Istraživanja

Projektna istraživanja


1. Bušić, Robert; Miličević, Ivana. Primjena praha otpadnih guma kao zamjenskog materijala (punila) u samozbijajućem betonu (SCC) // ZAJEDNIČKI TEMELJI 2018 - uniSTem, Šesti skup mladih istraživača iz područja građevinarstva i srodnih tehničkih znanosti / Sunara Kusić M., Galešić M. (ur.). Split, 2018. 38-45 (Prezentacija)

2. Strukar, Kristina; Kalman Šipoš, Tanja. Utjecaj recikliranog agregata od gume na materijalnu nelinearnost betona // Zajednički temelji 2018. - uniSTem / Sunara Kusić M., Galešić M. (ur.). Udruga hrvatskih građevinskih fakulteta ; Sveučilište u Splitu, Fakultet građevinarstva, arhitekture i geodezije, 2018. 216-222 (Prezentacija)

3. Karakaš, Nikolina; Strukar, Kristina; Kalman Šipoš, Tanja; Miličević, Ivana. Potential Use of Recycled Aggregate in Structural Concrete Elements // Proceedings of the 9th International Congress of Croatian Society of Mechanics / Marović, Pavao ; Krstulović-Opara, Lovre ; Galić, Mirela - Split : Croatian Society of Mechanics, 2018.. 1-14

4. Bušić, Robert; Miličević, Ivana; Kalman Šipoš, Tanja; Strukar, Kristina. Recycled Rubber as an Aggregate Replacement in Self-Compacting Concrete—Literature Overview. // Materials. 11 (2018) , 9; 1-25

5. Strukar, Kristina; Kalman Šipoš, Tanja; Dokšanović, Tihomir; Rodrigues, Hugo. Experimental Study of Rubberized Concrete Stress-Strain Behavior for Improving Constitutive Models. // Materials. 11 (2018) , 11;

6. Hadzima-Nyarko, Marijana; Nyarko, Emmanuel Karko; Ademović, Naida; Miličević, Ivana; Šipoš Kalman, Tanja. Modelling the Influence of Waste Rubber on Compressive Strength of Concrete by Artificial Neural Networks. // Materials. 12 (2019) , 11;

7. Strukar, Kristina; Kalman Šipoš, Tanja; Miličević, Ivana; Bušić, Robert. Potential use of rubber as aggregate in structural reinforced concrete element – A review. // Engineering Structures. 188 (2019) , 452-468;

8. Šandrk Nukić, Ivana; Marošević, Katarina. Eco Innovations as part of the Circular Economy: Evidence from Croatia // IMR 2019 - Interdisciplinary Management Research / Barković, Dražen ; Crnković, Boris ; Zekić Sušac, Marijana ; Dernoscheg, Karl-Heinz ; Pap, Norbert ; Runzheimer, Bodo ; Wentzel, Dirk (ur.). Osijek : J.J.Strossmayer Unibersity of Osijek, Faculty of Economics in Osijek ; Hochschule Pforzheim University ; Croatian Academy of Sciences and Arts, 2019. 86-104

9. Šandrk Nukić, Ivana; Miličević, Ivana. Fostering Eco-Innovation: Waste Tyre Rubber and Circular Economy in Croatia. // Interdisciplinary Description of Complex Systems: INDECS. 17 (2019) , 2-B; 326-344

10. Bušić, Robert; Miličević, Ivana. Characteristics of self-compacting concrete (SCC) with waste tire rubber and its possible application in structural elements // Proceedings of the International Conference on Sustainable Materials, Systems and Structures (SMSS2019) PhD Symposium / Carević, Ivana ; Lakušić, Stjepan ; Schlicke, Dirk (ur.). Paris, France: RILEM Publications S.A.R.L., 2019. str. 31-32 (Prezentacija)

11. Bušić, Robert; Štirmer, Nina; Miličević, Ivana. Effect of tire powder and wood biomass ash on properties of self-compacting concrete // Proceedings of the International Conference on Sustainable Materials, Systems and Structures (SMSS2019), New Generation of Construction Materials / Serdar, Marijana ; Štirmer, Nina ; Provis, John (ur.). Paris, France: RILEM Publications S.A.R.L., 2019. str. 515-522 (Prezentacija)

Srodna istraživanja


Istraživanja koja su proveli drugi istraživači temelj su za napredak.

