<p><p><h2>Preferred Design Procedure</h2>The Federal Highway Administration (FHWA) has one design guidance document for this technology. The document is summarized below.</p><p><table class='tablepress' id='tablepress-283'><thead><th>Publication Title</th><th>Publication Year</th><th>Publication Number</th><th>Available for Download</th></thead><tbody><tr><td >Soil Stabilization in Pavement Structures</td><td ><center>1979</center></td><td ><center>FHWA-IP-80-2</center></td><td ><center>No</center></td></tr></tbody></table></p></p>
<div class='' id='' title=''><h3>References</h3><p><p>Adaska, W.S. and Luhr, D.R. (2004). “Control of Reflective Cracking in Cement Stabilized Pavements.” <em>The 5th International RILEM Conference, Cracking in Pavements – Mitigation, Risk Assessment and Prevention</em>, Limoges, France.</p><p>ACAA (2008). <em>Soil stabilization and pavement recycling with self-cementing coal fly ash</em><em>.</em> American Coal Ash Association, Aurora, CO. 1-70.</p><p>Army and Air Force (1994). <em>Soil Stabilization for Pavements</em>. Joint Departments of the Army, the Navy and Air Force, Washington, DC.</p><p>Christopher, B.R., Schwartz, C., and Boudreau, R. (2006). <em>Geotechnical Aspects of Pavements.</em> Rep. No. FHWA-NHI-05-037, U.S. Department of Transportation, Federal Highway Administration, Washington D.C.</p><p>Eades, J. L. and Grim, R. E. (1966). A quick test to determine lime requirements for lime stabilization, <em>Highway Research Record 139</em>. HRB. National Research Council, Washington, D.C.</p><p>National Lime Association (2000) “Guidelines for stabilisation of soils containing sulfates” Texas, USA, < http://www.lime.org/documents/publications/free_downloads/technical-mem… >, (August 15, 2010).</p><p>Little, D. N. (1995). Handbook for Stabilization of Pavement Subgrades and Base Courses with Lime. Kendall / Hunt Publishing Company, Dubuque, Iowa.</p><p>Oflaherty, C.A., Charles, E. E., and Davidson, D. T. (1963) the Iowa State Compaction Apparatus: a Small Sample Apparatus for Use in Obtaining Density and Strength Measurements of Soil and Soil-Additives. Project HR-83 of the Iowa State University Board, for presentation at the Forty Second Annual Meeting of the Highway Research Board, Washington, D. C.</p><p>Portland Cement Association (1995). <em>Soil-Cement Construction Handbook</em>, Skokie, Illinois.</p><p>Qubain, B.S., Seksinsky, E.J, and Li, J. (2000). “Incorporating subgrade lime stabilization into pavement design.” <em>Transportation Research Record</em>, 1721, 3-8.</p><p>Terrel, R. L., Epps, J. A., Barenberg, E. J., Mitchell, J. K., and Thompson, M. R. (1979). <em>Soil stabilization in pavement structures: A user's manual</em>. FHWA-IP-80-2, Vol. I and II, Department of Transportation, Federal Highway Administration, Washington, D.C.</p><p>Thompson, M. R. (1970). “Suggested Methods of Method of Mixture Design for Lime-Treated Soils.” <em>SPT, American Society for Testing and Materials.</em></p><p><em> </em>Transportation Research Board (1987). <em>Lime Stabilization</em><em>: </em><em>Reactions, Properties, Design and Construction</em><em>. </em>State of the Art Report 5, Report prepared by TRB Committee on Lime and Lime-Fly Ash Stabilization, Washington, D.C.</p><p>Winterkorn, H. F. and Pamukcu, S. (1990). <em>Soil stabilization and grouting</em>. Foundation Engineering Handbook, Chapter 9, Ed. By Fang, Hsai-Yang, 2<sup>nd</sup> Edition, Van Nortrand Reinhold, New York, 317-349.</p></p></div>