This work is licensed under the Creative Commons Attribution 4.0 International License.
KERYOU, A. B. - IBRAHIM, G. J.: Effect of using windows waste glass as coarse aggregate on some properties of concrete, Engineering and Technology Journal, vol. 32, no. 6 Part A, 2014.Search in Google Scholar
LI, X. - LING, T. C. - MO, K. H.: Functions and impacts of plastic/rubber wastes as eco-friendly aggregate in concrete – A review, Construction and Building Materials, vol. 240, p. 117869, 2020.Search in Google Scholar
HADDADOU, N. - CHAID, R. - GHERNOTI, Y. - ADJOU, N. - BOUZOUALEGH, M.: Fresh and hardened properties of self-compacting concrete with different mineral additions and fibers, Journal of Building Materials and Structures, vol. 2, no. 2, pp. 41-50, 2015.Search in Google Scholar
VANJARE, M. B. - MAHURE, S. H.: Experimental investigation on self-compacting concrete using glass powder, International Journal of Engineering Research and Applications (IJERA), vol. 2, no. 3, pp. 1488-1492, 2012.Search in Google Scholar
ALQAHTANI, F. K. - ZAFAR, I.: Plastic-based sustainable synthetic aggregate in Green Lightweight concrete – A review, Construction and Building Materials, vol. 292, p. 123321, 2021.Search in Google Scholar
GIRSKAS, G. - NAGROCKIENĖ, D.: Crushed rubber waste impact of concrete basic properties, Construction and Building Materials, vol. 140, pp. 36-42, 2017.Search in Google Scholar
ALYOUSEF, R. - AHMAD, W. - AHMAD, A. - ASLAM, F. - JOYKLAD, P. - ALABDULJABBAR, H.: Potential use of recycled plastic and rubber aggregate in cementitious materials for sustainable construction: A review, Journal of Cleaner Production, vol. 329, p. 129736, 2021.Search in Google Scholar
SAFI, B. - SAIDI, M. - ABOUTALEB, D. - MAALLEM, M.: The use of plastic waste as fine aggregate in the self-compacting mortars: Effect on physical and mechanical properties, Construction and Building Materials, vol. 43, pp. 436-442, 2013.Search in Google Scholar
BEDOYA, M. A. - TOBON, J. I.: Incidence of recycled aggregates and ternary cements on the compressive strength and durability of ecological mortars, Case Studies in Construction Materials, vol. 17, p. e01192, 2022.Search in Google Scholar
IKECHUKWU, A. F. - SHABANGU, C.: Strength and durability performance of masonry bricks produced with crushed glass and melted PET plastics, Case Studies in Construction Materials, vol. 14, p. e00542, 2021.Search in Google Scholar
KANGAVAR, M. E. - LOKUGE, W. - MANALO, A. - KARUNASENA, W. - FRIGIONE, M.: Investigation on the properties of concrete with recycled polyethylene terephthalate (PET) granules as fine aggregate replacement, Case Studies in Construction Materials, vol. 16, p. e00934, 2022.Search in Google Scholar
ALMESHAL, I. - TAYEH, B. A. - ALYOUSEF, R. - ALABDULJABBAR, H. - MOHAMED, A. M.: Eco-friendly concrete containing recycled plastic as partial replacement for sand, Journal of Materials Research and Technology, vol. 9, no. 3, pp. 4631-4643, 2020.Search in Google Scholar
AHDAL, A. Q. - AMRANI, M. A. - GHALEB, A. A. - ABADEL, A. A. - ALGHAMDI, H. - ALAMRI, M. - WASIM, M. - SHAMEERI, M.: Mechanical performance and feasibility analysis of green concrete prepared with local natural zeolite and waste PET plastic fibers as cement replacements, Case Studies in Construction Materials, vol. 17, p. e01256, 2022.Search in Google Scholar
SAMSUDIN, M. A. - MANAF, A. F. - AZNAN, M. F. - ZUKI, S. S. - RAMASAMY, S. - AZMI, M. A.: Investigation on Polyethylene Terephthalate (PET) Waste Fiber Performances in Concrete Material, Recent Trends in Civil Engineering and Built Environment, vol. 2, no. 1, pp. 682-690, 2021.Search in Google Scholar
