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The Modernization era of Nanoscience in Construction Technology : A Review

Authors(3):

Shilendra Kumar Shanti, Ankit KR Singh, Ekta Singh
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Nanotechnology can be used for design and construction processes in many since nanotechnology generated products have many unique characteristics. Nanotechnology can be used in the healthy compatibility with the constructional structures like that of massive buildings and bridges, which have been thought to encroach upon huge masses of land, leading to the destroying of homes of wildlife and putting pressure in the limited reserves of energy. This review paper focuses on the sustainable usage of nano based materials like carbon nanotube, electrochromic windows, nanoclays, nanowires, nanoceramic coating, nanocrystalline materials, nanosilica, nanocomposites, nanometals, nanofibres, nanomyteTM mend MW, nanocement, which could be used for providing singular or multiple functions of potential reinforcement, corrosion resistance, insulation, fire protection, temperature resistance, reducing air conditioning loads, pollution control, UV ray absorption, lighting, when used as a part of building materials.

Shilendra Kumar Shanti, Ankit KR Singh, Ekta Singh

Nanotechnology, Construction, Materials.

  1. R. M. Hlihor and M. Gavrilescu, "Book review of nanomaterials: An introduction to synthesis, properties and application by Dieter Vollath," Environmental Engineering and Management Journal, vol. 7, no. 6, pp. 865-870.
  2. A. K. Rana, S. B Rana, A. Kumari, and V. Kiran. "Significance of nanotechnology in construction engineering," International Journal of Recent Trends in Engineering, vol. 1, no. 4, pp. 46-48.
  3. M. S. Dresselhaus, G. Dresselhaus, J. C. Charlier, and E. Hernández. "Electronic, thermal and mechanical properties of carbon nanotubes," Phil. Trans. R. Soc. Lond, A, vol. 362, pp. 2065-2098, 2004.
  4. P. M. Ajayan and O. Z. Zhou. "Applications of carbon nanotubes," Topics Appl. Phys., vol. 80. pp. 391-425.
  5. E. Skúlason, "Metallic and semiconducting properties of carbon nanotubes," Modern Physics, November 2005.
  6. Z. Hasan, R. Kamran, F. Mohammad, G. Ahmad, and F. Hosein. "Evaluation of different conditions on the mixing bitumen and carbon nano-tubes," IJCEE: International Journal of Civil & Environmental Engineering, vol. 12, pp. 53-59.
  7. E. Pfautsch, "Challenges in commercializing carbon nanotube composites," Washington Internships for Students of Engineering. (WISE) Journal of Engineering and Public Policy, pp. 1-43.
  8. A. Parviz, "Nano materials in asphalt and tar," Australian Journal of Basic and Applied Sciences, vol. 5, no. 12, pp. 3270-3273.
  9. P. Balaguru and K. Chong, "Nanotechnology and concrete: research opportunities," in Proc. ACI Session on Nanotechnology of Concrete: Recent Developments and Future Perspectives, Denver, USA, 2006, pp. 15-28.
  10. W. J. Chang and H.L. Lee. "Buckling temperature of a single-walled carbon nanotube using nonlocal timoshenko beam model," Journal ofComputational and Theoretical Nanoscience, vol. 7, no. 11, pp. 2367-2371.
  11. J. Seetharamappa, S. Yellappa et al., "The chalkboard, carbonnanotubes: Next generation of electronic materials," TheElectrochemical Society Interface, vol. 61, pp. 23-25.
  12. V. A. Sazonova, "A tunable carbon nanotube resonator," Doctor of Philosophy Dissertation, Graduate School of Cornell University,August 2006.
