Comparison of shrinkage deformations in resin mortars modified with different waste materials

Abdel-Azim, A.A. (1996) Unsaturated polyester resins from poly(ethylene terephthalate) waste for polymer concrete. Polymer Engineering & Science, 36, 2973-2977. Search in Google Scholar

Czarnecki, L. (2010) Betony polimerowe. Cement Wapno Beton, 2, 63-85. Search in Google Scholar

Dębska, B., & Brigolini Silva, G.J. (2021) Mechanical properties and microstructure of epoxy mortars made with polyethylene and poly(ethylene terephthalate) waste. Materials, 14(9), 2203, 1-18. Search in Google Scholar

Dębska, B., Lichołai, L. & Brigolini Silva, G.J. (2020) Effects of waste glass as aggregate on the properties of resin composites. Construction and Building Materials, 258, 1-11. Search in Google Scholar

Dębska, B., Lichołai, L. & Miąsik, P. (2018) Assessment of the applicability of sustainable epoxy composites containing waste rubber aggregates in buildings. Buildings, 9(2), 1-16. Search in Google Scholar

Dębska, B., Wojtaszek, K., Altoé Caetano, M. & Brigolini Silva, G.J. (2024) Sustainable polyester composites containing waste glass for building applications. Sustainability, 16(2), 719. Search in Google Scholar

Jin, N.J., Yeon, J., Seung, I. & Yeon, K-S. (2017) Effects of curing temperature and hardener type on the mechanical properties of bisphenol F-type epoxy resin concrete. Construction and Building Materials, 156, 933-943. Search in Google Scholar

Jørgensen, J.K. & Mikkelsen, L.P. (2024) Tailored cure profiles for simultaneous reduction of the cure time and shrinkage of an epoxy thermoset. Heliyon, 10(3), e25450. Search in Google Scholar

Jung, K., Roh, I. & Chang, S. (2014) Evaluation of mechanical properties of polymer concretes for the rapid repair of runways. Composites Part B: Engineering, 58, 352-360. Search in Google Scholar

Lorenz, N., Müller-Pabel, M., Gerritzen, J., Müller, J., Grӧger, B., Schneider, D., Fischer, K., Gude, M. & Hopmann, Ch. (2022) Characterization and modeling cure- and pressure-dependent thermo-mechanical and shrinkage behavior of fast curing epoxy resins. Polymer Testing, 108, 107498. Search in Google Scholar

Lv, J., Zhang, Y., Huang, J., Zhang, Q., Ma, X. & Guo, Y. (2023) Effects of waste rubber powder and resin content on the free shrinkage of polymer concrete. Construction and Building Materials, 381, 131307. Search in Google Scholar

Mahdi, F., Abbas, H. & Khan, A.A. (2010) Strength characteristics of polymer mortar and concrete using different compositions of resins derived from post-consumer PET bottles. Construction and Building Materials, 24, 25-36. Search in Google Scholar

Martínez-López, M., Martínez-Barrera, G., Salgado-Delgado, R. & Gencel O. (2021) Recycling polypropylene and polyethylene wastes in production of polyester based polymer mortars. Construction and Building Materials, 274, 121487. Search in Google Scholar

Nawab, Y., Tardif, X., Boyard, N., Sobotka, V., Casari, P. & Jacquemin, F. (2012) Determination and modelling of the cure shrinkage of epoxy vinylester resin and associated composites by considering thermal gradients. Composites Science and Technology, 73, 81-87. Search in Google Scholar

PN-EN 196-1: 2016-07 Cement Testing Methods — Part 1: Determination of Strength. Search in Google Scholar

Rajeshwar, B.K., Yemam, D.M., Jang, I. & Yi, Ch. (2020) The effects of sand washing waste and microwave curing on the dimensional stability of epoxy mortar. Construction and Building Materials, 250, 118892. Search in Google Scholar

Shahapurkar, K. (2021) Compressive behavior of crump rubber reinforced epoxy composites. Polymer Composites, 42, 329-341. Search in Google Scholar

Shahapurkar, K., Alblalaihid, K., Chenrayan, V., Alghtani, A.H., Tirth, V., Algahtani, A., Alarifi, I.M. & Kiran, M.C. (2022) Quasi-static flexural behavior of epoxy-matrix-reinforced crump rubber composites. Processes, 10(5), 956. Search in Google Scholar

Shahapurkar, K., Soudagar, M.E.M., Shahapurkar, P., Mathapathi, M., Khan, T.M.Y., Mujtaba, M.A., Ali, M.D.I., Thanaiah, K., Siddiqui, M.I.H. & Ali, M.A. (2022) Effect of crump rubber on the solid particle erosion response of epoxy composites. Journal of Applied Polymer Science, 139(2), e51470. Search in Google Scholar

Shen, Y., Huang, J., Ma, X., Hao, F. & Lv, J. (2020) Experimental study on the free shrinkage of lightweight polymer concrete incorporating waste rubber powder and ceramsite. Composite Structures, 242, 15, 112152. Search in Google Scholar

Shen, Y., Ma, X., Huang, J., Hao, F., Lv, J. & Shen, M. (2020) Near-zero restrained shrinkage polymer concrete incorporating ceramsite and waste rubber powder. Cement and Concrete Composites, 110, 103584. Search in Google Scholar

Shi-Cong, K. & Chi-Sun, P. (2013) A novel polymer concrete made with recycled glass aggregates, fly ash and metakaolin. Construction and Building Materials, 41, 146-151. Search in Google Scholar

Wang, J., Dai, Q., Guo, S. & Si, R. (2019) Mechanical and durability performance evaluation of crumb rubber-modified epoxy polymer concrete overlay. Construction and Building Materials, 203, 469-480. Search in Google Scholar