Characterizing the Mechanical Properties of Cementitious Emulsion Grout for Semi-Flexible Mixture

Fatima A. Jawad; Shakir F. Al-Busaltan; Mustafa A. Kadhim

doi:10.1051/e3sconf/202131803001

All issues

Volume 318 (2021)

E3S Web Conf., 318 (2021) 03001

References

Open Access

Issue		E3S Web Conf. Volume 318, 2021 Second International Conference on Geotechnical Engineering – Iraq (ICGE 2021)


Article Number		03001
Number of page(s)		11
Section		Developments in Structural Engineering and Construction Materials
DOI		https://doi.org/10.1051/e3sconf/202131803001
Published online		08 November 2021

Celik, F. and Canakci, H., 2015. An investigation of rheological properties of cement-based grout mixed with rice husk ash (RHA). Construction and Building Materials, 91,pp.187–194. [Google Scholar]
Müller, U., Miccoli, L. and Fontana, P., 2016. Development of a lime based grout for cracks repair in earthen constructions. Construction and Building Materials, 110,pp.323–332. [Google Scholar]
Lacerda, M.M.S., da Silva, T.J., Alva, G.M.S. and de Lima, M.C.V., 2018. Influence of the vertical grouting in the interface between corbel and beam in beam-to-column connections of precast concrete structures-An experimental analysis. Engineering structures, 172,pp.201–213. [Google Scholar]
Tullini, N. and Minghini, F., 2016. Grouted sleeve connections used in precast reinforced concrete construction-Experimental investigation of a column-to-column joint. Engineering Structures, 127,pp.784–803. [Google Scholar]
Mozumder, R.A., Laskar, A.I. and Hussain, M., 2018. Penetrability prediction of microfine cement grout in granular soil using Artificial Intelligence techniques. Tunnelling and Underground Space Technology, 72,pp.131–144. [Google Scholar]
Brown, S. and Needham, D., 2000. A study of cement modified bitumen emulsion mixtures. Asphalt Paving Technology, 69,pp.92–121. [Google Scholar]
Al-Qadi, I.L., Gouru, H. and Weyers, R.E., 1994. Asphalt Portland cement concrete composite: laboratory evaluation. Journal of transportation engineering, 120(1), pp.94–108. [Google Scholar]
Shannag, M.J., 2002. High-performance cementitious grouts for structural repair. Cement and concrete research, 32(5), pp.803–808. [Google Scholar]
Ryan, T.P., 2007. Modern engineering statistics. John Wiley & Sons. [Google Scholar]
Glossop, R., 1960. The invention and development of injection processes part I: 1902-1850. Geotechnique, 10(3), pp.91–100. [Google Scholar]
Habib, A.O., Aiad, I., El-Hosiny, F.I., and Mohsen, A., 2021. Studying the impact of admixtures chemical structure on the rheological properties of silica-fume blended cement pastes using various rheological models. Ain Shams Engineering Journal. [Google Scholar]
Kanamarlapudi, L., Jonalagadda, K.B., Jagarapu, D.C.K. and Eluru, A., 2020. Different mineral admixtures in concrete: a review. SN Applied Sciences, 2(4), pp.1–10. [Google Scholar]
Ma, C., Liu, Y., Zhou, H., Jiang, Z., Ren, W. and He, F., 2021. Influencing mechanism of mineral admixtures on rheological properties of fresh magnesium phosphate cement. Construction and Building Materials, 288, p.123130. [Google Scholar]
Vasumithran, M., Anand, K.B. and Sathyan, D., 2020. Effects of fillers on the properties of cement grouts. Construction and Building Materials, 246, p.118346. [Google Scholar]
Hassani, A., Taghipoor, M. and Karimi, M.M., 2020. A state of the art of semi-flexible pavements: Introduction, design, and performance. Construction and Building Materials, 253, p.119196. [Google Scholar]
Hlail, S.H., Al-Busaltan, S. and Shaban, A.M., 2020, November. Sustainable Development of Highly Flowable Cementitious Grouts for Semi-flexible Pavement Mixture. In IOP Conference Series: Materials Science and Engineering (Vol. 928, No. 2, p. 022068). IOP Publishing. [Google Scholar]
Tan, Y., Ouyang, J., Lv, J. and Li, Y., 2013. Effect of emulsifier on cement hydration in cement asphalt mortar. Construction and building Materials, 47,pp.159–164. [Google Scholar]
Oruc, S., Celik, F. and Akpinar, M.V., 2007. Effect of cement on emulsified asphalt mixtures. Journal of materials engineering and performance, 16(5), pp.578–583. [Google Scholar]
Niazi, Y. and Jalili, M., 2009. Effect of Portland cement and lime additives on properties of cold in-place recycled mixtures with asphalt emulsion. Construction and Building Materials, 23(3), pp.1338–1343. [Google Scholar]
Ouyang, J., Pan, B., Xu, W. and Hu, L., 2019. Effect of water content on volumetric and mechanical properties of cement bitumen emulsion mixture. Journal of Materials in Civil Engineering, 31(6), p.04019085. [Google Scholar]
Bocci, M., Grilli, A., Cardone, F. and Graziani, A., 2011. A study on the mechanical behaviour of cement-bitumen treated materials. Construction and building materials, 25(2), pp.773–778. [Google Scholar]
