Characteristics of Recycled Concrete Aggregate and its Implementation for Pavement Base Applications: A Review

Shravan Kumar Gangu; Shankar Sabavath

Characteristics of Recycled Concrete Aggregate and its Implementation for Pavement Base Applications: A Review

محل انتشار: Journal of Rehabilitation in Civil Engineering، دوره: 11، شماره: 2

سال انتشار: 1402

نوع سند: مقاله ژورنالی

زبان: انگلیسی

مشاهده: 133

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https://civilica.com/doc/2070483

شناسه ملی سند علمی:

JR_CIVLJ-11-2_008

تاریخ نمایه سازی: 23 شهریور 1403

چکیده مقاله:

Significant amounts of Natural Aggregate (NA) materials are being used to meet the requirements of pavement structure. Simultaneously, enormous amounts of demolition waste, such as demolished concrete and reclaimed pavement materials, are dumped into landfills along roadsides, creating pressure on the environment. Therefore, the recycling of demolished materials and their utilization for pavement construction would result in conservation of natural aggregates, this would alleviate the problems related to geo-environment and bring several benefits for the environment and ensure sustainability. Several studies have been carried out to describe the mechanical properties of recycled concrete aggregate (RCA) with and without stabilization. A thorough understanding of performance-related engineering properties of unbound RCA and stabilized RCA is essential for mechanistic-empirical pavement design. This paper reviewed the mechanical properties such as compaction, California bearing ratio, resilient modulus, and permanent deformation in the case of unbound RCA, and unconfined compressive strength, flexural strength, and stiffness for stabilized RCA from accessible works of literature on the application of RCA for pavement base. The findings from the literature indicated that RCA is source-dependent, moisture sensitive, and subjected to particle breakdown under wheel load that results in reduced shear strength. Further, if RCA is treated with mechanical stabilization by geosynthetics, the interface shear strength properties improve, and permanent deformation is reduced. Chemically stabilized RCA is a promising technique as its strength and durability complied with stabilized NA. Therefore, this review will be helpful for pavement engineering practitioners to explore RCA use in pavement base or subbase layers.

کلیدواژه ها:

Recycled concrete aggregate ، Stabilization ، Mechanical properties ، Environmental safety

نویسندگان

Shravan Kumar Gangu

Research Scholar, Department of Civil Engineering, Transportation Division, National Institute of Technology, Warangal-۵۰۶۰۰۴, India

Shankar Sabavath

Assistant Professor, Department of Civil Engineering, Transportation Division, National Institute of Technology, Warangal-۵۰۶۰۰۴, India

