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Online since: June 2008
Authors: Masahiro Kubota, Kenong Xia, Xiao Lin Wu, Wei Xu
Ma: Materials Science and Engineering R, Vol. 29 (2000), p. 49
Suryanarayana: Progress in Materials Science, Vol. 46 (2001), p. 1
Alexandrov: Progress in Materials Science, Vol. 45 (2000), p. 103
Langdon: Progress in Materials Science, Vol. 51 (2006), p. 881
Ringer: Journal of Materials Science, Vol. 42 (2007), p. 1551
Suryanarayana: Progress in Materials Science, Vol. 46 (2001), p. 1
Alexandrov: Progress in Materials Science, Vol. 45 (2000), p. 103
Langdon: Progress in Materials Science, Vol. 51 (2006), p. 881
Ringer: Journal of Materials Science, Vol. 42 (2007), p. 1551
Online since: January 2017
Authors: Ali Salifu, Elvis K. Tiburu, Benjamin W. Kankpeyeng, Samuel N. Nkumbaan, Jain Qin Zhuang
Jalali, Journal of hazard materials 297 (2015) 127-133
Oreffo, Advance materials 25 (2013) 4069-4086
Thompson, B.E. van Dongen, Journal of archaeological science 39 (2012) 2506-2514
Goh, Journal of environmental Science and health B 43 (2008) 21-26
Borthakur, Current science 9 (2006)
Oreffo, Advance materials 25 (2013) 4069-4086
Thompson, B.E. van Dongen, Journal of archaeological science 39 (2012) 2506-2514
Goh, Journal of environmental Science and health B 43 (2008) 21-26
Borthakur, Current science 9 (2006)
Online since: November 2013
Authors: Mohammad Javad Mahdavinejad, Leili Hashemi Rafsanjani, Maryam Rasoolzadeh, Marzieh Nazari
New nanostructured materials open new horizons to scientific bases of building and construction materials.
Sustecture - sustainable high-tech architecture – is to meet new life architectural prerequisites regarding latest achievements in material engineering and new materials developments especially smart and nanostructured materials.
Sometimes conservative architects use traditional materials.
Materials and Methods Sustecture - sustainable high-tech architecture – is to meet new life architectural prerequisites regarding latest achievements in material engineering and new materials developments especially smart and nanostructured materials.
International Journal of Disaster Resilience in the Built Environment, 3 (2) (2012) 133 – 147
Sustecture - sustainable high-tech architecture – is to meet new life architectural prerequisites regarding latest achievements in material engineering and new materials developments especially smart and nanostructured materials.
Sometimes conservative architects use traditional materials.
Materials and Methods Sustecture - sustainable high-tech architecture – is to meet new life architectural prerequisites regarding latest achievements in material engineering and new materials developments especially smart and nanostructured materials.
International Journal of Disaster Resilience in the Built Environment, 3 (2) (2012) 133 – 147
Online since: November 2012
Authors: Tomáš Profant, Michal Kotoul, Oldřich Ševeček, Jan Klusák
The assessment of conditions of crack initiation in a tip of a bi-material notch composed of two orthotropic materials is dealt.
(5) The values H1C must be evaluated for both materials.
Kotoul: Key Engineering Materials Vols. 417-418 (2010), p.385 [4] J.
Sih: International Journal of Basic Engineering 85(4) (1963), p.519 [6] M.B.
Herakovich: Journal of Composite Materials 19 (1985), p.544 [7] A.P.
(5) The values H1C must be evaluated for both materials.
Kotoul: Key Engineering Materials Vols. 417-418 (2010), p.385 [4] J.
Sih: International Journal of Basic Engineering 85(4) (1963), p.519 [6] M.B.
Herakovich: Journal of Composite Materials 19 (1985), p.544 [7] A.P.
Online since: June 2014
Authors: Xue Ling Du
There were other researches about stowing materials, but most of them cared more about the properties of the materials with little or without a comprehensive evaluation for the stowing materials themselves.
Journal of Mines, Metals and Fuels, 2004, 52(12): 395-398
Journal of hazardous materials, 2012, 213: 71-82
Journal of China Coal Society, 2010, 35(12): 1963-1968.
International Journal of Mining Science and Technology, 2012, 22(2): 151-157
Journal of Mines, Metals and Fuels, 2004, 52(12): 395-398
Journal of hazardous materials, 2012, 213: 71-82
Journal of China Coal Society, 2010, 35(12): 1963-1968.
International Journal of Mining Science and Technology, 2012, 22(2): 151-157
Online since: January 2020
Authors: Vadim Kobzev, Valeria V. Strokova, M.N. Sivalneva
Cement-free binding materials are a promising type of materials.
Nelubova, Prospects of application of zero-cement binders of a nonhydration hardening type, World Applied Sciences Journal. 25 (1) (2013) 119–123
Research Journal of Applied Sciences. 10(12) (2016) 931–936
Suleymanov, Energy-efficient concretes for green construction, Research Journal of Applied Sciences. 9(12) (2014) 1087–1090
Mestnikov, Thermal highly porous insulation materials made of mineral raw materials, IOP Conference Series: Materials Science and Engineering. 71(1) (2015) 012014.
Nelubova, Prospects of application of zero-cement binders of a nonhydration hardening type, World Applied Sciences Journal. 25 (1) (2013) 119–123
Research Journal of Applied Sciences. 10(12) (2016) 931–936
Suleymanov, Energy-efficient concretes for green construction, Research Journal of Applied Sciences. 9(12) (2014) 1087–1090
Mestnikov, Thermal highly porous insulation materials made of mineral raw materials, IOP Conference Series: Materials Science and Engineering. 71(1) (2015) 012014.
