in average in order to 2619 mm/km, 2614 mm/km and 3010 mm/km respectively.

The surface evenness study conducted on cement concrete pavement using laser-guided slipform paver under NHDP project in 2005, it was found that the entire sections of both roads I & II were of good category, which is actually required. This may be due to better quality control, adopted during the construction.

Conclusions

Functional Performance of Cement Concrete Pavements
  • The standards currently laid down in India on surface evenness of highway pavements are though comparable to those prescribed in some other countries, but generally are not achieved in practice. The irregularities measured under 3 m St. Edge on Industrial Roads at Kasana and Loni are found to be oversizes then the prescribed values at the time of construction. Unevenness Index values were also found to be higher than the prescribed values in standard.
  • Uneveness Index values recorded on cement concrete pavement at the interval of two and six years were not enhanced too much, which shows that cement concrete pavements are durable and sustainable in riding quality for a longer period.
  • The overall riding quality of newly constructed mechanized cement concrete pavements recently constructed by 8.5m width slipform paver being used in NHDP projects is found very satisfactory and overall study conducted on two sections near Khaga are found to be in good roughness index.
  • The study is based on limited work carried out by the Institute and there is need to evaluate more cement concrete pavements for drawing specific conclusion for cement concrete pavements.

References

  • CRRI, New Delhi, Report on Construction Evaluation of Quality and Quantity of Road Works for UPSIDC (Phase II), CRRI, June, 1999, 123p.
  • Road User Cost Study in India, Final Report, Vol. VI, CRRI, New Delhi, p.7.
  • Ministry of Surface Transport Specifications for Road and Bridge Works, (Fourth Revision), The Indian roads congress, 2001.
  • IRC: SP: 16–2004 Specification of Pavement Roughness
  • Sharma, S.D., Muraleedharan, T., Gupta, Honey and Nanda, P.K., Quality Evaluation of Cement Concrete Pavements–Some Case Studies, 5th International Conference on Concrete Technology for Developing Countries, National Council for Cement and Buildind Materials, Proceedings Vol. 2 p. VI-25.
  • Assessment of Riding Quality Using Automatic Road Unevenness Recorder–Case Studies,” Sharma, S.D., Agrawal, R.C., Kumar, P. and Nanda, P.K., National Seminar on Challenges for Road Transportation in 21th Century, CIRT 2001,
  • “Performance of Cement Concrete Pavement in India,” by Sharma, S.D., Muraleedharan, T., Kumar Prashant and Nanda, P.K., 6th International Conference on Concrete Technology for Developing Countris, Amman, Jordan, 2002.
  • Surface Characteristics of Cement Concrete Pavements–A Case Study oh NH-02, by Sharma, S.D., V.K. Sood, Sudesh Kumar and Agarwal, R.C., Seminar on Design, Construction and Maintenance of Cement Concrete Pavements, Indian Roads Congress, New Delhi, 2004.
  • Surface Evenness Characteristics of Newly Constructed Concrete Pavements,” by Sharma, S.D. and Soos, V.K. Indian Concrete Journal, 2005.

NBMCW February 2009

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