JKCI - Journal of the Korea Concrete Institute

1

Abutaha F., Razak H. A., Kanadasan J., 2016, Effect of Palm Oil Clinker (POC) Aggregates on Fresh and Hardened Properties of Concrete, Construction and Building Materials, Vol. 112, No. 1, pp. 416-423

2

Breugel K. V., 1997, Simulation of Hydration and Formation of Structure in Hardening Cement-Based Materials, Second Edition. Ph.D. Thesis. Delft University

3

Choi H. B., Kim J. M., 2018, Fundamental Properties of Lightweight Concrete with Dry Bottom Ash as Fine Aggregate and Burned Artificial Lightweight Aggregate as Coarse Aggregate, Journal of the Korean Recycled Construction Resources Institute, Vol. 6, No. 4, pp. 267-274

4

Choi H. B., Kim J. M., Sun J. S., Han D. Y., 2015, Shape Improvement and Optimum Gradation of Dry Processed Bottom Ash for Lightweight Mortar, Journal of the Korean Recycled Construction Resources Institute (In Korean), Vol. 3, No. 1, pp. 7-14

5

Davide L., Roberto G., Andreas H., 2012, Structure of Magnetite (Fe3O4) above the Curie Temperature: A Cation Ordering Study, Physics and Chemistry of Minerals, Vol. 39, pp. 169-176

6

European Committee for Standardization (CEN) , 1990a, Testing Aggregates. Methods for Determination of Aggregate Crushing Value (ACV) (BS 812-110:1990), London, UK; British Standards Institute (BSI)

7

European Committee for Standardization (CEN) , 1990b, Testing Aggregates. Methods for Determination of Ten Percent Fines Value (TFV) (BS 812-111:1990), London, UK; British Standards Institute (BSI)

8

European Committee for Standardization (CEN) , 2013, Tests for Mechanical and Physical Properties of Aggregates. Determination of Compressibility and Confined Compressive Strength of Lightweight Aggregates (BS EN 1097-11:2013), London, UK; British Standards Institute (BSI)

9

Geetha S., Ramamurthy K., 2010, Environmental Friendly Technology of Cold-Bonded Bottom Ash Aggregate Manufacture Through Chemical Activation, Journal of Cleaner Production, Vol. 18, No. 15, pp. 1563-1569

10

Geetha S., Ramamurthy K., 2011, Properties of Sintered Low Calcium Bottom Ash Aggregate with Clay Binders, Construction Building Materials, Vol. 25, No. 4, pp. 2002-2013

11

Geetha S., Ramamurthy K., 2013, Properties of Geopolymerised Low-Calcium Bottom Ash Aggregate Cured at Ambient Temperature, Cement and Concrete Composites, Vol. 43, pp. 20-30

12

Harikrishnan K. I., Ramamurthy K., 2006, Influence of Pelletization Process on the Properties of Fly Ash Aggregates, Waste Management, Vol. 26, No. 8, pp. 846-852

13

Hong S. S., Lee C. B., Park D. W., Yang D. Y., Kim J. Y., Lee B. T., Oh K. C., 2004, Geology and Distribution of Crushed Aggregate Resources in Korea, Economic and Environmental Geology, Vol. 37, No. 5, pp. 555-568

14

Jegathish K., 2016, Feasibility Study of Palm Oil Clinker as Environmentally Friendly Self-Compacting Concrete, PH.D. Thesis. University of Malaya

15

Jo B. W., Park S. K., Park J. B., 2007, Properties of Concrete Made with Alkali-Activated Fly Ash Lightweight Aggregate (AFLA, Cement and Concrete Composites, Vol. 29, No. 2, pp. 128-135

16

Joseph G., Ramamurthy K., 2009, Influence of Fly Ash on Strength and Sorption Characteristics of Cold-Bonded Fly Ash Aggregate Concrete, Construction and Building Materials, Vol. 23, No. 5, pp. 1862-1870

17

KATS , 2017a, Standard Test Method for Density and Water Absorption of Lightweight Fine Aggregates for Structural Concrete (KS F 2529), Seoul, Korea: Korea Standard Association (KSA), Korea Agency for Technology and Standards (KATS). (In Korean)

18

KATS , 2017b, Methods of Test Particle Density and Water Absorption of Light Weight Coarse Aggregates for Structural Concrete (KS F 2533), Seoul, Korea: Korea Standard Association (KSA), Korea Agency for Technology and Standards (KATS). (In Korean)

19

KATS , 2017c, Standard Test Method for Bulk Density and Solid Contents in Aggregates (KS F 2505), Seoul, Korea: Korea Standard Association (KSA), Korea Agency for Technology and Standards (KATS). (In Korean)

