Applications of Nanomaterials in Highway Pavements

Michael Toryila Tiza

Review Article

Year 2022, Volume: 2 Issue: 2, 23 - 29, 06.12.2022

Michael Toryila Tiza

Abstract

References

[1] Karn, B., Kuiken, T., and Otto, M. “Nanotechnology and in situ remediation: A review of the benefits and potential risks”, Environmental Health Perspectives, 117(12): 1813-1831, (2009).
[2] Schmitt, R. L., Faheem, A., and Al-Qadi, I. L. “Selection of non-destructive testing technologies for asphalt pavement construction”,Airfield and Highway Pavement 16(11): 13-21, (2013).
[3] Williams, R., Hill, D., and Rottermond, M. “Utilization of an asphalt pavement analyzer for hot mix asphalt laboratory mix design”, Performance Tests for Hot Mix Asphalt (HMA) Including Fundamental and Empirical Procedures, 7(8): 25, (2018).
[4] Zare-Shahabadi, A., Shokuhfar, A., and Ebrahimi-Nejad, S. “Microstructure and properties of Nanoclay reinforced asphalt binders”, Defect and Diffusion Forum, 4 (10): 579-583, (2010).
[5] Al Ghabban, A., Al Zubaidi, A. B., and Fakhri, Z. “Pozzolanic activity and durability of nano silica, micro silica and silica gel contained concrete”, Journal of Engineering and Technology, 4(11): 11-19, (2018).
[6] Patil, G. E., Kajale, D. D., Gaikwad, V. B., and Jain, G. H. “Preparation and characterization of SnO2 nanoparticles by hydrothermal route”, International Nano Letters, 2(1): 37-39, (2012).
[7] Ogunkunle, C. O., Oyedeji, S., Okoro, H. K., and Adimula, V. “Interaction of nanoparticles with soil”. Nanomaterials for Soil Remediation, 5(4): 101-132, (2021).
[8] Cwirzen, A. “Carbon nanotubes and carbon nanofibers in concrete manufacturing processes”, Carbon Nanotubes and Carbon Nanofibers in Concrete-Advantages and Potential Risks, 5(4): 147-169, (2021).
[9] Civilsnapsho. (2018, May 12). Difference between flexible and rigid pavements. Civil Snapshot - Civil Engineering Knowledge. https://civilsnapshot.com/difference-between-flexible-and-rigid-pavements/
[10] Dai, L., and Sun, J. “Mechanical properties of carbon nanotubes-polymer composites”, Carbon Nanotubes - Current Progress of their Polymer Composites. 11(3): 23-29, (2016).
[11] Ebnesajjad, S., and Landrock, A. H. “Characteristics of adhesive materials”, Adhesives Technology Handbook, 84-159, (2015).
[12] Utsev, T., Tiza, T. M., Mogbo, O., Kumar Singh, S., Chakravarti, A., Shaik, N., & Pal Singh, S. (2022). Application of nanomaterials in civil engineering. Materials Today: Proceedings, 62, 5140-5146. https://doi.org/10.1016/j.matpr.2022.02.480
[13] El-Shafie, M., Ibrahim, I., and Abd El Rahman, A. “The addition effects of macro and nano clay on the performance of asphalt binder”, Egyptian Journal of Petroleum, 21(2): 149-154.(2012).
[14] Fogelberg, H. “Historical context of the US national nanotechnology initiative”, Nano Meets Macro, 4(2): 29-53, (2019).
[15] Ghaffarpour Jahromi, S., and Khodaii, A. “Investigation of variables affecting resilient modulus in asphalt mixes”, Road Pavement Material Characterization and Rehabilitation. 5(3): 20-33, (2009).
[16] Jaya, R. P. “Porous concrete pavement containing nanosilica from Black rice husk ash”, New Materials in Civil Engineering, 3(4): 493-527(2020).
[17] Khan, I., Saeed, K., and Khan, I. “Nanoparticles: Properties, applications and toxicities”, Arabian Journal of Chemistry, 12(7), 908-931, (2019).
[18] Taherkhani, H., & Afroozi, S. (2016). The properties of nanosilica-modified asphalt cement. Petroleum Science and Technology, 34(15), 1381-1386. https://doi.org/10.1080/10916466.2016.1205604
[19] Kim, Y., Kim, M., Choi, J. K., and Shim, S. E. “Mechanical and electrical properties of PVA Nanocomposite containing Sonochemically modified MWCNT in water”, Polymer Korea, 39(1), 136-143, (2015).
[20] Cath. (2012, December 11). Paving the road with nanoclay. Basal Science Clarified. https://bsclarified.wordpress.com/2012/05/24/paving-the-road-with-nanoclay/
[21] Zhai, M., Shen, C., Liu, C., and Chen, J. “Optimization of runner sizes and process conditions considering both part quality and manufacturing cost in injecting molding”, Journal of Polymer Engineering, (3): 6-7, (2011).
[22] Lee, W., Chiou, Y., and Shih, M. “Reinforced concrete beam–column joint strengthened with carbon fiber reinforced polymer”, Composite Structures, 92(1), 48-60, (2010).
[23] Liu, L. “Investigation of interfacial interactions between Nanofillers and polymer matrices using a variety of techniques”, Interface/Interphase in Polymer Nanocomposites, 253-282, (2016).
[24] Tan, Y., Ouyang, J., and Li, Y. “Factors influencing rheological properties of fresh cement asphalt emulsion paste”, Construction and Building Materials, (68): 611-617, (2014).
