Scientific Research and Essays

  • Abbreviation: Sci. Res. Essays
  • Language: English
  • ISSN: 1992-2248
  • DOI: 10.5897/SRE
  • Start Year: 2006
  • Published Articles: 2731

Full Length Research Paper

Compaction and strength characteristics of recycled pavement material: Cement mixtures used for road pavement purposes

Apichit Kumpala
  • Apichit Kumpala
  • Department of Civil Engineering, Faculty of Engineering, Rajamangala University of Technology Isan. KhonKaen Campus, 150 Srichan Street, Muang District, KhonKaen, 40000, Thailand.
  • Google Scholar
Peerapong Jitsangiam
  • Peerapong Jitsangiam
  • Center of Excellence in Natural Disaster Management, Department of Civil Engineering, Faculty of Engineering, Chiang Mai University, HuaiKaew Road, Mueang, Chiang Mai, 50200, Thailand.
  • Google Scholar
Anukun Arngbunta
  • Anukun Arngbunta
  • Department of Civil Engineering, Faculty of Engineering, Rajamangala University of Technology Isan. KhonKaen Campus, 150 Srichan Street, Muang District, KhonKaen, 40000, Thailand.
  • Google Scholar
Pattarapong Singhan
  • Pattarapong Singhan
  • Office of the Highway 3 (Sakon Nakhon), 1900 Siswang Street, Thard Choeng Chum District, Sakon Nakhon, 47000, Thailand.
  • Google Scholar


  •  Received: 26 July 2018
  •  Accepted: 25 September 2018
  •  Published: 15 February 2019

References

American Association of State Highway and Transportation Officials (AASHTO) (1982). AASHTO Materials (Part I). Specification. Washington, D.C. American Concrete Institute (ACI) (1990). State of the Art Report on Soil Cement. ACI230. 1R-90. ACI Materials Journal 87(4):23.

 

Austroads (2006). Guide to pavement technology part 4D: Stabilised materials (AGPT04D-06). Sydney, NSW, Australia.

 

Chummuneerat S (2014). Performance, evaluation, and enhancement of hydrated cement treated crushed rock base (HCTCRB) as a road base material for Western Australian roads Bentley (Ph.D. Thesis). WA, Australia, Curtin University.

 

Davidson DT, Pitre GL, Matoes M, Kalankamary PG (1962). Moisture-density, moisture-strength and compaction characteristics of cement treated soil mixtures. Highway Research Board Bulletin 353:42-63.

 

Department of Highways (2013). Cement Modified Crushed Rock Base. Standard No.DH-S 203/2556. Bangkok, Thailand.

 

Felt EJ (1955). Factors influencing physical properties of soil-cement mixtures. Highway Research Board Bulletin 108:38-63.

 

Hashemian L, Kavussi A, Aboalmaali HH (2014). Application of foam bitumen in cold recycling and hydrated lime in airport pavement strengthening. Case Studies in Construction Materials 1:164-171.
Crossref

 

Horpibulsuk S, Katkan W, Sirilerdwattana W, Rachan R (2006). Strength development in cement stabilized low plasticity and coarse grained soils: Laboratory and field study. Soils and Foundations 46(3):351-366.
Crossref

 

Horpibulsuk S, Miura N, Nagaraj TS (2005). Clay-water/cement ratio identity of cement admixed soft clay. Journal of Geotechnical and Geoenvironmental Engineering 131(2):187-192.
Crossref

 

Horpibulsuk S, Rachan R, Chinkulkijniwat A, Yaksachon Y, Suddepong A (2010). Analysis of strength development in cement stabilized clay from microstructural considerations. Construction and Building Materials 24(10):2011-2021.
Crossref

 

Ismail AIM, Ryden N (2014). The quality control of engineering properties for stabilizing siltynile delta clay soil. Egypt. Geotechnical and Geological Engineering 32:773-781.
Crossref

 

Jitsangiam P, Nikraz H (2009). Mechanical behaviours of hydrated cement treated crushed rock base as a road base material in Western Australia. International Journal of Materials in Civil Engineering 10(1):39-47.
Crossref

 

Korakod N, Jitsangiam P, Kodikara J, Bui HH (2017). Advanced characteristics of cement-treated materials with respect to strength performance and damage evolution, Journal of Materials in Civil Engineering 29(4):04016255.
Crossref

 

Kwon HM, Le AT, Nyuyen NT (2010). Influence of soil grading on properties of compressed cement-soil. KSCE Journal of Civil Engineering 14(6):845-853.
Crossref

 

Metcalf JB (1977). Principles and application of cement and lime stabilization. Australian Road Research Board 49(20).

 

Miura N, Horpibulsuk S, Nagaraj TS (2001). Engineering behavior of cement stabilized clay at high water content. Soils and Foundations 41(5):33-45.
Crossref

 

Norling LT, Peckard RG (1958). Expended short - cut test method for determining cement factors for sandy soils. Highway Research Board Bulletin 198:20-31.

 

Puppala AJ (2016). Advances in ground modification with chemical additives: from theory to practice. Transportation Geotechnics 9:123-138.
Crossref