PARTIALLY REPLACED CEMENT BASED PAPER PARTICLES-WOOD SAW DUST-COCONUT FIBER CMPOSITES FOR LOW LOAD BEARING CAPACITY AND LIGHT-WEIGHT CIVIL CONSTRUCTIONS

• Oladele, I.O

  Federal University of Technology, Akure, Ondo State, Nigeria

• Akinwekomi, A.D

  University of Johannesburg, Johannesburg, South Africa

• Ojo, O.O

  Federal University of Technology, Akure, Ondo State, Nigeria

• Bichang’a, D.O

  Kirinyaga University, P. O. Box 143-10300, Kerugoya Kenya

• Adelabu S.O

  Federal University of Technology, Akure, Ondo State, Nigeria

• Ezemenike, C. S

  Elizade University, Ilara-Mokin, Ondo State, Nigeria

• Adewumi, V.A

  Federal University of Technology, Akure, Ondo State, Nigeria

• Taiwo, A.S

  Cranfield University, Cranfield United Kingdom

Akçaözo?lu, K. and K?ll?, A. (2021). The effect of curing conditions on the mechanical properties of SIFCON, Revista de la Construccion, 20(1), 37–51.

Althoey, F., Zaid, O., Majdi, A., Alsharari, F., Alsulamy, S. and Arbili, M.M. (2023). Effect of fly ash and waste glass powder as a fractional substitute on the performance of natural fibers reinforced concrete, Ain Shams Engineering Journal, 14(12), 1–31.

ASTM C136-12. (2012). Standard Test Method for Sieve Analysis of Fine and Coarse Aggregates, Annual Book of ASTM Standards, 04(571), 5–9.

ASTM C873. (2008). Standard Test Method for Compressive Strength of Concrete Cylinders Cast in Place in Cylindrical Molds, ASTM, 2–3.

ASTM D3038M – 08. (2008). Standard Test Method of Drop Shatter Test for Coal, ASTM International, 2–3.

ASTM D570-18 (2018). Standard Test Method for Water Absorption of Plastic Materials, Annual Book of ASTM Standards. West Conshohocken, PA, USA: ASTM International, 1–3.

de Azevedo, A.R., Marvila, M.T., Tayeh, B.A., Cecchin, D., Pereira, A.C. and Monteiro, S.N. (2021). Technological performance of açaí natural fibre reinforced cement-based mortars, Journal of Building Engineering, 33(3), 1–11.

Balasubramanian, J.C. and Selvan, S.S. (2015). Experimental Investigation on the Mechanical Properties of Natural Fiber Reinforced Concrete, International Research Journal of Engineering and Technology, 2(1), 179–182.

Bernardes, G.P., de Prá Andrade, M. and Poletto, M. (2023). Effect of alkaline treatment on the thermal stability, degradation kinetics, and thermodynamic parameters of pineapple crown fibres, Journal of Materials Research and Technology, 23, 64–76.

Bichang’a, D.O., Alabi, O.O., Oladele, I.O., Aramide, F.O., Adediran, A.A. and Popoola, P.A.I. (2022). A review on the influence of natural-synthetic fibre hybrid reinforced polymer composites for bulletproof and ballistic applications, Materiaux et Techniques, 110(5), 503–521.

Bichang’a, D.O., Aramide, F.O., Oladele, I.O. and Alabi, O.O. (2022). A Review on the Parameters Affecting the Mechanical, Physical, and Thermal Properties of Natural/Synthetic Fibre Hybrid Reinforced Polymer Composites, Advances in Materials Science and Engineering, 2022.

Bichang’a, D.O., Oladele, I.O., Aramide, F.O. and Alabi, O.O. (2023). Extraction and Characterization of Natural Fiber from the Stem of Dombeya Buettneri Plant for Biodegradable Polymeric Composites Application Extraction and Characterization of Natural Fiber from the Stem of Dombeya Buettneri Plant for Biodegradable Polymer, Journal of Natural Fibers, 20(2), 1–16.

Chan, R., Santana, M.A., Oda, A.M., Paniguel, R.C., Vieira, L.B., Figueiredo, A.D. and Galobardes, I. (2019). Analysis of potential use of fibre reinforced recycled aggregate concrete for sustainable pavements, Journal of Cleaner Production, 218(5), 183–191.

Fadare O.B, Adewuyi B.O. Oladele I.O. and Kingsley U (2021) A Review on Waste-wood      

            Reinforced Polymer Matrix Composite for Sustainable Development, International   

            Conference on Engineering for Sustainable World, IOP Conf. Series: Materials Science    

            and Engineering, 1107, 1-18.

Futami, E., Shafigh, P., Katman, H.Y.B. and Ibrahim, Z. (2021). Recent progress in the application of coconut and palm oil fibres in cement-based materials, Sustainability, 13(22), 89–103.

Katman, H.Y.B., Khai, W.J., Bheel, N., K?rg?z, M.S., Kumar, A. and Benjeddou, O. (2022). Fabrication and Characterization of Cement-Based Hybrid Concrete Containing Coir Fiber for Advancing, Buildings, 12(9), 1450–1467.