  13. J. Hone, M. Whitney, C. Piskoti, and A. Zettl, "Thermal conductivityof single-walled carbon nanotubes," Rapid Communications. PhysicalReview B, vol. 59, no. 4, pp. R2514-R2516.
  14. F. Kreupl, "Carbon nanotubes in microelectronic applications," inAdvanced Micro & Nanosystems, Carbon Nanotube Devices, C. Hierold, Ed. Weinheim: WILEY-VCH Verlag GmbH & Co. KGaA, vol. 8, pp. 1-41, 2008.
  15. K. J. Loh, J. P. Lynch, and N. A. Kotov,"Nanoengineered inductively coupled carbon nanotube wireless strain sensor," presented at the 4th World Conference on Structural Control and Monitoring.
  16. A. Krishnan, E. Dujardin, T. W. Ebbesen, P. N. Yianilos, and M. M. J. Treacy. "Young’s modulus of single-walled nanotubes," American Physical Society. Physical Review B., vol. 58, no. 20, pp. 14013-14 019.
  17. N. Sinha and J. T. W. Yeow, "Carbon nanotubes for biomedical applications," IEEE Trans. on Nanobioscience, vol. 4, no. 2, pp. 180-195.
  18. K. T. Kashyap and R. G. Patil, "On young’s modulus of multi-walled carbon nanotubes," Indian Academy of Sciences. Bull. Mater. Sci, vol. 31, no. 2, pp. 185-187.
  19. P. Zhao and G. Shi, "Study of poisson’s ratios of graphene and single-walled carbon nanotubes based on an improved molecular structural mechanics model," Tech Science Press. SL. vol. 5, no.1, pp. 49-58.
  20. D. A. Licciulli and D. Lisi, "Electrochromic glass," UniversitáDegli Studi Di Lecce, Corso di laurea in Ingegneria dei Materiali, A. A. 2001/2002, Scienza e Technologia dei Materiali Ceramici, pp. 1-16.
  21. C. Y. Xu, L. Liu, S. E. Legenski, D. Ning, and M. Taya, "Switchable window based on electrochromic polymers," Materials Research Society. J. Mater. Res, vol. 19, no. 7, pp. 2072-2080.
  22. K. D. Satyen, "Photovoltaic-Integrated electrochromic device for Smart-Window applications," presented at the World Renewable Energy Congress VI Brighton, U. K., July 1-7, 2000.
  23. E. S. Lee, M. Yazdanian, and S. E. Selkowitz, "The energy savings potential of electrochromic windows in the US commercial buildings sector," LBNL-54966, pp. 1-42, April 2004.
  24. M. S. Morsy, S. H. Alsayed, and M. Aqel. "Effect of nano-clay on mechanical properties and microstructure of ordinary portland cement mortar," International Journal of Civil and Environmental Engineering IJCEE-IJEN, vol. 10, no. 1, pp. 23-27.
  25. B. Stiller, "The effect of montmorillonite nanoclay on mechanical and barrier properties of mung bean starch films," M. S. thesis, Dept. Packaging Science, Graduate School of Clemson University, Clemson, South Carolina, United States, 2008.
  26. P. P. Gaspard, "Stainless steel: a superb construction material," presented at the Stainless Steel for Architectural Visions Conference, Paris, France, May 15, 2001.
  27. M. S. Dresselhaus, Y. M. Lin, O. Rabin, M. R. Black, and G. Dresselhaus, Nanowires, pp. 1-88, January 2003.
  28. J. I. Pascual, J. Méndez, J. Gómez-Herrero, A. M. Baró, N. Garcia, U. Landman, W. D. Luedtke, E. N. Bogachek, and H. P. Cheng. "Electrical and mechanical properties of metallic nanowires: conductance quantization and localization," American Vacuum Society. J. Vac. Sci. Technol, B., vol. 13, no. 3, pp. 1280-1284.
  29. D. Amalio and F. P. Chicón, "Electrical conduction and magnetic properties of nanoconstrictions and nanowires created by focused electron/ion beam and of Fe3O4 thin films," Thesis Doctoral, Departamento de Fιsica de la Materia Condensada, Instituto de NanocienciadeAragón(INA),InstitutodeCienciasdeMaterialesde Aragón (ICMA), Universidad de Zaragoza- CSIC.
