Improvement in Long Term Bonding and Mechanical Performance by Using Glass Concrete in Combination with Xanthan Gum Exposed to Harsh Environment

Ayat, A., Bouzerd, H., Ali-Boucetta, T., Navarro, A., & Benmalek, M. L. (2020). Valorisation of waste glass powder and brick dust in air-lime mortars for restoration of historical buildings: Case study theatre of Skikda (Northern Algeria). Construction and Building Materials, 315, 125681. Search in Google Scholar

Adesina, A., de Azevedo, A. R., Amin, M., Hadzima-Nyarko, M., Agwa, I. S., Zeyad, A. M., & Tayeh, B. A. (2021). Fresh and mechanical properties overview of alkali-activated materials made with glass powder as precursor. Cleaner Materials, 3, 100036. Search in Google Scholar

Almeshal, I., Al-Tayeb, M. M., Qaidi, S. M., Bakar, B. A., & Tayeh, B. A. (2022). Mechanical properties of eco-friendly cements-based glass powder in aggressive medium. Materials Today: Proceedings, 58, 1582-1587. Search in Google Scholar

Ashiq, S. Z., Akbar, A., Farooq, K., Kazmi, S. M. S., & Munir, M. J. (2022). Suitability assessment of marble, glass powders and poly-propylene fibers for improvement of siwalik clay. Sustainability, 14(4), 2314. Search in Google Scholar

Buitrago-Rincon, D. L., Sadtler, V., Mercado, R. A., Roques-Carmes, T., Benyahia, L., Durand, A. & Lemaitre, C. (2021). Effect of Silica Nanoparticles in Xanthan Gum Solutions: Evolution of Viscosity over Time. Nanomaterials, 12(11), 1906. Search in Google Scholar

Crugeira, P. J., de Almeida, P. F., Sampaio, I. C., Soares, L. G., Amador, D. A. M., Samuel, I. D., ... & Pinheiro, A. L. (2021). Production and viscosity of Xanthan Gum are increased by LED irradiation of X. campestris cultivated in medium containing produced water of the oil industry. Journal of Photochemistry and Photobiology B: Biology, 226, 112356. Search in Google Scholar

Chu, S. H., Li, L., Shen, P. L., Lu, J. X., & Poon, C. S. (2020). Recycling of waste glass powder as paste replacement in green UHPFRC. Construction and Building Materials, 316, 125719. Search in Google Scholar

De Souza, E. R., Rodrigues, P. D., Sampaio, I. C., Bacic, E., Crugeira, P. J., Vasconcelos, A. C., ... & de Almeida, P. F. (2022). Xanthan gum produced by Xanthomonas campestris using produced water and crude glycerin as an environmentally friendlier agent to enhance oil recovery. Fuel, 310, 122421. Search in Google Scholar

Dzionek, A., Wojcieszyńska, D., & Guzik, U. (2021). Use of xanthan gum for whole cell immobilization and its impact in bioremediation-a review. Bioresource Technology, 126918. Search in Google Scholar

Derinpinar, A. N., Karakoç, M. B., & Özcan, A. (2020). Performance of glass powder substituted slag based geopolymer concretes under high temperature. Construction and Building Materials, 331, 127318. Search in Google Scholar

Hendi, A., Mostofinejad, D., Sedaghatdoost, A., Zohrabi, M., Naeimi, N., & Tavakolinia, A. (2019). Mix design of the green self-consolidating concrete: Incorporating the waste glass powder. Construction and Building Materials, 199, 369-384. Search in Google Scholar

Ibrahim, S., & Meawad, A. (2020). Towards green concrete: Study the role of waste glass powder on cement/superplasticizer compatibility. Journal of Building Engineering, 47, 103751. Search in Google Scholar

Jiang, X., Xiao, R., Bai, Y., Huang, B., & Ma, Y. (2022). Influence of waste glass powder as a supplementary cementitious material (SCM) on physical and mechanical properties of cement paste under high temperatures. Journal of Cleaner Production, 340, 130778. Search in Google Scholar

Kusnezoff, M., Wagner, D., Schilm, J., Heubner, C., Matthey, B., & Lee, C. W. (2022). Influence of microstructure and crystalline phases on impedance spectra of sodium conducting glass ceramics produced from glass powder. Journal of Solid State Electrochemistry, 26(2), 375-388. Search in Google Scholar

Kongjaroen, A., Methacanon, P., Seetapan, N., Fuongfuchat, A., Gamonpilas, C., & Nishinari, K. (2020). Effects of dispersing media on the shear and extensional rheology of xanthan gum and guar gum-based thickeners used for dysphagia management. Food Hydrocolloids, 107857. Search in Google Scholar