Boltryk, M. and Malaszkiewicz, D., 2013. Application of anionic asphalt emulsion as an admixture for concrete. Construction and Building Materials, 40,pp.556–565. [Google Scholar]
Song, H., Do, J. and Soh, Y., 2006. Feasibility study of asphalt-modified mortars using asphalt emulsion. Construction and building materials, 20(5), pp.332–337. [Google Scholar]
Ouyang, J., Zhao, J. and Tan, Y., 2018. Modeling mechanical properties of cement asphalt emulsion mortar with different asphalt to cement ratios and temperatures. Journal of Materials in Civil Engineering, 30(10), p.04018263. [Google Scholar]
Hlail, S.H., Al-Busaltan, S. and Shaban, A.M., 2021, February. Durability Evaluation: Sustainable Semi-flexible Pavement Mixtures. In IOP Conference Series: Materials Science and Engineering (Vol. 1067, No. 1, p. 012076). IOP Publishing. [Google Scholar]
ASTM, D2397, 2013. Standard specification for cationic emulsified asphalt. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
ASTM, D6934, 2008. Standard test method for residue by evaporation of emulsified asphalt. American Society for Testing Material. Conshohocken, PA, United States. [Google Scholar]
ASTM, D70, 2009. Standard test method for density of semi-solid bituminous materials (Pycnometer Method). American Society for Testing Material. Conshohocken, PA, United States. [Google Scholar]
ASTM, D5, 2013. Standard test method for penetration of bituminous materials. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
ASTM, D113, 2007. Standard test method for ductility of bituminous materials. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
ASTM, D7226, 2013. Standard test method for determining the viscosity of emulsified asphalts using a rotational paddle viscometer. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
ASTM, D6929, 2010. Standard practice for freezing of emulsified asphalts. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
ASTM, D2042, 2015. Standard Test method for solubility of asphalt materials in trichloroethylene. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
ASTM, D244, 2009, Standard test methods and practices for emulsified asphalts. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
ASTM, D6999, 2012. Standard practice for miscibility of emulsified asphalts. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
ASTM, D6998, 2011. Standard practice for evaluating aggregate coating using emulsified asphalts. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]
Lewis, R.C., 2018. Silica fume. In Properties of Fresh and Hardened Concrete Containing Supplementary Cementitious Materials (pp. 99–121). Springer, Cham. [Google Scholar]
Koting, S., Karim, M.R., Mahmud, H., Mashaan, N.S., Ibrahim, M.R., Katman, H. and Husain, N.M., 2014. Effects of using silica fume and polycarboxylate-type super-plasticizer on physical properties of cementitious grout mixtures for semi-flexible pavement surfacing. The Scientific World Journal, 2014. [Google Scholar]
Zarei, S., Ouyang, J., Yang, W. and Zhao, Y., 2020. Experimental analysis of semi-flexible pavement by using an appropriate cement asphalt emulsion paste. Construction and Building Materials, 230, p.116994. [Google Scholar]
ASTM, C939-10, 2010. Standard test method for flow of grout for preplaced-aggregate concrete (flow cone method). [Google Scholar]
ASTM, C942-10, 2010. Standard test method compressive strength of grouts for preplaced - aggregate concrete in the laboratory. [Google Scholar]
BSI, BS EN 12697-24, 2004. Bituminous mixturs-test methods for hot mix asphalt-part 24 Resistance to fatigue. British Standard Institution, London,UK. [Google Scholar]
Abichou, T., Edil, T.B., Benson, C.H. and Bahia, H., 2004. Beneficial use of foundry by-products in highway construction. In Geotechnical Engineering for transportation projects (pp. 715–722). [Google Scholar]
ASTM, ASTM C348-14, 2014. Standard test method for flexural strength of hyraulic-cement mortars. [Google Scholar]
Husain, N.M., Karim, M.R., Mahmud, H.B. and Koting, S., 2014. Effects of aggregate gradation on the physical properties of semi-flexible pavement. Advances in Materials Science and Engineering, 2014. [Google Scholar]
Zoorob, S.E., Hassan, K.E. and Setyawan, A., 2017. Cold mix, cold laid semi-flexible grouted macadams, mix design and properties. In Performance of Bituminous and Hydraulic Materials in Pavements (pp. 105–112). Routledge. [Google Scholar]
Koting, S., Karim, M.R., Mahmud, H., Mashaan, N.S., Ibrahim, M.R., Katman, H. and Husain, N.M., 2014. Effects of using silica fume and polycarboxylate-type super-plasticizer on physical properties of cementitious grout mixtures for semi-flexible pavement surfacing. The Scientific World Journal, 2014. [Google Scholar]