[25] Veytskin, Y., Bobko, C., Castorena, C., and Kim, Y. R. “Nanoindentation investigation of asphalt binder and mastic cohesion”, Construction and Building Materials, 45 (100): 163-171, (2015).
[26] Lu, Y., and Guo, J. “Band gap of strained graphene nanoribbons”, Nano Research, 3(3), 189-199, (2010).
[27] Manke, C. W., and Gulari, E. “Rheological properties of polymers modified with carbon dioxide”, Green Chemistry Using Liquid and Supercritical Carbon Dioxide. 3(6):18-29, (2004).
[28] Partl, M., Gubler, R., and Hugener, M. “Nano-science and -technology for asphalt pavements”, Nanotechnology in Construction, 343-355, (2007).
[29] Ray, S. C. “Application and uses of Graphene oxide and reduced Graphene oxide”, Applications of Graphene and Graphene-Oxide Based Nanomaterials, 6(8): 39-55, (2015).
[30] ECO Group. (2020). The first highway trials show that nanotube-reinforced asphalt concrete prevents cracks and ru. OCSiAl. https://ocsial.com/news/-the-first-highway-trials-show-that-nanotube-reinforced-asphalt-concrete-prevents-cracks-and-ruts-/
[31] Corbett, J., McKeown, P., Peggs, G., and Whatmore, R. “Nanotechnology: International developments and emerging products”, CIRP Annals, 49(2): 523-545, (2000).
[32] Anand Paul. (2014, March 26). Application of Zycosil soil on pavements. CivilDigital. https://civildigital.com/application-zycosil-soil-pavements/
[33] Riyahi-Alam, N., Behrouzkia, Z., and Jahromi, S. H. “ Properties evaluation of a new MRI contrast agent based on Gd -loaded Nano particles coated with two different Nano materials”, Medical Physics, 36(6Part4): 2464-2464, (2009).
[34] Sakurai, T., Shenghao Wang, Toyoshima, S., and Akimoto, K. “Role of electrode buffer layers in organic solar cells”, 2013 International Renewable and Sustainable Energy Conference (IRSEC), (2013).
[35] Sasmal, S., Bhuvaneshwari, B., and Iyer, N. R. “Can carbon nanotubes make wonders in civil/Structural engineering?”, Progress in Nanotechnology and Nanomaterials, 2(4): 117-129, (2013).
[36] Abdali, H., and Ajji, A. “Preparation of Electrospun Nanocomposite nanofibers of Polyaniline/Poly(methyl methacrylate) with amino-functionalized Graphene”, Polymers, 9(12): 453, (2017).
[37] Suresh, P., Umarji, A. M., Garg, A. B., Mittal, R., and Mukhopadhyay, R. “Thermoelectric properties of Nano structured” , CrSi[sub 2−x]Al[sub X]. (2011).
[38] Yang, J., and Tighe, S “A review of advances of nanotechnology in asphalt mixtures”, Procedia - Social and Behavioral Sciences, (96): 1269-1276, (2013).
[39] Ye, Q., Dong, W., Wang, S., and Li, H. “Research on the rheological characteristics and aging resistance of asphalt modified with tourmaline”, Materials, 13(1):69, (2019).
[40] Yelkovan, S., Yılmaz, D., and Aksoy, K. “A study of organo-modified clay type on pet-clay based nanocomposite properties”, Usak University Journal of Material Sciences, 3(1): 33-36, (2014).
[41] Yuan, Q., and Misra, R. D. “Polymer nanocomposites: Current understanding and issues”, Materials Science and Technology, 22(7): 742-755, (2006).
[42] Al-Qadi, I. L. “Building durable and sustainable pavements”, Advances in Materials and Pavement Performance Prediction”, 3-3, (2018).
[43] Ya-Hu, T., Jian-Hong, F., and Yu-Peng, S. “Research on EPS application to very wide highway embankments in permafrost regions”, Sciences In Cold And Arid Regions, 5(4): 503, (2013).
[44] Adjdir, M. “Synthesis of Mesoporous nanomaterials from natural sources as low-cost nanotechnology”, (2010).
[45] Amrane, A., Mohan, D., Nguyen, T. A., Assadi, A. A., and Yasin, G. “Nanomaterials for soil remediation”, Elsevier, (2020).
[46] Bonnemann, H., ENEA., and 523, C. “Nanomaterials: First workshop of COST 523”. (2001).
[47] Brar, S. K. , Nanomaterials in the environment, 1st ed., ASCE Press, (2015).
[48] Gopalakrishnan, K., Birgisson, B., Taylor, P., and Attoh-Okine, N. O. “Nanotechnology in civil infrastructure: A paradigm shift”, Springer Science and Business Media. ,4(4): 45-49 (2011).
[49] Khitab, A. “ Advanced research on nanotechnology for civil engineering applications”, IGI Global, (2016).
[50] Litter, M. I., Quici, N., and Meichtry, M ”Iron nanomaterials for water and soil treatment”. CRC Press, (2018).
[51] Pasetto, M., Partl, M. N., and Tebaldi, G. “Proceedings of the 5th international symposium on asphalt pavements and environment (APE)”. Springer Nature, (2019).
[52] Saeed, A., and Hammons, M. I. “Use of recycled concrete as unbound base aggregate in airfield and highway pavements to enhance sustainability”. Airfield and Highway Pavements, 4(2): 345-355, (2008).
[53] Petry, Thomas M., and Dallas N. Little. "Review of Stabilization of Clays and Expansive Soils in Pavements and Lightly Loaded Structures—History, Practice, and Future." Journal of Materials in Civil Engineering, 14(6), (2002).