  • Albano, C., Camacho, N., Reyes, J., Feliu, J.L., Herna´ndez, M., 2005. Influence of scrap rubber to Portland I concrete composites: destructive and non-destructive testing. Compos. Struct. 71, 439–446.
  • Antil, Yogender, Verma, Vivek, Singh, Bhupinder, 2014. Rubberized concrete with crumb rubber. Int. J. Sci. Res. (IJSR) 3 (5), 1481–1483.
  • Azevedo, F., Pacheco-Torgal, F., Jesus, C., de Aguiar Barroso, J.-L., Cano˜es, A.F., 2012. Properties and durability of HPC with tyre rubber wastes. Constr. Build. Mater. 34, 186–191.
  • Batayneh, Malek K., Marie, Iqbal, Asi, Ibrahim, 2008. Promoting the use of crumb rubber concrete in developing countries. Waste Manage. 28, 2171–2176.
  • Bravo, Miguel, de Brito, Jorge, 2012. Concrete made with used tyre aggregate: durability-related performance. J. Clean. Prod. 25, 42–50.
  • Chunlin, Liu, Kunpeng, Zha, Depeng, Chen, 2011. Possibility of concrete prepared with steel slag as fine and coarse aggregates: a preliminary study. Proc. Eng. 24, 412–416.
  • El-Gammal, A., Abdel-Gawas, A.K., El-Sherbini, Y., Shalaby, A., 2010. Compressive strength of concrete utilizing waste tire rubber. J. Eng. Trends Eng. Appl. Sci. JETEAS 1 (1), 96–99.
  • ETRMA – European tyre and rubber manufacturers association,"End of life tyres REPORT 2015", 2015.
  • Ganesan, N., Raj, J. Bharati, Shashikala, A.P., 2013. Flexural fatigue behavior of self compacting rubberized concrete. Constr. Build. Mater. 44, 7–14.
  • Ganesan N., Raj B. and Shashikala A.P., Behavior of Self-Consolidating Rubberized Concrete Beam-Column Joints, ACI Materials Journal, V. 110, No. 6, Nov.-Dec. 2013, pp. 697-704.
  • Grdić, Zoran, Topličić-Ćurčić, Godana, Ristić, Nenad, Grdić, Dušan, Mitković, Petar, 2014. Hydro-abrasive resistance and mechanical properties of rubberized concrete. GRAÐEVINAR 66 (1), 11–20.
  • Guo, Y.C., Zhang, J.H., Chen, G., Chen, G.M., Xie, Z.H., 2014. Fracture behaviors of a new steel fiber reinforced recycled aggregate concrete with crumb rubber. Constr. Build. Mater. 53, 32–39.
  • Hall, Matthew R., Najim, Khalid B., Hopfe, Christina J., 2012. Transient thermal behaviour of crumb rubber-modified concrete and implications for thermal response and energy efficiency in buildings. Appl. Therm. Eng. 33–34, 77–85.
  • Hilal, Ameer Abdulrahman, 2011. Effect of crumb tyres rubber on some properties of foamed concrete. Anbar J. Eng. Sci. AJES 4 (2), 1–17.
  • Ho, Anh Cuong, Turatsinze, Anaclet, Hameed, Rashid, Vu, Duc Chinh, 2012. Effects of rubber aggregates from grinded used tyres on the concrete resistance to cracking. J. Clean. Prod. 23, 209–215.
  • Huang, Xiaoyan, Ranade, Ravi, Ni, Wen, Li, Victor C., 2013. On the use of recycled tire rubber to develop low E-modulus ECC for durability concrete repairs. Constr. Build. Mater. 46, 134–141.
  • Ismail M.K. and Hassan A.A.A. Performance of Full-Scale Self-Consolidating Rubberized Concrete Beams in Flexure, ACI Materials Journal, V.133 (2), 2016, pp. 207-218.
  • Ismail M.K. and Hassan A.A.A. Shear behaviour of large-scale rubberized concrete beams reinforced with steel fibres, Construction & Building Materials, V.140, 2017, pp. 43-57.
  • Issa, Camille A., Salem, George, 2013. Utilization of recycled crumb rubber as fine aggregates in concrete mix design. Constr. Build. Mater. 42, 48–52.
  • Jingfu, Kang, Yongqi, Jiang, 2008. Improvement of cracking-resistance and flexural behaviour of cement-based materials by addition of rubber particles. J. Wuhan Univ. Technol. Mater. Sci. Ed., 379–383
  • Karahan, Okan, Ozbay, Erdogan, Hossain Khandaker, M.A., Lachemi, Mohamed, Atis Cengiz, D., 2012. Fresh, mechanical, transport, and durability properties of self-consolidating rubberized concrete. ACI Mater. J. 109–M39, 413–420.