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[1] Celik, F. and Canakci, H., 2015. An investigation of rheological properties of cement-based grout mixed with rice husk ash (RHA). Construction and Building Materials, 91,pp.187–194. [Google Scholar]

[2] Müller, U., Miccoli, L. and Fontana, P., 2016. Development of a lime based grout for cracks repair in earthen constructions. Construction and Building Materials, 110,pp.323–332. [Google Scholar]

[3] Lacerda, M.M.S., da Silva, T.J., Alva, G.M.S. and de Lima, M.C.V., 2018. Influence of the vertical grouting in the interface between corbel and beam in beam-to-column connections of precast concrete structures-An experimental analysis. Engineering structures, 172,pp.201–213. [Google Scholar]

[4] Tullini, N. and Minghini, F., 2016. Grouted sleeve connections used in precast reinforced concrete construction-Experimental investigation of a column-to-column joint. Engineering Structures, 127,pp.784–803. [Google Scholar]

[5] Mozumder, R.A., Laskar, A.I. and Hussain, M., 2018. Penetrability prediction of microfine cement grout in granular soil using Artificial Intelligence techniques. Tunnelling and Underground Space Technology, 72,pp.131–144. [Google Scholar]

[6] Brown, S. and Needham, D., 2000. A study of cement modified bitumen emulsion mixtures. Asphalt Paving Technology, 69,pp.92–121. [Google Scholar]

[7] Al-Qadi, I.L., Gouru, H. and Weyers, R.E., 1994. Asphalt Portland cement concrete composite: laboratory evaluation. Journal of transportation engineering, 120(1), pp.94–108. [Google Scholar]

[8] Shannag, M.J., 2002. High-performance cementitious grouts for structural repair. Cement and concrete research, 32(5), pp.803–808. [Google Scholar]