Applications of Nanomaterials in Highway Pavements

Year 2022, Volume: 2 Issue: 2, 23 - 29, 06.12.2022

Michael Toryila Tiza

Abstract

Nanotechnology is attracting increasing interest in a broad range of applications. When assessing applications in the field of civil engineering, it is critical to have actual problems that applications can solve for the technology to have a positive impact on the general public's well-being. This article is about pavement engineering advancements that utilize nanomaterials to enhance society by meeting standard requirements and difficulties in the construction sector. These materials research projects are embarked upon to produce more efficient materials. The article has a comprehensive review of the application of nanomaterials, their usefulness, and their applications within the pavement engineering subject. Nanomaterial applications in cold regions, enhancement of physical properties of pavement materials, cost, and application of these materials in soil are all thoroughly covered. Concerns about Nanomaterials Even though nanotechnology and pavement engineering can be used in a lot of different ways and for a lot of different things, it is important to be realistic and accept the limitations and problems that come with the application of these materials, such as health, cost, and other implications. Because of the smaller size of its particles, the use of nanomaterials may present some new difficulties, such as poor packing density, large surface area, and a high cost. A smart design for nanomaterials would take into account these problems and also solve the problems that micrometer-scale materials cause.

Keywords

Applications, Nanotechnology, Nano Particles, Nanomaterials, Pavement.