  30. T. Scheibel, R. Parthasarathy, G. Sawicki, X. M. Lin, H. Jaeger, and S. L. Lindquist, "Conducting nanowires built by controlled self-assembly of amyloid fibers and selective metal deposition," PNAS., vol. 100, no. 8, pp. 4527-4532.
  31. Y. Y. Wu, H. Q. Yan, M. Huang, B. Messer, J. H. Song, and P. D. Yang. "Inorganic semiconductor nanowires: rational growth, assembly, and novel properties," Chem. Eur. J. vol. 8, no. 6, pp. 1260-1268.
  32. A. N. Banerjee, "The design, fabrication, and photo catalytic utility of nano tructured semiconductors: focus on TiO2-based nanostructures,"
  33. U. Diebold, "The surface science of titanium dioxide," Science Direct.NH Elsevier. Surface Science Reports, vol. 48, pp. 53-229, 2003.
  34. DupontTM ti-pure® titanium dioxide: titanium dioxide for coatings,H-65969-2 (06/07).
  35. M. S. Glass, S. Bhd, and C. Owen, "Self cleaning glass- a better way tokeep your windows clean," Iglass News, issue 2, pp. 54-58.
  36. Y. B. Khe, "Cool coatings," Asia Pacific Coatings Journal, vol. 23, no.4, pp. 36-39.
  37. C. C. Koch, I. A. Ovid’ko, S. Seal, and S. Veprek, StructuralNanocrystalline Materials Fundamentals and Applications,Cambridge University Press, 2007, ch. 6, pp. 319-326.
  38. P. Holister, C. R. Vas, and T. Harper, "Nanocrystalline materialstechnology white papers nr. 4," Cientιfica, pp. 1-12, October 2003.
  39. I. Oke, "Nanoscience in nature: cellulose nanocrystals," Studies byUndergraduate Researchers at Guelph, vol. 3, no. 2, pp. 77-80.
  40. O. H. Lin, H. M. D. Akil, and Z. A. Mohd Ishak, "Characterization and properties of activated nanosilica/polypropylene composites with coupling agents," Society of Plastics Engineers. Wiley InterScience.Polymer Composites, pp. 1693-1700.
  41. S. Maheswaran, B. Bhuvaneshwari, G. S. Palani, R. Nagesh et al. ,"An overview on the influence of nano silica in concrete and a researchinitiative," Res. J. Recent. Sci., vol. 2, pp. 17-24, ISC-2012.
  42. A. Lázaro and H. J. H. Brouwers, "Nano-silica production by a sustainable process; application in building materials," presented at the8th fib PhD Symposium in Kgs., Lyngby, Denmark, June 20-23, 2010.
  43. R. Elansezhian and L. Saravanan, "Effect of nano silica fillers on mechanical and abrasive wear behavior of vinyl ester resin," International Journal of Applied Research in Mechanical Engineering,vol. 1, issue1, pp. 105-108.
  44. Hackman and L. Hollaway, "Polymer-Layered silicate nanocompositesin civil engineering," in Proc. the Second International Conf.,University of Surrey, Guildford, UK, 2004, pp. 353-360.
  45. E. W. Gacitua., A. A. Ballerini, and J. W. Zhang, "Polymer nanocomposites: synthetic and natural fillers a revie," Maderas.Ciencia y Tecnologιa, vol. 7, no. 3, pp. 159-178.
  46. A. Ebrahimpour, "Properties and applications of composites andnanocomposites," PSCI 640 Elements of Nanosciences, November2009.
  47. S. Bakshi, P. R. Basak, and S. Biswas,"Nanocomposites-technologytrends and application potential."
  48. K. M. A. Hossain, "Characteristics of epoxy matrix based compositeswith various nano-particles," in Proc. the International Conf. on MechanicalEngineering, ICME05-AM-51, Dhaka, Bangladesh, December 2005.