FALIH, R. S. - DAWOOD, A. O. - AL-KHAZRAJI, H.: Structural behavior of reinforced concrete beams containing PET waste particles as sand replacement, Civil and Environmental Engineering, vol. 18, no. 1, pp. 209-220, 2022.Search in Google Scholar
ADNAN, H. M. - DAWOOD, A. O.: Recycling of plastic box waste in the concrete mixture as a percentage of fine aggregate, Construction and Building Materials, vol. 284, p. 122666, 2021.Search in Google Scholar
DAWOOD, A. - ADNAN, H. M.: Mechanical Properties of Concrete Contained Recycled PVC Additives, Misan Journal of Engineering Sciences, vol. 1, no. 1, pp. 1-5, 2022.Search in Google Scholar
FALIH, R. S. - DAWOOD, A. O. - AL-KHAZRAJI, H.: Structural behaviour of concrete beams reinforced with polyethylene terephthalate (PET) bottles wastes bars, In IOP Conference Series: Materials Science and Engineering, vol. 928, no. 2, p. 022033, 2020.Search in Google Scholar
DAWOOD, A. O. - ADNAN, H. M.: Experimental investigation of using PET wastes as tension bars in reinforced concrete beams, Journal of University of Babylon for Engineering Sciences, vol. 27, no. 1, pp. 247-261, 2019.Search in Google Scholar
MAHMOOD, D. A. - DAWOOD, A. O. - AL-KHAZRAJI, H.: Flexural strength of reinforced concrete beams of concrete containing iron filings as partial sand replacement, In AIP Conference Proceedings, vol. 2864, no. 1, 2024.Search in Google Scholar
DAWOOD, A. - AL-KHAZRAJI, H.: Shear behaviour of reinforced-concrete beams incorporating iron filings as sand replacement, Advances in Civil and Architectural Engineering, vol. 14, no. 27, pp. 80-96, 2023.Search in Google Scholar
KIM, S. B. - YI, N. H. - KIM, H. Y. - KIM, J. H. - SONG, Y. C.: Material and structural performance evaluation of recycled PET fiber reinforced concrete, Cement and Concrete Composites, vol. 32, no. 3, pp. 232-240, 2010.Search in Google Scholar
ADNAN, H. M. - DAWOOD, A. O.: Strength behavior of reinforced concrete beam using re-cycle of PET wastes as synthetic fibers, Case Studies in Construction Materials, vol. 13, p. e00367, 2020.Search in Google Scholar
ABBAS, A. - MOHSIN, S. S. - COTSOVOS, D. M.: Steel-fibre-reinforced concrete beams under cyclic loads, In 8th RILEM International Symposium on Fibre Reinforced Concrete, pp. 893-904, 2012.Search in Google Scholar
SHENDE, A. M. - PANDE, A. M. - PATHAN, M. G.: Experimental study on steel fiber reinforced concrete for M-40 grade, International Refereed Journal of Engineering and Science, vol. 1, no. 1, pp. 043-048, 2012.Search in Google Scholar
MOHAMMADI, Y. - SINGH, S. P. - KAUSHIK, S. K.: Properties of steel fibrous concrete containing mixed fibres in fresh and hardened state, Construction and Building Materials, vol. 22, no. 5, pp. 956-965, 2008.Search in Google Scholar
ABDUL-ZAHER, A. S. - ABDUL-HAFEZ, L. M. - TAWFIC, Y. R. - HAMMED, O.: Shear behavior of fiber reinforced concrete beams, JES. Journal of Engineering Sciences, vol. 44, no. 2, pp. 132-144, 2016.Search in Google Scholar
RAZA, A. - KHAN, Q. U.: Experimental and numerical behavior of hybrid-fiber-reinforced concrete compression members under concentric loading, SN Applied Sciences, vol. 2, no. 4, p. 701, 2020.Search in Google Scholar
SINGH, S. K.: Polypropylene fiber reinforced concrete: an overview, NBMCW, Dec. 2011, 2011.Search in Google Scholar
QIAN, C. X. - STROEVEN, P.: Development of hybrid polypropylene-steel fibre-reinforced concrete, Cement and Concrete Research, vol. 30, no. 1, pp. 63-69, 2000.Search in Google Scholar