References

[1] Karn, B., Kuiken, T., and Otto, M. “Nanotechnology and in situ remediation: A review of the benefits and potential risks”, Environmental Health Perspectives, 117(12): 1813-1831, (2009).
[2] Schmitt, R. L., Faheem, A., and Al-Qadi, I. L. “Selection of non-destructive testing technologies for asphalt pavement construction”,Airfield and Highway Pavement 16(11): 13-21, (2013).
[3] Williams, R., Hill, D., and Rottermond, M. “Utilization of an asphalt pavement analyzer for hot mix asphalt laboratory mix design”, Performance Tests for Hot Mix Asphalt (HMA) Including Fundamental and Empirical Procedures, 7(8): 25, (2018).
[4] Zare-Shahabadi, A., Shokuhfar, A., and Ebrahimi-Nejad, S. “Microstructure and properties of Nanoclay reinforced asphalt binders”, Defect and Diffusion Forum, 4 (10): 579-583, (2010).
[5] Al Ghabban, A., Al Zubaidi, A. B., and Fakhri, Z. “Pozzolanic activity and durability of nano silica, micro silica and silica gel contained concrete”, Journal of Engineering and Technology, 4(11): 11-19, (2018).
[6] Patil, G. E., Kajale, D. D., Gaikwad, V. B., and Jain, G. H. “Preparation and characterization of SnO2 nanoparticles by hydrothermal route”, International Nano Letters, 2(1): 37-39, (2012).
[7] Ogunkunle, C. O., Oyedeji, S., Okoro, H. K., and Adimula, V. “Interaction of nanoparticles with soil”. Nanomaterials for Soil Remediation, 5(4): 101-132, (2021).
[8] Cwirzen, A. “Carbon nanotubes and carbon nanofibers in concrete manufacturing processes”, Carbon Nanotubes and Carbon Nanofibers in Concrete-Advantages and Potential Risks, 5(4): 147-169, (2021).
[9] Civilsnapsho. (2018, May 12). Difference between flexible and rigid pavements. Civil Snapshot - Civil Engineering Knowledge. https://civilsnapshot.com/difference-between-flexible-and-rigid-pavements/
[10] Dai, L., and Sun, J. “Mechanical properties of carbon nanotubes-polymer composites”, Carbon Nanotubes - Current Progress of their Polymer Composites. 11(3): 23-29, (2016).
[11] Ebnesajjad, S., and Landrock, A. H. “Characteristics of adhesive materials”, Adhesives Technology Handbook, 84-159, (2015).
[12] Utsev, T., Tiza, T. M., Mogbo, O., Kumar Singh, S., Chakravarti, A., Shaik, N., & Pal Singh, S. (2022). Application of nanomaterials in civil engineering. Materials Today: Proceedings, 62, 5140-5146. https://doi.org/10.1016/j.matpr.2022.02.480
[13] El-Shafie, M., Ibrahim, I., and Abd El Rahman, A. “The addition effects of macro and nano clay on the performance of asphalt binder”, Egyptian Journal of Petroleum, 21(2): 149-154.(2012).
[14] Fogelberg, H. “Historical context of the US national nanotechnology initiative”, Nano Meets Macro, 4(2): 29-53, (2019).
[15] Ghaffarpour Jahromi, S., and Khodaii, A. “Investigation of variables affecting resilient modulus in asphalt mixes”, Road Pavement Material Characterization and Rehabilitation. 5(3): 20-33, (2009).
[16] Jaya, R. P. “Porous concrete pavement containing nanosilica from Black rice husk ash”, New Materials in Civil Engineering, 3(4): 493-527(2020).
[17] Khan, I., Saeed, K., and Khan, I. “Nanoparticles: Properties, applications and toxicities”, Arabian Journal of Chemistry, 12(7), 908-931, (2019).