20

KATS , 2017d, Standard Test Method for Determination of Aggregate-Crushing-Value (ACV) (KS F 2541), Seoul, Korea: Korea Standard Association (KSA), Korea Agency for Technology and Standards (KATS). (In Korean)

21

KATS , 2018, Concrete Aggregate (KS F 2527), Seoul, Korea: Korea Standard Association (KSA), Korea Agency for Technology and Standards (KATS). (In Korean)

22

KATS , 2019, Standard Test Method for Sieve Analysis of Fine and Coarse Aggregates (KS F 2502), Seoul, Korea: Korea Standard Association (KSA), Korea Agency for Technology and Standards (KATS). (In Korean)

23

KCI , 2016, Concrete & Environment., Seoul, Korea; Kimoondang Publishing Company. Korea Concrete Institute (KCI). (In Korean)

24

Kim J. H., Kim N. H., Yang S. C., 2015, The Effect of the Residual Mortar of Recycled Concrete Aggregate on Alkali Silica Reaction, International Journal of Highway Engineering, Vol. 17, No. 4, pp. 19-24

25

Kim J. M., Song B. H., Kim C. M., Lim D. B., Lee S. G., 2016, Development of Environmentally-Friendly Low- Density Construction Material Using Dry-Processed Bottom Ash, Korea, Sejong-si: Ministry of Environment (MOE). No. 201300150009. (In Korean)

26

Kim T. I., 2018, An Experimental Study on the Estimation of Elastic Modulus of Lightweight Aggregate Concrete by Analysis of Lightweight Aggregate Mechanical Properties, Ph.D. Thesis. Konkuk University. (In Korean)

27

Kim Y. H., 2016, Manufacture of Lightweight Aggregates Using Bottm Ash, Magazine of Recycled Construction Resources Institute (In Korean), Vol. 11, No. 2, pp. 30-34

28

Lee H. G., 2019, Research Trends and Applications of Industrial By-Product (Bottom Ash) for Concrete Materials, Magazine of Recycled Construction Resources Institute (In Korean), Vol. 14, No. 3, pp. 39-43

29

Lee K. H., Yang K. H., Choi B. S., 2019, Effect of Natural Sand Content on the Mechanical Properties of Lightweight Aggregate Concrete with Different Compressive Strengths, Journal of the Korea Concrete Institute, Vol. 31, No. 2, pp. 113-121

30

LH , KOEN , 2018, A Study of Practical Application of Bottom Ash as Fill Materials and Road Materials, Korea, Jinju-si: Korea Land & Housing Corporation (LH), Korea South-East Power Co. (KOEN). Research Support, No. 2018-130

31

Manikandan R., Ramamurthy K., 2008, Effect of Curing Method on Characteristics of Cold Bonded Fly Ash Aggregates, Cement and Concrete Composites, Vol. 30, No. 9, pp. 848-853

32

Mehta P. K., Monteiro P. J. M., 2006, Concrete: Microstructure, Properties, and Materials. Third Edition, New York: McGraw-Hill, pp. 30-52

33

MOLIT , 2018a, Korean Construction Specification: General Concrete (KCS 14 20 10), Sejong, Korea: Ministry of Land, Infrastructure and Transport (MOLIT). (In Korean)

34

MOLIT , 2018b, Korean Construction Specification: Light Weight Aggregate Concrete (KCS 14 20 20), Sejong, Korea: Ministry of Land, Infrastructure and Transport (MOLIT). (In Korean)

35

Neville A. M., 1981, Properties of Concrete Third Edition, London: Pitman Publishing, pp. 130-135

36

Nunes M. C. M., 1997, Enabling the Use of Alternative Materials in Road Construction, Ph.D. Thesis. University of Nottingham.

37

Park S. H., Lee J. B., Kim S. S., 2016, The Durability of the Concrete Using Bottom Ash as Fine Aggregate, Journal of the Korean Recycled Construction Resources Institute(In Korean), Vol. 4, No. 4, pp. 349-355

38

Powers T. C., 1958, Structure and Physical Properties of Hardened Portland Cement Paste, Journal of the American Ceramic Society, Vol. 41, No. 1, pp. 1-6

39

Rehman M. UI., Rashid K., Haq E. UI., Hussain M., Shehzad N., 2020, Physico-Mechanical Performance and Durability of Artificial Lightweight Aggregates Synthesized by Cementing and Geopolymerization, Construction and Building Materials, Vol. 232, No. 30

40

Vasugi V., Ramamurthy K., 2014, Identification of Design Parameters Influencing Manufacture and Properties of Cold-bonded Pond Ash Aggregate, Materials and Design, Vol. 54, pp. 264-278

JKCIJournal of
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Journal of the Korea Concrete Institute

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JKCIJournal ofthe Korea Concrete Institute