Momoh, E.O. and Osofero, A.I. (2019). Behaviour of oil palm broom fibres (OPBF) reinforced concrete’ Construction and Building Materials, 221(10), 745–761.

Momoh, E.O. and Osofero, A.I. (2020). Recent developments in the application of oil palm fibers in cement composites, Frontiers of Structural and Civil Engineering, 14(1), 94–108.

Nawab, M.S., Ali, T., Qureshi, M.Z., Zaid, O., Kahla, N.B., Sun, Y., Anwar, N. and Ajwad, A. (2023). Case Studies in Construction Materials A study on improving the performance of cement-based mortar with silica fume, metakaolin, and coconut fibers, Case Studies in Construction Materials, 19(9), 1–17.

Okoro M.A., Oladele I.O. and  Omotoyinbo J.A. (2015) Development Of Rattan Particulate     

           Reinforced Paper Pulp Based Composites For Ceiling Application Using Waste Papers,   

            ANNALS of Faculty of Engineering Hunedoara-International Journal of Engineering,   

            2, 69-74.

Oladele I.O., Adelani S.O., Makinde-Isola B.A. and Omotosho T.F. (2022). Coconut/Coir Fibers,    

            their Composites and Applications; The Textile Institute Book Series; Plant Fibers, their     

            Composites and Application, Ed. (Sanjay M.R., Jyotishkumar P., Suchart S., Togay O.    

            and Hao W), Woodhead Publishing, Elsevier, 8:181-208.

Oladele I.O., Taiwo A.S., Okegbemi T.A., Adeyemi M.A. and Balogun S.O. (2021) Influence of processed waste bagasse fibre-stone dust-6063 aluminium alloy particle on the characteristics of hybrid reinforced recycled HDPE composites, International Journal of Sustainable Engineering, 14(4), 909-920.

Oladele I.O, Afolabi I. S and Taiwo A.S. (2017) Development of Organic Material Based    

            Composites for Packaging Application Using Recycled Papers, Leonardo Electronic    

            Journal of Practices and Technologies. 30,243-254.

Oladele, I.O., Omotoyinbo, J.A. and Adewara, J.O.T. (2010). Investigating the Effect of Chemical Treatment on the Constituents and Tensile Properties of Sisal Fibre, Journal of Minerals and Materials Characterization and Engineering, 9(6), 569–582.

Pickering, K.L., Efendy, M.G.A. and Le, T.M. (2016). A review of recent developments in natural fibre composites and their mechanical performance, Composites Part A: Applied Science and Manufacturing, 83, 98–112.

Rocha, L.D., Tambara Júnior, L.U.D., Marvila, M.T., Pereira, E.C., Souza, D. and de Azevedo, A.R.G. (2022). A Review of the Use of Natural Fibers in Cement Composites: Concepts, Applications and Brazilian History, Polymers, 14(10), 1–22.

Saha, A., Kumar, S. and Zindani, D. (2021). Investigation of the effect of water absorption on thermomechanical and viscoelastic properties of flax-hemp-reinforced hybrid composite, Polymer Composites, 42(9), 4497–4516.

Tarabin, M., Maalej, M., Altoubat, S. and Talha Junaid, M. (2023). Review of the bond behavior between reinforcing steel and Engineered cementitious Composites, Structures, 55(9), 2143–2156.

Wang, L., He, T., Zhou, Y., Tang, S., Tan, J., Liu, Z. and Su, J. (2021). The influence of fiber type and length on the cracking resistance, durability and pore structure of face slab concrete, Construction and Building Materials, 282(5), 1–7.

Yan, L., Chouw, N., Huang, L. and Kasal, B. (2016). Effect of alkali treatment on microstructure and mechanical properties of coir fibres, coir fibre reinforced-polymer composites and reinforced-cementitious composites, Construction and Building Materials, 112(6), 168–182.

1. Oladele, I.O, Federal University of Technology, Akure, Ondo State, Nigeria

   Department of Metallurgical and Materials Engineering

2. Akinwekomi, A.D, University of Johannesburg, Johannesburg, South Africa

   Centre for Nanomechanics and Tribocorrosion, School of Metallurgy, Chemical and Mining     Engineering, University of Johannesburg, Johannesburg, South Africa

3. Ojo, O.O, Federal University of Technology, Akure, Ondo State, Nigeria

   Department of Industrial and Production Engineering

4. Bichang’a, D.O, Kirinyaga University, P. O. Box 143-10300, Kerugoya Kenya

   Department of Mechanical Engineering, Kirinyaga

5. Adelabu S.O, Federal University of Technology, Akure, Ondo State, Nigeria

   Department of Industrial Design

6. Ezemenike, C. S, Elizade University, Ilara-Mokin, Ondo State, Nigeria

   Department of Civil Engineering

7. Adewumi, V.A, Federal University of Technology, Akure, Ondo State, Nigeria

   Department of Metallurgical and Materials Engineering

8. Taiwo, A.S, Cranfield University, Cranfield United Kingdom

   School of Aerospace, Transport and Manufacturing

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