COMPARATIVE STUDIES ON THE COMPRESSIVE STRENGTH OF PAVEMENT BLOCKS MADE FROM DIFFERENT GEOLOGICAL MATERIALS WITH PLASTIC WASTE ADDITIVES AND CEMENT PAVEMENTS FOR USE IN ROAD CONSTRUCTION
DOI:
https://doi.org/10.33003/fjs-2023-0706-2185Keywords:
Plastic Paver Blocks, Plastic Waste, Cement Paver, Compressive StrengthReferences
Adeyemi, G. O. & Oyeyemi, F. (2000). Geotechnical basis for failure of sections of the Lagos-Ibadan expressway, Southwestern Nigeria. Bulletin of Engineering Geology and Environment, 59(1), 39-45. Doi: 10.1007/s100649900016.
Aghamelu, O. P. & Okogbue, C. O. (2011). Geotechnical assessment of road failure in the Abakaliki Area, Southeastern Nigeria. International Journal of Civil and Environmental Engineering 11(2),12 - 24.
Brattebo O.B. & Booth D.B. (2003). Long-term storm water quantity and quality performance of permeable pavement systems. Water Research 37 (2003), 4369-4376.
Folorunsho, O.W. & Amadi, A.N. (2020). Production of pavement blocks from plastic waste. The Percific Journal of Science and Technology. 21(2), 36-43
Gidigasu, M. D. (1980). Geotechnical evaluation of residual gravels in pavement construction. Bulletin of the International Association of Engineering Geology, 15(3/4), 173-194.
Hudar, S & Anzar, H. (2016). Plastic Roads: A recent advancement in waste management. International Journal of Engineering Research & Technology, 5(9), 684-688.
Jegede, G. (2000). Effect of soil properties on pavement failure along the F209 highway at Ado-Ekiti, Southwestern Nigeria. Construction and Building Materials, 14(6), 311- 315.
Kodua, J., Tagbor T.A., Nana B.V. & Boakye A.K (2018). Influence of Recycled Waste High Density Polyethelene Plastic Aggregate on the Physico-Chemical and Mechanical Properties of Concrete. International Journal of Scientific Engineering and Science 2(8), 22-25
Mahmud, K. & Nurudeen, Y. (2022). Characteristics behaviour of partially replaced cement with Kankara metakaolin in concrete production. FUDMA Journal of Sciences (FJS), 6(3), 76-81.
Ofonime, A. & Aniekan, E. (2005). Relationship between road pavement failures, Engineering indices and underlying Geology in a tropical environment. Global Journal of Geological Sciences, 4(2), 99 - 108.
Scholz, M., & Grabowiecki, P. (2007). Review of permeable pavement systems. Building and Environment, 42(11), 3830-3836
Shanmugavalli, B., Gowtham, K. & Jeba Nalwin, P. (2017). Reuse of Plastic Waste in Paver blocks. International Journal of Engineering Research & Technology, 6(2), 313-315
Tuffour, I.S.B. (2016). Development of pavement blocks using waste PET bottles, Munich, GRIN Verlag Accessed from https://www.grin.com/document/324198
Aghamelu, O. P. & Okogbue, C. O. (2011). Geotechnical assessment of road failure in the Abakaliki Area, Southeastern Nigeria. International Journal of Civil and Environmental Engineering 11(2),12 - 24.
Brattebo O.B. & Booth D.B. (2003). Long-term storm water quantity and quality performance of permeable pavement systems. Water Research 37 (2003), 4369-4376.
Folorunsho, O.W. & Amadi, A.N. (2020). Production of pavement blocks from plastic waste. The Percific Journal of Science and Technology. 21(2), 36-43
Gidigasu, M. D. (1980). Geotechnical evaluation of residual gravels in pavement construction. Bulletin of the International Association of Engineering Geology, 15(3/4), 173-194.
Hudar, S & Anzar, H. (2016). Plastic Roads: A recent advancement in waste management. International Journal of Engineering Research & Technology, 5(9), 684-688.
Jegede, G. (2000). Effect of soil properties on pavement failure along the F209 highway at Ado-Ekiti, Southwestern Nigeria. Construction and Building Materials, 14(6), 311- 315.
Kodua, J., Tagbor T.A., Nana B.V. & Boakye A.K (2018). Influence of Recycled Waste High Density Polyethelene Plastic Aggregate on the Physico-Chemical and Mechanical Properties of Concrete. International Journal of Scientific Engineering and Science 2(8), 22-25
Mahmud, K. & Nurudeen, Y. (2022). Characteristics behaviour of partially replaced cement with Kankara metakaolin in concrete production. FUDMA Journal of Sciences (FJS), 6(3), 76-81.
Ofonime, A. & Aniekan, E. (2005). Relationship between road pavement failures, Engineering indices and underlying Geology in a tropical environment. Global Journal of Geological Sciences, 4(2), 99 - 108.
Scholz, M., & Grabowiecki, P. (2007). Review of permeable pavement systems. Building and Environment, 42(11), 3830-3836
Shanmugavalli, B., Gowtham, K. & Jeba Nalwin, P. (2017). Reuse of Plastic Waste in Paver blocks. International Journal of Engineering Research & Technology, 6(2), 313-315
Tuffour, I.S.B. (2016). Development of pavement blocks using waste PET bottles, Munich, GRIN Verlag Accessed from https://www.grin.com/document/324198
Published
2024-01-31
How to Cite
Suleiman, T. M., Folorunsho, O. W., Amadi, A. N., Hassan, A., & Hakeem, O. A. (2024). COMPARATIVE STUDIES ON THE COMPRESSIVE STRENGTH OF PAVEMENT BLOCKS MADE FROM DIFFERENT GEOLOGICAL MATERIALS WITH PLASTIC WASTE ADDITIVES AND CEMENT PAVEMENTS FOR USE IN ROAD CONSTRUCTION. FUDMA JOURNAL OF SCIENCES, 7(6), 191 - 199. https://doi.org/10.33003/fjs-2023-0706-2185
Issue
Section
Research Articles
FUDMA Journal of Sciences