KAKOOEI, S. - AKIL, H. M. - JAMSHIDI, M. - ROUHI, J.: The effects of polypropylene fibers on the properties of reinforced concrete structures, Construction and Building Materials, vol. 27, no. 1, pp. 73-77, 2012.Search in Google Scholar
SELINA RUBY, G. - GEETHANJALI, C. - VARGHESE, J. - MUTHU PRIYA, P.: Influence of hybrid fiber on reinforced concrete, International Journal of Advanced Structures and Geotechnical Engineering, vol. 3, no. 01, 2014.Search in Google Scholar
MANOLIS, G. D. - GAREIS, P. J. - TSONOS, A. D. - NEAL, J. A.: Dynamic properties of polypropylene fiber-reinforced concrete slabs, Cement and Concrete Composites, vol. 19, no. 4, pp. 341-349, 1997.Search in Google Scholar
ONG, K. C. - PARAMASIVAM, P. - BASHEERKHAN, M.: Behavior of Fiber-Reinforced Concrete Slabs under Low Velocity Projectile Impact, Special Publication, vol. 172, pp. 993-1011, 1999.Search in Google Scholar
KHALOO, A. R. - AFSHARI, M.: Flexural behaviour of small steel fibre reinforced concrete slabs, Cement and Concrete Composites, vol. 27, no. 1, pp. 141 -149, 2005.Search in Google Scholar
WU, T. - SUN, Y. - LIU, X. - WEI, H.: Flexural behavior of steel fiber–reinforced lightweight aggregate concrete beams reinforced with glass fiber–reinforced polymer bars, Journal of Composites for Construction, vol. 23, no. 2, p. 04018081, 2019.Search in Google Scholar
PUJADAS, P. - BLANCO, A. - DE LA FUENTE, A. - AGUADO, A.: Cracking behavior of FRC slabs with traditional reinforcement, Materials and Structures, vol. 45, p. 707-725, 2012.Search in Google Scholar
DI PRISCO, M. - COLOMBO, M. - POURZARABI, A.: Biaxial bending of SFRC slabs: Is conventional reinforcement necessary?, Materials and Structures, vol. 52, no. 1, 2019.Search in Google Scholar
FACCONI, L. - PLIZZARI, G. - MINELLI, F.: Elevated slabs made of hybrid reinforced concrete: Proposal of a new design approach in flexure, Structural Concrete, vol. 20, no. 1, pp. 52-67, 2019.Search in Google Scholar
LABIB, W. A.: Evaluation of hybrid fibre-reinforced concrete slabs in terms of punching shear, Construction and Building Materials, vol. 260, p. 119763, 2020.Search in Google Scholar
KUERES, D. - POLAK, M. A. - HEGGER, J.: Two-parameter kinematic theory for punching shear in steel fiber reinforced concrete slabs, Engineering Structures, vol. 205, p. 110086, 2020.Search in Google Scholar
IQS 5/1984: Portland cement Central Organization for Standardization and Quality Control Iraq (in Arabic).Search in Google Scholar
IQS 45-(1984): Aggregates from Natural Sources for Concrete and Building Construction, Central Organization for Standardization and Quality Control-COSQC, Baghdad-Iraq, 1984.Search in Google Scholar
ASTM C494-99: Standard specification for chemical admixtures for concrete, Annual Book of ASTM Standards, 2005.Search in Google Scholar
ASTM A615/A615M-13: “Standard Specification of Deformed and Plain Carbon Steel Bars for Concrete Reinforcement”, ASTMSearch in Google Scholar
[46] ASTM C33: Standard specification for concrete aggregates, ASTM International, 2017.Search in Google Scholar
CEB-FIP Model Code 1990: Structural Concrete, Federation Internationale de la Precontrainte (FIP), CEB, 1993.Search in Google Scholar
ACI Committee 544: Measurement of Properties of Fiber Reinforced Concrete, ACI Materials Journal, vol. 87, no. 3, 1990.Search in Google Scholar
ACI Committee 363: High-Strength Concrete, ACI 363R-92, American Concrete Institute, 1992.Search in Google Scholar