Lee, H., Hanif, A., Usman, M., Sim, J., & Oh, H. (2018). Performance evaluation of concrete incorporating glass powder and glass sludge wastes as supplementary cementing material. Journal of Cleaner Production, 170, 683-693. Search in Google Scholar

Mejdi, M., Wilson, W., Saillio, M., Chaussadent, T., Divet, L., & Tagnit-Hamou, A. (2019). Hydration and microstructure of glass powder cement pastes–A multi-technique investigation. Cement and Concrete Research, 151, 106610. Search in Google Scholar

Mohammed, T. K., & Hama, S. M. (2021). Mechanical properties, impact resistance and bond strength of green concrete incorporating waste glass powder and waste fine plastic aggregate. Innovative Infrastructure Solutions, 7(1), 1-12. Search in Google Scholar

Mahmood, A. H., Afroz, S., Kashani, A., Kim, T., & Foster, S. J. (2022). The efficiency of recycled glass powder in mitigating the alkali-silica reaction induced by recycled glass aggregate in cementitious mortars. Materials and Structures, 55(6), 1-20. Search in Google Scholar

Mota, G. P., & Pereira, R. G. (2022). A comparison of the rheological behavior of xanthan gum and diutan gum aqueous solutions. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 44(4), 1-11. Search in Google Scholar

Manikandan, P., Natrayan, L., Duraimurugan, S., & Vasugi, V. (2019). Influence of waste glass powder as an aluminosilicate precursor in synthesizing ternary blended alkali-activated binder. Silicon, 1-10. Search in Google Scholar

Nsengiyumva, E. M., & Alexandridis, P. (2022). Xanthan gum in aqueous solutions: Fundamentals and applications. International Journal of Biological Macromolecules. Search in Google Scholar

Onaizi, A. M., Lim, N. H. A. S., Huseien, G. F., Amran, M., & Ma, C. K. (2020). Effect of the addition of nano glass powder on the compressive strength of high volume fly ash modified concrete. Materials Today: Proceedings, 48, 1789-1795. Search in Google Scholar

Kala kado H., A.,(2022). Performance of glass-powder concrete in field applications. Construction and Building Materials, 109, 84-95. Search in Google Scholar

Sadiqul, M., Zahrai, S. M., & Najaf, E. (2021, October). Effect of glass powder & polypropylene fibers on compressive and flexural strengths, toughness and ductility of concrete: An environmental approach. In Structures (Vol. 33, pp. 4616-4628). Elsevier. Search in Google Scholar

Patel, D., Tiwari, R. P., Shrivastava, R., & Yadav, R. K. (2019). Effective utilization of waste glass powder as the substitution of cement in making paste and mortar. Construction and Building Materials, 199, 406-415. Search in Google Scholar

Szudek, W., Gołek, Ł., Malata, G., & Pytel, Z. (2019). Influence of waste glass powder addition on the microstructure and mechanical properties of autoclaved building materials. Materials, 15(2), 434. Search in Google Scholar

Sadiqul G.M., Rahman M.H., Nayem K. (2017) “Waste Glass Powder As Partial Replacement Of Cement For Sustainable Concrete Practice’’, International Journal Of Sustainable Built Environment,Volume 6, pp 37–44. Search in Google Scholar

Tho-In, T., Sata, V., Boonserm, K., & Chindaprasirt, P. (2018). Compressive strength and microstructure analysis of geopolymer paste using waste glass powder and fly ash. Journal of cleaner production, 172, 2892-2898. Search in Google Scholar

Orouji, T., (2021). Compressive strength and microstructure analysis of geopolymer paste using waste glass powder and fly ash. Journal of cleaner production, 172, 2892-2898. Search in Google Scholar

Wang, Y., Li, Y., Su, Y., He, X., & Strnadel, B. (2019). Preparation of waste glass powder by different grinding methods and its utilization in cement-based materials. Advanced Powder Technology, 33(8), 103690. Search in Google Scholar

Zhan, P. M., Zhang, X. X., He, Z. H., Shi, J. Y., Gencel, O., Yen, N. T. H., & Wang, G. C. (2020). Strength, microstructure and nanomechanical properties of recycled aggregate concrete containing waste glass powder and steel slag powder. Journal of Cleaner Production, 341, 130892. Search in Google Scholar

Zhang, T., Lu, Z., Sun, Z., Yang, H., Yan, Z., & Ji, Y. (2021). Modification of glass powder and its effect on the compressive strength of hardened alkali-activated slag-glass powder paste. Journal of Building Engineering, 105030. Search in Google Scholar