  • Karahan, Okan, O¨zbay, Erdog˘an, Hossain Khandaker, M.A., Lachemi, Mohamed, Atis Cengiz, D., 2012. Fresh, mechanical, transport, and durability properties of self-consolidating rubberized concrete. ACI Mater. J. 109–M39, 413–420.
  • Khaloo, Ali R., Dehestani, M., Rahmatabadi, P., 2008. Mechanical properties of concrete containing a high volume of tire-rubber particles. Waste Manage. 28, 2472–2482.
  • Lijuan, Li, Shenghua, Ruan, Lan, Zeng, 2014. Mechanical properties and constitutive equations of concrete containing a low volume of tire rubber particles. Constr. Build. Mater. 70, 291–308.
  • Ling, Tung-Chai, 2012. Effects of compaction method and rubber content on the properties of concrete paving blocks. Constr. Build. Mater. 28, 164–175.
  • Marques, A.M., Correia, J.R., de Brito, J., 2013. Post-fire residual mechanical properties of concrete made with recycled rubber aggregate. Fire Saf. J. 58, 49–57.
  • Najim, Khalid B., Hall, Matthew R., 2012. Mechanical and dynamic properties of self-compacting crumb rubber modified concrete. Constr. Build. Mater. 27, 521–530.
  • Najim K. B., and Hall M., Structural Behaviour and Durability of Steel-Reinforced Structural Plain/Self-Compacting Rubberised Concrete (PRC/SCRC), Construction & Building Materials, V. 73, Dec, 2014, pp. 490-497.
  • Onuaguluchi, Obinna, Panesar, Daman K., 2014. Hardened properties of concrete mixtures containing pre-coated crumb rubber and silica fume. J. Clean. Prod. 82, 125–131.
  • Ozbay, Erdogan, Lachemi, Mohamed, Umur Korkut, Sevim, 2011. Compressive strength, abrasion resistance and energy absorption capacity of rubberized concretes with and without slag. Mater. Struct. 44, 1297–1307.
  • Parveen, Sachin, Dass, Ankit, Sharma, 2013. Rubberized concrete: needs of good environment (overview). Int. J. Emerg. Technol. Adv. Eng. 3 (3), 192–196.
  • Pelisser, Fernando, Zavarise, Nilomar, Longo, Tiago Arent, Bernardin, Adriano Michael, 2011. Concrete made with recycled tire rubber: effect of alkaline activation and silica fume addition. J. Clean. Prod. 19, 757– 763.
  • Skripkiunas, Gintautas, Grinys, Audrius, Cernius, Benjaminas, 2007. Deformation properties of concrete with rubber waste additives. Mater. Sci. 13 (3), 219–223.
  • Son K.S., Hajrasouliha I. and Pilakoutas K. Strength and deformability of waste tyre rubber-filled reinforced concrete columns, Construction and Building Materials, 25, 2011. pp.218-226.
  • Sukontasukkul, Piti, 2009. Use of crumb rubber to improve thermal and sound properties of pre-cast concrete panel. Constr. Build. Mater. 23, 1084–1092.
  • Taha, M.M., El-Dieb, A.S., AbdEl-Wahab, M.A., Abdel-Hameed, M.E., 2008. Mechanical, fracture, and microstructural investigations of rubber concrete. J. Mater. Civ. Eng. ASCE, 640–649.
  • Topcu, IIker Bekir, Sarıdemir, Mustafa, 2008. Prediction of rubberized concrete properties using artificial neural network and fuzzy logic. Constr. Build. Mater. 22, 532–540
  • Turgut, Paki, Yesilata, Bulent, 2008. Physico-mechanical and thermal performance of newly developed rubber-added bricks. Energy Build. 40, 679–688.
  • Turki, M., Bretagne, E., Rouis, M.J., Que´neudec, M., 2009. Microstructure, physical and mechanical properties of mortar-rubber aggregates mixtures. Constr. Build. Mater. 23, 2715–2722.
  • Valadares, Filipe, Bravo, Miguel, de Brito, Jorge, 2012. Concrete with used tire rubber aggregates: mechanical performance. ACI Mater. J. 109–M26, 283–292.
  • Youssf, Osama, ElGaeady, Mohamed A., Mills, Julie E., Ma, Xing, 2014. An experimental investigation of crumb rubber concrete confined by fibre reinforced polymer tubes. Constr. Build. Mater. 53, 522–532.
  • Youssf O., ElGawady M.A. and Mills J.E., Experimental Investigation of Crumb Rubber Concrete Columns under Seismic Loading, Structures, V.3.2015, pp.13-27.

Srodni projekti

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