[18] Taherkhani, H., & Afroozi, S. (2016). The properties of nanosilica-modified asphalt cement. Petroleum Science and Technology, 34(15), 1381-1386. https://doi.org/10.1080/10916466.2016.1205604
[19] Kim, Y., Kim, M., Choi, J. K., and Shim, S. E. “Mechanical and electrical properties of PVA Nanocomposite containing Sonochemically modified MWCNT in water”, Polymer Korea, 39(1), 136-143, (2015).
[20] Cath. (2012, December 11). Paving the road with nanoclay. Basal Science Clarified. https://bsclarified.wordpress.com/2012/05/24/paving-the-road-with-nanoclay/
[21] Zhai, M., Shen, C., Liu, C., and Chen, J. “Optimization of runner sizes and process conditions considering both part quality and manufacturing cost in injecting molding”, Journal of Polymer Engineering, (3): 6-7, (2011).
[22] Lee, W., Chiou, Y., and Shih, M. “Reinforced concrete beam–column joint strengthened with carbon fiber reinforced polymer”, Composite Structures, 92(1), 48-60, (2010).
[23] Liu, L. “Investigation of interfacial interactions between Nanofillers and polymer matrices using a variety of techniques”, Interface/Interphase in Polymer Nanocomposites, 253-282, (2016).
[24] Tan, Y., Ouyang, J., and Li, Y. “Factors influencing rheological properties of fresh cement asphalt emulsion paste”, Construction and Building Materials, (68): 611-617, (2014).
[25] Veytskin, Y., Bobko, C., Castorena, C., and Kim, Y. R. “Nanoindentation investigation of asphalt binder and mastic cohesion”, Construction and Building Materials, 45 (100): 163-171, (2015).
[26] Lu, Y., and Guo, J. “Band gap of strained graphene nanoribbons”, Nano Research, 3(3), 189-199, (2010).
[27] Manke, C. W., and Gulari, E. “Rheological properties of polymers modified with carbon dioxide”, Green Chemistry Using Liquid and Supercritical Carbon Dioxide. 3(6):18-29, (2004).
[28] Partl, M., Gubler, R., and Hugener, M. “Nano-science and -technology for asphalt pavements”, Nanotechnology in Construction, 343-355, (2007).
[29] Ray, S. C. “Application and uses of Graphene oxide and reduced Graphene oxide”, Applications of Graphene and Graphene-Oxide Based Nanomaterials, 6(8): 39-55, (2015).
[30] ECO Group. (2020). The first highway trials show that nanotube-reinforced asphalt concrete prevents cracks and ru. OCSiAl. https://ocsial.com/news/-the-first-highway-trials-show-that-nanotube-reinforced-asphalt-concrete-prevents-cracks-and-ruts-/
[31] Corbett, J., McKeown, P., Peggs, G., and Whatmore, R. “Nanotechnology: International developments and emerging products”, CIRP Annals, 49(2): 523-545, (2000).
[32] Anand Paul. (2014, March 26). Application of Zycosil soil on pavements. CivilDigital. https://civildigital.com/application-zycosil-soil-pavements/
[33] Riyahi-Alam, N., Behrouzkia, Z., and Jahromi, S. H. “ Properties evaluation of a new MRI contrast agent based on Gd -loaded Nano particles coated with two different Nano materials”, Medical Physics, 36(6Part4): 2464-2464, (2009).
[34] Sakurai, T., Shenghao Wang, Toyoshima, S., and Akimoto, K. “Role of electrode buffer layers in organic solar cells”, 2013 International Renewable and Sustainable Energy Conference (IRSEC), (2013).
[35] Sasmal, S., Bhuvaneshwari, B., and Iyer, N. R. “Can carbon nanotubes make wonders in civil/Structural engineering?”, Progress in Nanotechnology and Nanomaterials, 2(4): 117-129, (2013).