[9] Ryan, T.P., 2007. Modern engineering statistics. John Wiley & Sons. [Google Scholar]

[10] Glossop, R., 1960. The invention and development of injection processes part I: 1902-1850. Geotechnique, 10(3), pp.91–100. [Google Scholar]

[11] Habib, A.O., Aiad, I., El-Hosiny, F.I., and Mohsen, A., 2021. Studying the impact of admixtures chemical structure on the rheological properties of silica-fume blended cement pastes using various rheological models. Ain Shams Engineering Journal. [Google Scholar]

[12] Kanamarlapudi, L., Jonalagadda, K.B., Jagarapu, D.C.K. and Eluru, A., 2020. Different mineral admixtures in concrete: a review. SN Applied Sciences, 2(4), pp.1–10. [Google Scholar]

[13] Ma, C., Liu, Y., Zhou, H., Jiang, Z., Ren, W. and He, F., 2021. Influencing mechanism of mineral admixtures on rheological properties of fresh magnesium phosphate cement. Construction and Building Materials, 288, p.123130. [Google Scholar]

[14] Vasumithran, M., Anand, K.B. and Sathyan, D., 2020. Effects of fillers on the properties of cement grouts. Construction and Building Materials, 246, p.118346. [Google Scholar]

[15] Hassani, A., Taghipoor, M. and Karimi, M.M., 2020. A state of the art of semi-flexible pavements: Introduction, design, and performance. Construction and Building Materials, 253, p.119196. [Google Scholar]

[16] Hlail, S.H., Al-Busaltan, S. and Shaban, A.M., 2020, November. Sustainable Development of Highly Flowable Cementitious Grouts for Semi-flexible Pavement Mixture. In IOP Conference Series: Materials Science and Engineering (Vol. 928, No. 2, p. 022068). IOP Publishing. [Google Scholar]

[17] Tan, Y., Ouyang, J., Lv, J. and Li, Y., 2013. Effect of emulsifier on cement hydration in cement asphalt mortar. Construction and building Materials, 47,pp.159–164. [Google Scholar]

[18] Oruc, S., Celik, F. and Akpinar, M.V., 2007. Effect of cement on emulsified asphalt mixtures. Journal of materials engineering and performance, 16(5), pp.578–583. [Google Scholar]

[19] Niazi, Y. and Jalili, M., 2009. Effect of Portland cement and lime additives on properties of cold in-place recycled mixtures with asphalt emulsion. Construction and Building Materials, 23(3), pp.1338–1343. [Google Scholar]

[20] Ouyang, J., Pan, B., Xu, W. and Hu, L., 2019. Effect of water content on volumetric and mechanical properties of cement bitumen emulsion mixture. Journal of Materials in Civil Engineering, 31(6), p.04019085. [Google Scholar]

[21] Bocci, M., Grilli, A., Cardone, F. and Graziani, A., 2011. A study on the mechanical behaviour of cement-bitumen treated materials. Construction and building materials, 25(2), pp.773–778. [Google Scholar]

[22] Boltryk, M. and Malaszkiewicz, D., 2013. Application of anionic asphalt emulsion as an admixture for concrete. Construction and Building Materials, 40,pp.556–565. [Google Scholar]

[23] Song, H., Do, J. and Soh, Y., 2006. Feasibility study of asphalt-modified mortars using asphalt emulsion. Construction and building materials, 20(5), pp.332–337. [Google Scholar]

[24] Ouyang, J., Zhao, J. and Tan, Y., 2018. Modeling mechanical properties of cement asphalt emulsion mortar with different asphalt to cement ratios and temperatures. Journal of Materials in Civil Engineering, 30(10), p.04018263. [Google Scholar]

[25] Hlail, S.H., Al-Busaltan, S. and Shaban, A.M., 2021, February. Durability Evaluation: Sustainable Semi-flexible Pavement Mixtures. In IOP Conference Series: Materials Science and Engineering (Vol. 1067, No. 1, p. 012076). IOP Publishing. [Google Scholar]