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. Mani M, Venkatarama Reddy BV. (۲۰۱۲).Sustainability in human settlements: ...
. Jain S, Singhal S, Jain NK.(۲۰۱۸). Construction and demolition ...
. Akhtar A, and Sarmah. (۲۰۱۸). Construction and demolition waste ...
. Kazemian F, Rooholamini H, Hassani A. (۲۰۱۹). Mechanical and ...
. Maria AD, Eyckmans J, Acker KV. (۲۰۱۸). Downcycling versus ...
. Limbachiya MC, Koulouis A, Roberts JJ, Fried AN.(۲۰۰۴). Performance ...
. Islam R, Nazifa TH, Yuniarto A, Uddin ASMS, Salmiati ...
. O Mahony MM, Milligan GWE. (۱۹۹۱). Use of recycled ...
. Bennert T, Papp WJ, Maher A, Gucunski N. (۲۰۰۰). ...
. Park T. (۲۰۰۳). Application of Construction and Building Debris ...
. Poon CS, Chan D.(۲۰۰۶). Feasible use of recycled concrete ...
. Blankenagel BJ, Guthrie W.S. (۲۰۰۶). Laboratory characterization of recycled ...
. Arulrajah A, Piratheepan J, Ali MMY, Bo MW.(۲۰۱۲). Geotechnical ...
. Arulrajah A, Disfani MM, Horpibulsuk S, Suksiripattanapong C, Prongmanee ...
. Arisha AM, Gabr AR, El-Badawy SM, Shwally SA.(۲۰۱۸).Performance evaluation ...
. Ardalan N, Wilson DJ, Larkin TJ.(۲۰۲۰). Analyzing the Application ...
. Puppala AJ, Wattanasantichareon E, Hoyos LR.(۲۰۰۳).Ranking of four chemical ...
. Mohammadinia A, ArulrajahA, Sanjayan J, Disfani MM, Bo MW, ...
. Arulrajah A, Mohammadinia A, Phummiphan I, Horpibulsuk S, Samingthong ...
. Mohammadinia A, Arulrajah A, Sanjayan J, Disfani MM, Win ...
. Arulrajah A, Mohammadinia A, D'Amico, Horpibulsuk S.(۲۰۱۷). Cement kiln ...
. Mohammadinia A, Arulrajah A, D Amicao, Horpibulsuk S. (۲۰۱۸). ...
. Giri JP, Panda M, Sahoo UC.(۲۰۱۸a). Performance Of Bituminous ...
. Maduabuchukwu Nwakaire C, Poh Yap S, Chuen Onn C, ...
. Sanger M, Natarajan BM, Wang B, Edil T, Vogel ...
. Aytekin B, Aghabaglou AM. (۲۰۲۲). Sustainable materials: A review ...
. Akbarnezhad A, Ong KCG, Zhang MH, Tam CT.Acid treatment ...
. Gabr AR, Cameron DA.(۲۰۱۲). Properties of recycled concrete aggregate ...
. Edil B. (۲۰۱۷).A review of recycled aggregates (RAP and ...
. Tam VWY, Tam CM.(۲۰۰۷).Crushed aggregate production from centralizing combined ...
. Arulrajah A, Ali M, Disfani M, Horpibusuk S.(۲۰۱۴a).Recycled glass ...
. Cooley LA, Hornsby H. (۲۰۱۲). Evaluation of Crushed Concrete ...
. Bennert T, Maher A.(۲۰۰۵).The development of a performance specification ...
. Poon CS, Chan DX.(۲۰۰۶b). Feasible use of recycled concrete ...
. Poon CS, Chan D.(۲۰۰۶a). The use of recycled aggregate ...
. Bennert T, Maher A. (۲۰۰۸). The use of recycled ...
. Melbouci B. (۲۰۰۹). Compaction and shearing behavior study of ...
. Jimnez JR, Ayuso J, Argela F, Lopez, M, Galvin, ...
. Behiry AE.(۲۰۱۳). Utilization of cement treated recycled concrete aggregates ...
. Haider I, Cetin B, Kaya Z, Hatipogulu M, Cetin ...
. Echevarria MJM, Alonso ML, Garach L, Alegre J, Poon ...
. Huang, Y. H. (۱۹۹۳). Pavement analysis and design, Prentice-Hall, ...
. American Association of State Highway and Transportation Officials.Standard Test ...
. American Association of State Highway and Transportation Officials. Standard ...
. NCHRP (۲۰۰۰), Harmonized test methods for laboratory determination of ...
. Lekarp F, Isacsson U, Dawson A. (۲۰۰۰). State of ...
. Aydilek AH. (۲۰۱۵). Environmental Suitability of Recycled Concrete Aggregates ...
. Nataatmadja A, Tan YL. (۲۰۰۱). Resilient response of recycled ...
. Molin C, Larsson K, Arvidsson H. (۲۰۰۴).Quality of reused ...
. Jitsangiam P, Nikraz H, Siripun K.(۲۰۰۹). Construction and demolition ...
. Vuong BT, Brimble R(۲۰۰۰). Austroads repeated load triaxial method-Determination ...
. Bozyurt O, Tinjum JM, Son YH, Edil T. B, ...
. Azam AM, Cameron DA, Rahman MM. (۲۰۱۳). Model for ...
. Applied Research Associates (ARA). (۲۰۰۴). Guide for mechanistic-empirical design ...
. Arulrajah A, Rahman MA, Piratheepan J, Bo MW, Imteaz ...
. Bestgen JO, Hatipogulu M, Cetin B, Aydilek AH. (۲۰۱۶). ...
. Jayakody S, Gallage C, Ramanujam J. (۲۰۱۹). Performance characteristics ...
. Gabr AR, Mills KG, Cameron DA. (۲۰۱۳). Repeated load ...
. Balbo JT. (۱۹۹۷). High-quality cement treated crushed stones for ...
. MEPDG. Guide for Mechanistic-Empirical Pavement Design Guide. AASHTO, ۲۰۰۸ ...
. Yeo YS, Jitsangiam P, Nikraz H. (۲۰۱۱). Mix design ...
. ASTM (۱۹۹۵). Standard test method for indirect tension test ...
. Sobhan K, Mashnad M. (۲۰۰۰). Fatigue durability of stabilized ...
. ASTM. (۲۰۱۴). Standard test method for compressive strength of ...
. Guthrie WS, Sebesta S, Scullion T. (۲۰۰۲). Selecting optimum ...
. Texas Dept. of Transportation (TxDOT).(۲۰۱۳). Test procedure for soil-cement ...
. Li Y, Sun X, Yin J. (۲۰۱۰). Mix design ...
. Disfani MM, Arulrajah A, Hahhighi H, Mohammadinia A, Horpibulsuk ...
. AS ۵۱۰۱.۴-۲۰۰۸. Methods for preparation and testing stabilized materials ...
. ASTM. (۲۰۰۹). Standard test method for unconfined compressive strength ...
. Zhou J, Zeng M, Chen Y, Zhong M. (۲۰۱۹). ...
. Yaowarat T, Horpibulsuk S, Arulrajah A, Maghool F, Mirzababei ...
. AUSTROADS (۲۰۰۸). Guide to pavement technology: Pavement Structural Design ...
. IRC (Indian Roads Congress).۲۰۱۸. Guidelines for the design of ...
. ASTM. (۱۹۹۶). Standard test method for splitting tensile strength ...
. ASTM. (۲۰۰۹). Standard test method for flexural strength of ...
. AS۱۰۱۲.۱۱-۲۰۰۰. Methods of testing concrete, Method ۱۱: Determination of ...
. Mohammadinia A, Arulrajah A, Phummiphan I, Horpibulsuk S, Mirzababei ...
. Arulrajah A, Perera S, Wong YC, Horpibulsuk S, Maghool ...
. Austroads,APT۱۰۱/۰۸. The development and evaluation of protocols for the ...
. Rahman MA, Arulrajah A, Piratheepan J, Bo MW, Imteaz ...
. Liu X, Scarpas A, Blaauwendraad J, Genske DD. (۱۹۹۸). ...
. Gongora I AG, Palmira EM. (۲۰۱۲). Influence of fill ...
. Rahman MA, Arulrajah A, Piratheepan J, Bo MW, Imteaz ...
. Walkenbach T N, Han J, Parsons RL, Li Z. ...
. Barksdale RD, Itani SY, Swor TE.(۱۹۹۲). Evaluation of recycled ...
. Cavey JK, Krizek RJ, Sobhan K, Baker WH.(۱۹۹۵). Waste ...
. Chini AR, Kuo S, Armaghani JM, Duxbury JP. (۲۰۰۱). ...
. Ho NY, Lee YPK, Tan JY.(۲۰۰۸). Beneficial use of ...
. Coban HS, Cetin B, Ceylan H, Edil T, Nazarian ...

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