[36] Abdali, H., and Ajji, A. “Preparation of Electrospun Nanocomposite nanofibers of Polyaniline/Poly(methyl methacrylate) with amino-functionalized Graphene”, Polymers, 9(12): 453, (2017).
[37] Suresh, P., Umarji, A. M., Garg, A. B., Mittal, R., and Mukhopadhyay, R. “Thermoelectric properties of Nano structured” , CrSi[sub 2−x]Al[sub X]. (2011).
[38] Yang, J., and Tighe, S “A review of advances of nanotechnology in asphalt mixtures”, Procedia - Social and Behavioral Sciences, (96): 1269-1276, (2013).
[39] Ye, Q., Dong, W., Wang, S., and Li, H. “Research on the rheological characteristics and aging resistance of asphalt modified with tourmaline”, Materials, 13(1):69, (2019).
[40] Yelkovan, S., Yılmaz, D., and Aksoy, K. “A study of organo-modified clay type on pet-clay based nanocomposite properties”, Usak University Journal of Material Sciences, 3(1): 33-36, (2014).
[41] Yuan, Q., and Misra, R. D. “Polymer nanocomposites: Current understanding and issues”, Materials Science and Technology, 22(7): 742-755, (2006).
[42] Al-Qadi, I. L. “Building durable and sustainable pavements”, Advances in Materials and Pavement Performance Prediction”, 3-3, (2018).
[43] Ya-Hu, T., Jian-Hong, F., and Yu-Peng, S. “Research on EPS application to very wide highway embankments in permafrost regions”, Sciences In Cold And Arid Regions, 5(4): 503, (2013).
[44] Adjdir, M. “Synthesis of Mesoporous nanomaterials from natural sources as low-cost nanotechnology”, (2010).
[45] Amrane, A., Mohan, D., Nguyen, T. A., Assadi, A. A., and Yasin, G. “Nanomaterials for soil remediation”, Elsevier, (2020).
[46] Bonnemann, H., ENEA., and 523, C. “Nanomaterials: First workshop of COST 523”. (2001).
[47] Brar, S. K. , Nanomaterials in the environment, 1st ed., ASCE Press, (2015).
[48] Gopalakrishnan, K., Birgisson, B., Taylor, P., and Attoh-Okine, N. O. “Nanotechnology in civil infrastructure: A paradigm shift”, Springer Science and Business Media. ,4(4): 45-49 (2011).
[49] Khitab, A. “ Advanced research on nanotechnology for civil engineering applications”, IGI Global, (2016).
[50] Litter, M. I., Quici, N., and Meichtry, M ”Iron nanomaterials for water and soil treatment”. CRC Press, (2018).
[51] Pasetto, M., Partl, M. N., and Tebaldi, G. “Proceedings of the 5th international symposium on asphalt pavements and environment (APE)”. Springer Nature, (2019).
[52] Saeed, A., and Hammons, M. I. “Use of recycled concrete as unbound base aggregate in airfield and highway pavements to enhance sustainability”. Airfield and Highway Pavements, 4(2): 345-355, (2008).
[53] Petry, Thomas M., and Dallas N. Little. "Review of Stabilization of Clays and Expansive Soils in Pavements and Lightly Loaded Structures—History, Practice, and Future." Journal of Materials in Civil Engineering, 14(6), (2002).

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Details

Primary Language	English
Subjects	Engineering
Journal Section	Reviews
Authors	Michael Toryila Tiza
Publication Date	December 6, 2022
Submission Date	September 11, 2022
Published in Issue	Year 2022 Volume: 2 Issue: 2

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