[26] ASTM, D2397, 2013. Standard specification for cationic emulsified asphalt. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[27] ASTM, D6934, 2008. Standard test method for residue by evaporation of emulsified asphalt. American Society for Testing Material. Conshohocken, PA, United States. [Google Scholar]

[28] ASTM, D70, 2009. Standard test method for density of semi-solid bituminous materials (Pycnometer Method). American Society for Testing Material. Conshohocken, PA, United States. [Google Scholar]

[29] ASTM, D5, 2013. Standard test method for penetration of bituminous materials. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[30] ASTM, D113, 2007. Standard test method for ductility of bituminous materials. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[31] ASTM, D7226, 2013. Standard test method for determining the viscosity of emulsified asphalts using a rotational paddle viscometer. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[32] ASTM, D6929, 2010. Standard practice for freezing of emulsified asphalts. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[33] ASTM, D2042, 2015. Standard Test method for solubility of asphalt materials in trichloroethylene. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[34] ASTM, D244, 2009, Standard test methods and practices for emulsified asphalts. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[35] ASTM, D6999, 2012. Standard practice for miscibility of emulsified asphalts. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[36] ASTM, D6998, 2011. Standard practice for evaluating aggregate coating using emulsified asphalts. American Society for Testing Material. West Conshohocken, PA, United States. [Google Scholar]

[37] Lewis, R.C., 2018. Silica fume. In Properties of Fresh and Hardened Concrete Containing Supplementary Cementitious Materials (pp. 99–121). Springer, Cham. [Google Scholar]

[38] Koting, S., Karim, M.R., Mahmud, H., Mashaan, N.S., Ibrahim, M.R., Katman, H. and Husain, N.M., 2014. Effects of using silica fume and polycarboxylate-type super-plasticizer on physical properties of cementitious grout mixtures for semi-flexible pavement surfacing. The Scientific World Journal, 2014. [Google Scholar]

[39] Zarei, S., Ouyang, J., Yang, W. and Zhao, Y., 2020. Experimental analysis of semi-flexible pavement by using an appropriate cement asphalt emulsion paste. Construction and Building Materials, 230, p.116994. [Google Scholar]

[40] ASTM, C939-10, 2010. Standard test method for flow of grout for preplaced-aggregate concrete (flow cone method). [Google Scholar]

[41] ASTM, C942-10, 2010. Standard test method compressive strength of grouts for preplaced - aggregate concrete in the laboratory. [Google Scholar]

[42] BSI, BS EN 12697-24, 2004. Bituminous mixturs-test methods for hot mix asphalt-part 24 Resistance to fatigue. British Standard Institution, London,UK. [Google Scholar]

[43] Abichou, T., Edil, T.B., Benson, C.H. and Bahia, H., 2004. Beneficial use of foundry by-products in highway construction. In Geotechnical Engineering for transportation projects (pp. 715–722). [Google Scholar]

[44] ASTM, ASTM C348-14, 2014. Standard test method for flexural strength of hyraulic-cement mortars. [Google Scholar]

[45] Husain, N.M., Karim, M.R., Mahmud, H.B. and Koting, S., 2014. Effects of aggregate gradation on the physical properties of semi-flexible pavement. Advances in Materials Science and Engineering, 2014. [Google Scholar]

[46] Zoorob, S.E., Hassan, K.E. and Setyawan, A., 2017. Cold mix, cold laid semi-flexible grouted macadams, mix design and properties. In Performance of Bituminous and Hydraulic Materials in Pavements (pp. 105–112). Routledge. [Google Scholar]

[47] Koting, S., Karim, M.R., Mahmud, H., Mashaan, N.S., Ibrahim, M.R., Katman, H. and Husain, N.M., 2014. Effects of using silica fume and polycarboxylate-type super-plasticizer on physical properties of cementitious grout mixtures for semi-flexible pavement surfacing. The Scientific World Journal, 2014. [Google Scholar]