Online since: December 2014
Authors: Yu Guang Wang, Jin Long Zhuo, Xiao Qing Dai, Guo Dong Liu
Meng: Metallic Functional Materials, Vol. 17 (2010) No.1, p.31.
Li: Journal of Henan Normal University (Natural Science Edition), Vol. 40 (2012) No.2, p.86.
Du: Materials Review, Vol.23 (2009) No.12, p.92.
Zhang: Journal of Central South University (Science and Technology), Vol.41 (2010) No.5, p.1668.
Peng: Journal of Central South University (Science and Technology), Vol.38 (2007) No.6, p.1106.
Li: Journal of Henan Normal University (Natural Science Edition), Vol. 40 (2012) No.2, p.86.
Du: Materials Review, Vol.23 (2009) No.12, p.92.
Zhang: Journal of Central South University (Science and Technology), Vol.41 (2010) No.5, p.1668.
Peng: Journal of Central South University (Science and Technology), Vol.38 (2007) No.6, p.1106.
Optimization of Construction Cost Using Industrial Wastes in Alternative Building Material for Walls
Online since: May 2016
Authors: Swetha Madhusudanan, Lilly Rose Amirtham
Building materials constitute about 60%-70% of the total cost of construction.
Reduction in the use of conventional materials may not be possible; therefore, an alternative solution to use low cost materials would reduce the overall construction cost of a building.
Thus the alternative building materials which are to be replaced by the conventional materials should be made from waste or locally available materials to minimize environmental pollution and reduce overall construction cost [5] .
Khan, “Strength characteristics of low cost flyash brick masonry”, International Journal of Science, Environment and Technology, ISSN 2278-3687 (O) , Vol. 3, No 3 (2014) 976 – 980
Samer, “Towards the implementation of the Green Building concept in agricultural buildings”, a literature review CIGR Journal , Vol. 15, No.2 25, (July 2013) [12] Swetha madhusudanan, Lilly Rose amirtham, “Sustainable building materials and materials for energy efficiency “, Trans tech publications, ISBN-13:978-3-03835-490-1, periodical of Key engineering materials vol.650, (2015).
Reduction in the use of conventional materials may not be possible; therefore, an alternative solution to use low cost materials would reduce the overall construction cost of a building.
Thus the alternative building materials which are to be replaced by the conventional materials should be made from waste or locally available materials to minimize environmental pollution and reduce overall construction cost [5] .
Khan, “Strength characteristics of low cost flyash brick masonry”, International Journal of Science, Environment and Technology, ISSN 2278-3687 (O) , Vol. 3, No 3 (2014) 976 – 980
Samer, “Towards the implementation of the Green Building concept in agricultural buildings”, a literature review CIGR Journal , Vol. 15, No.2 25, (July 2013) [12] Swetha madhusudanan, Lilly Rose amirtham, “Sustainable building materials and materials for energy efficiency “, Trans tech publications, ISBN-13:978-3-03835-490-1, periodical of Key engineering materials vol.650, (2015).
Online since: May 2020
Authors: A.M. Morzhukhin, D.S. Testov, S.V. Morzhukhina
Thus, the durability of sensible materials is about 20 years compared with PCM, which constitute a quarter of their service life and thermochemical materials [13].
Kannan., Recent developments in phase change materials for energy storage applications: A review., International Journal of Heat and Mass Transfer, 129 (2019) 491–523
Mahlia., Preparation of beeswax/multi-walled carbon nanotubes as novel shapestable nanocomposite phase-change material for thermal energy storage., Journal of Energy Storage, 21 (2019) 32–39
Experimental investigation on copper foam/hydrated salt composite phase change material for thermal energy storage., International Journal of Heat and Mass Transfer, 115 (2017) 148–157
Pielichowski., Phase change materials for thermal energy storage., Progress in Materials Science, 65 (2014) 67–123
Kannan., Recent developments in phase change materials for energy storage applications: A review., International Journal of Heat and Mass Transfer, 129 (2019) 491–523
Mahlia., Preparation of beeswax/multi-walled carbon nanotubes as novel shapestable nanocomposite phase-change material for thermal energy storage., Journal of Energy Storage, 21 (2019) 32–39
Experimental investigation on copper foam/hydrated salt composite phase change material for thermal energy storage., International Journal of Heat and Mass Transfer, 115 (2017) 148–157
Pielichowski., Phase change materials for thermal energy storage., Progress in Materials Science, 65 (2014) 67–123
Online since: June 2014
Authors: Mohd Roshdi Hassan, Babak Ganjeh
However due to the complexity of interaction mechanism of electromagnetic field and composite materials, applying microwave ovens on an industrial level requires comprehensive experimental and numerical investigation to determine and predict the materials behavior during the curing process.
Eq.1 shows the amount of power (P [W/m³]) absorbed by materials interacted with electromagnetic field.
S., Journal of Composite Materials, 18(4)(1984) 387-409
S., International Journal of Material Forming, 1 (1) (2008) 1323-1326
K., Datta, S., & Basu, D., Bulletin of materials science, 31 (7) (2008) 943-956
Eq.1 shows the amount of power (P [W/m³]) absorbed by materials interacted with electromagnetic field.
S., Journal of Composite Materials, 18(4)(1984) 387-409
S., International Journal of Material Forming, 1 (1) (2008) 1323-1326
K., Datta, S., & Basu, D., Bulletin of materials science, 31 (7) (2008) 943-956