  49. B. E. Sarver, "Mechanical and geometric properties of corrosion resistant reinforcing steel in concrete," M. S. thesis, Dept. Civil Eng., Virginia Polytechnic Institute and State University, Blacksburg, Virginia, 2010.
  50. S. Faza, "The lowest cost construction system high strength and corrosion resistant steel for concrete reinforcement," presented at the Virginia Concrete Conference Bridge Breakout Session, March 11, 2005.
  51. W. B. Geers, "MMFX2 Reinforcing Steel," presented at Pennsylvania Precast Association Meeting, Pennsylvania, and March 6, 2013.
  52. MMFX Steel Product Guide: MMFX2 Steel Concrete Reinforcing andPavement Dowel Bars, MMFX Steel Corporation of America, pp. 1-73,June 2007.
  53. Z. Ge and Z. L. Gao, "Applications of nanotechnology andnanomaterials in construction," in Proc. First International Conf. onConstruction In Developing Countries (ICCIDC-I) Advancing and Integrating Construction Education, Research & Practice, Karachi, Pakistan, 2008, pp. 235-240.
  54. H. Bönnemann and K. S. Nagabhushana, "Advantageous fuel cell catalysts from colloidal nanometals," Journal of New Materials for Electrochemical Systems, vol. 7, pp. 93-108.
  55. J. Pulit, M. Banach, and Z. Kowalsk, "Nanosilver–making difficult decisions," Ecological Chemistry And Engineering S., vol. 18, no. 2, pp. 185-196.
  56. Technical Spotlight: Unique Tools Smooth Jet-Engine Production, Advanced Materials & Processes, vol. 169, issue 5, pp. 50-51, May 2011.
  57. G. Elvin, "Nanotechnology for green building," Green Technology Forum, 2007.
  58. S. V. Petrik, "Production nanofiber technology- The opportunity for novel materials and their applications," Elmarco Nano for Life, pp. 1-65, June 2010.
  59. R. Delahanty, J. Sloan, M. Musselman, S. Black, D. Brosius, G. Gardiner. M. R. Le Gault, P. Malnati, J. Winkel, and K. Wood, "Self healing coating," High Performance Composites, vol. 19, no. 6, pp. 1-64.
  60. J. Carmichael, M. Prince, and G. Arulraj, "Influence of nano materials on consistency setting time and compressive strength of cement mortar," IRACST-Engineering Science and Technology: An International Journal, ESTIJ, vol. 2, no. 1, pp. 158-162.
  61. B. W. Jo, J. S. Choi, and S. W. Kang, "An experimentation study on the characteristics of chemically synthesized nano-cement for carbon dioxide reduction," Journal of Ceramic Processing Research, vol. 12, no. 3, pp. 294-298.
  62. B. Bhuvaneswari, S. Sasmal, R. Nagesh et al., "Nanoscience to nanotechnology for civil engineering-proof of concepts," Recent Researches in Geography, Geology, Energy, Environment and Biomedicine, pp. 230-235.
  63. L. Raki, J. Beaudoin, R. Alizadeh, J. Makar, and T. Sato, "Cement and concrete nanoscience and nanotechnology," Materials, vol. 3, pp. 918-942.
  64. E. Singh, R. Srivastava, U. Kumar,  A. D. Katheria, "Carbon Nanotube: a review on Introduction, Fabrication techniques and optical Applications", vol. 4, 120-126, August 2017.

Publication Details

Published in : Volume 3 | Issue 6 | September-October - 2017
Date of Publication Print ISSN Online ISSN
2017-10-31 2395-1990 2394-4099
Page(s) Manuscript Number   Publisher
86-91 IJSRSET173612   Technoscience Academy

Cite This Article

Shilendra Kumar Shanti, Ankit KR Singh, Ekta Singh, "The Modernization era of Nanoscience in Construction Technology : A Review", International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 3, Issue 6, pp.86-91, September-October-2017.
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