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NTIS 바로가기Building acoustics, v.29 no.4, 2022년, pp.503 - 528
Söyek Abay, Begüm (Department of Architecture, Istanbul Technical University, Beyoğ) , Tanaçan, Leyla (lu)
This study investigates developing a single-layer composite material to provide acoustical comfort conditions due to sound transmission in a building. The aim of the study is to increase the sound transmission loss (STL) of mortars produced with LC3(limestone calcined clay cements)1ecological binder...
Flatt, R.J., Roussel, N., Cheeseman, C.R.. Concrete: An eco material that needs to be improved. Journal of the European Ceramic Society, vol.32, no.11, 2787-2798.
Schneider, M., Romer, M., Tschudin, M., Bolio, H.. Sustainable cement production-present and future. Cement and concrete research, vol.41, no.7, 642-650.
Scrivener, Karen, Martirena, Fernando, Bishnoi, Shashank, Maity, Soumen. Calcined clay limestone cements (LC3). Cement and concrete research, vol.114, 49-56.
Sabir, B.B, Wild, S, Bai, J. Metakaolin and calcined clays as pozzolans for concrete: a review. Cement & concrete composites, vol.23, no.6, 441-454.
Fernandez, Rodrigo, Martirena, Fernando, Scrivener, Karen L.. The origin of the pozzolanic activity of calcined clay minerals: A comparison between kaolinite, illite and montmorillonite. Cement and concrete research, vol.41, no.1, 113-122.
Antoni, M., Rossen, J., Martirena, F., Scrivener, K.. Cement substitution by a combination of metakaolin and limestone. Cement and concrete research, vol.42, no.12, 1579-1589.
Scrivener, Karen L., John, Vanderley M., Gartner, Ellis M.. Eco-efficient cements: Potential economically viable solutions for a low-CO2 cement-based materials industry. Cement and concrete research, vol.114, 2-26.
Cancio Díaz, Yudiesky, Sánchez Berriel, Sofia, Heierli, Urs, Favier, Aurélie R., Sánchez Machado, Inocencio R., Scrivener, Karen L., Martirena Hernández, José Fernando, Habert, Guillaume. Limestone calcined clay cement as a low-carbon solution to meet expanding cement demand in emerging economies. Development engineering, vol.2, 82-91.
Avet, François, Li, Xuerun, Scrivener, Karen. Determination of the amount of reacted metakaolin in calcined clay blends. Cement and concrete research, vol.106, 40-48.
De Weerdt, K., Haha, M.B., Le Saout, G., Kjellsen, K.O., Justnes, H., Lothenbach, B.. Hydration mechanisms of ternary Portland cements containing limestone powder and fly ash. Cement and concrete research, vol.41, no.3, 279-291.
Dhandapani, Y., Santhanam, M.. Assessment of pore structure evolution in the limestone calcined clay cementitious system and its implications for performance. Cement & concrete composites, vol.84, 36-47.
Lothenbach, B., Scrivener, K., Hooton, R.D.. Supplementary cementitious materials. Cement and concrete research, vol.41, no.12, 1244-1256.
World Health Organization. Environmental noise guidelines for the European Region, 2018. https://www.euro.who.int/__data/assets/pdf_file/0008/383921/noise-guidelines-eng.pdf
Zhu, Xiaodong, Kim, Birm-June, Wang, Qingwen, Wu, Qinglin. Recent Advances in the Sound Insulation Properties of Bio-based Materials. Bioresources, vol.9, no.1,
Kastamonu Üniversitesi Orman Fakültesi Dergisi, Kastamonu, Türkiye Çavuş V 190 20 2021 10.17475/kastorman.801786
Najib, N.N., Ariff, Z.M., Bakar, A.A., Sipaut, C.S.. Correlation between the acoustic and dynamic mechanical properties of natural rubber foam: Effect of foaming temperature. Materials & design, vol.32, no.2, 505-511.
Corredor-Bedoya, A.C., Zoppi, R.A., Serpa, A.L.. Composites of scrap tire rubber particles and adhesive mortar – Noise insulation potential. Cement & concrete composites, vol.82, 45-66.
Yang, Y., Li, B., Chen, Z., Sui, N., Chen, Z., Saeed, M.U., Li, Y., Fu, R., Wu, C., Jing, Y.. Acoustic properties of glass fiber assembly-filled honeycomb sandwich panels. Composites. Part B, Engineering, vol.96, 281-286.
Yu, H., Yao, G., Wang, X., Liu, Y., Li, H.. Sound insulation property of Al-Si closed-cell aluminum foam sandwich panels. Applied acoustics, vol.68, no.11, 1502-1510.
Li, Peng, Kim, Birm-June, Wang, Qingwen, Wu, Qinglin. Experimental and numerical analysis of the sound insulation property of wood plastic composites (WPCs) filled with precipitated CaCO3. Holzforschung, vol.67, no.3, 301-306.
Topçu, İlker Bekir. Properties of heavyweight concrete produced with barite. Cement and concrete research, vol.33, no.6, 815-822.
Binici, H., Gemci, R., Kucukonder, A., Solak, H.H.. Investigating sound insulation, thermal conductivity and radioactivity of chipboards produced with cotton waste, fly ash and barite. Construction & building materials, vol.30, 826-832.
Ersoy, Orkun. The effect of dispersion quality of fillers on soundproofing properties of acrylonitrile butadiene styrene/dense filler composites: Barite vs Magnetite. Polymer composites, vol.41, no.3, 1045-1052.
Turgut, Paki, Yesilata, Bulent. Physico-mechanical and thermal performances of newly developed rubber-added bricks. Energy and buildings, vol.40, no.5, 679-688.
Holmes, N., Browne, A., Montague, C.. Acoustic properties of concrete panels with crumb rubber as a fine aggregate replacement. Construction & building materials, vol.73, 195-204.
Issa, C.A., Salem, G.. Utilization of recycled crumb rubber as fine aggregates in concrete mix design. Construction & building materials, vol.42, 48-52.
GRAĐEVINAR Topličić-Ćurčić G 11 66 1 2014
Khaloo, Ali R., Dehestani, M., Rahmatabadi, P.. Mechanical properties of concrete containing a high volume of tire–rubber particles. Waste management, vol.28, no.12, 2472-2482.
Girskas, Giedrius, Nagrockienė, Džigita. Crushed rubber waste impact of concrete basic properties. Construction & building materials, vol.140, 36-42.
Hernández-Olivares, F., Barluenga, G., Bollati, M., Witoszek, B.. Static and dynamic behaviour of recycled tyre rubber-filled concrete. Cement and concrete research, vol.32, no.10, 1587-1596.
Herrero, S., Mayor, P., Hernandez-Olivares, F.. Influence of proportion and particle size gradation of rubber from end-of-life tires on mechanical, thermal and acoustic properties of plaster-rubber mortars. Materials & design, vol.47, 633-642.
Zhao, J., Wang, X.-M., Chang, J.M., Yao, Y., Cui, Q.. Sound insulation property of wood–waste tire rubber composite. Composites science and technology, vol.70, no.14, 2033-2038.
Industrial noise control and acoustics Barron RF 2003
TS EN 197-1:2011. Cement- part 1: compositions and conformity criteria for common cements.
TS EN 196-6:2010. Methods of testing cement - part 6: determination of fineness.
TS 25: 2008. Tras.
American Society for Testing and Materials, ASTM C595 / C595M - 20:2020. Standard specification for blended hydraulic cements.
ASTM International:2020. C 1437-20 standard test method for flow of hydraulic cement mortar.
TS EN 1015-10:2001. Methods of test for mortar for masonry - part 10: determination of dry bulk density of hardened mortar.
TS EN 1925:2000. Natural stone test methods: determination of water absorption coefficient by capillarity.
TS EN 13755:2009. Natural stone test methods: determination of water absorption at atmospheric pressure.
TS EN 14579:2006. Natural stone test methods: determination of sound speed propagation.
TS EN 196-1:2009. Methods of testing cement - part 1: determination of strength.
BS EN ISO 10534-2:2001. British Standard, Acoustics, Determination of sound absorption coefficient and impedance in impedance tubes, Part 2: transfer- function method.
Shah, Vineet, Scrivener, Karen, Bhattacharjee, Bishwajit, Bishnoi, Shashank. Changes in microstructure characteristics of cement paste on carbonation. Cement and concrete research, vol.109, 184-197.
Workability, and mechanical, acoustic and thermal properties of lightweight aggregate concrete with a high volume of entrained air. Construction & building materials, vol.29, 193-200.
Beton, Bağlayıcı Maddeler, Agregalar, Beton Postacıoğlu B 1987
Pereira, M., Carbajo, J., Godinho, L., Amado-Mendes, P., Mateus, D., Ramis, J.. Acoustic behavior of porous concrete. Characterization by experimental and inversion methods. Materiales de construcción, vol.69, no.336, 202-.
Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi Ünal O 125 16 1 2015
Li, Xuemiao, Ling, Tung-Chai, Hung Mo, Kim. Functions and impacts of plastic/rubber wastes as eco-friendly aggregate in concrete – A review. Construction & building materials, vol.240, 117869-.
J Urban Environ Eng Pczieczek A 219 11 2 2017
Guo, Shuaicheng, Dai, Qingli, Si, Ruizhe, Sun, Xiao, Lu, Chao. Evaluation of properties and performance of rubber-modified concrete for recycling of waste scrap tire. Journal of cleaner production, vol.148, 681-689.
Di Mundo, Rosa, Petrella, Andrea, Notarnicola, Michele. Surface and bulk hydrophobic cement composites by tyre rubber addition. Construction & building materials, vol.172, 176-184.
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