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Online since: January 2020
Authors: Anna A. Voznesenskaya, A.I. Ivashchenko, Andrei Kireev
Of particular interest are composite and ceramic materials, to which many works are devoted [1-9].
This property is typical for bulk materials obtained by rapid cooling of the superheated melt.
Ilinykh, Carbon-carbon compositional materials and technology of production of radiators from carbon-carbon compositional materials, Aerospace technology, high technologies and innovations. 1 (2015) 166-170
Metallurgy, material science, subsurface use. 1 (2016) 12-21
Technical science. 10 (2015) 68-82
This property is typical for bulk materials obtained by rapid cooling of the superheated melt.
Ilinykh, Carbon-carbon compositional materials and technology of production of radiators from carbon-carbon compositional materials, Aerospace technology, high technologies and innovations. 1 (2015) 166-170
Metallurgy, material science, subsurface use. 1 (2016) 12-21
Technical science. 10 (2015) 68-82
Online since: January 2008
Authors: Sitthisuntorn Supothina, O. Nimittrakoolchai
Nanocrystalline TiO2 coated-fabric for UV shielding and anti-bacterial
functions
On-uma Nimittrakoolchaia , and Sitthisuntorn Supothinab†
National Metal and Materials Technology Center, 114 Thailand Science Park Paholyothin Rd.,
Klong 1, Klong Luang, Pathumthani 12120 Thailand
a
onuman@mtec.or.th, b†
sitthis@mtec.or.th
Keywords: Titanium dioxide coating, fabrics, anti-bacteria, ultraviolet shielding
Abstract.
Due to excellent photocatalytic and optical properties of titanium dioxide (TiO2), it has been applied in several products such as food packaging plastics, materials for vehicles or for buildings and sunscreen-protecting cosmetics.
This work was supported by the National Metal and Materials Science Technology Center, Thailand (funding # MT-B-47-CER-07-169-I, and # MT-B-49-ATO-07-020-I).
[2] Huang Z. et.al., Bactericidal mode of titanium dioxide photocatalysis, Journal of Photochemistry and Photobiology A: Chemistry, vol 130, 2000, pp. 163-170
Bickmore CR. et.al., Ultrafine titania by flame spray pyrolysis of a titanatrane complex, Journal of the European Ceramic Society, Vol. 18, No.4, 1998, pp. 287-297
Due to excellent photocatalytic and optical properties of titanium dioxide (TiO2), it has been applied in several products such as food packaging plastics, materials for vehicles or for buildings and sunscreen-protecting cosmetics.
This work was supported by the National Metal and Materials Science Technology Center, Thailand (funding # MT-B-47-CER-07-169-I, and # MT-B-49-ATO-07-020-I).
[2] Huang Z. et.al., Bactericidal mode of titanium dioxide photocatalysis, Journal of Photochemistry and Photobiology A: Chemistry, vol 130, 2000, pp. 163-170
Bickmore CR. et.al., Ultrafine titania by flame spray pyrolysis of a titanatrane complex, Journal of the European Ceramic Society, Vol. 18, No.4, 1998, pp. 287-297
Online since: July 2007
Authors: Kenji Higashi, Yorinobu Takigawa, Kazuo Aoki, Koichi Makii, Atsumichi Kushibe, Toshiaki Takagi
Takagi4,f
1
Research and Development Institute, Takenaka Corporation, 5-1, 1-chome, Ohtsuka, Inzai,
Chiba, (270-1395), Japan
(Department of Materials Science, Graduate School of Engineering, Osaka Prefecture University,
Gakuen-cho 1-1, Naka-ku ,Sakai, (599-8531), Japan)
2
Department of Materials Science, Graduate School of Engineering, Osaka Prefecture University,
Gakuen-cho 1-1, Naka-ku ,Sakai, (599-8531), Japan
3
Building Design Department, Takenaka Corporation, 1-13 4-chome Chuo-ku,
Osaka,(541-0053) ,Japan
4
Materials Research Laboratories, Kobe Steel Ltd., 5-5, Takatsukadai 1-chome, Nishi-ku,
Kobe, (651-2271), Japan)
a
kushibe.atsumichi@takenaka.co.jp, b
takigawa@mtr.osakafu-u.ac.jp,
chigashi@mtr.osakafu-u.ac.jp, d
aoki.kazuo@takenaka.co.jp,
ek-makii@rd.kcrl.kobelco.co.jp, fto-takagi@ rd.kcrl.kobelco.co.jp
Keywords: Zn-Al alloy, Superplasticity, TMCP, seismic damper, maintenance-free
Abstract.As a new damping material, the authors first developed
Fig. 6 shows the relationships between cumulative strain and stress for both materials.
:Journal of Japan Institute of Light Metals, Vol.30, No.11 (1980), p.634
Ueda et al.: Journal of JSME C, Vol. 68, No. 672(2002), p.2332
:International Journal of Mechanical Sciences 45 (2003) p.1599.
Fig. 6 shows the relationships between cumulative strain and stress for both materials.
:Journal of Japan Institute of Light Metals, Vol.30, No.11 (1980), p.634
Ueda et al.: Journal of JSME C, Vol. 68, No. 672(2002), p.2332
:International Journal of Mechanical Sciences 45 (2003) p.1599.
Online since: January 2014
Authors: Antonio Ferreira Miguel, Murat Aydın, Mahmut Aydın, Erkan Günaydınoğlu
We address the problem of estimating the particle distribution in the suspension flow near solid walls which is of considerable interested in science and technology.
Aydin, Aerosol particle deposition and distribution in a bifurcating ventilation duct, Journal of Hazardous Materials 116 (2004) 249-255
Miguel, Non-darcy porous media flow in no-slip and slip regimes, Thermal Science 16 (2012) 167-176
Reis, Transport and deposition of fine mode particles in porous filters, Journal of Porous Media 8 (2006) 731-744
Miguel, Particle deposition in random fibrous porous materials: effect of acoustic fields, fibres distribution and porosity, Journal of Mechanical Science and Technology 21 (2007) 1881-1885.
Aydin, Aerosol particle deposition and distribution in a bifurcating ventilation duct, Journal of Hazardous Materials 116 (2004) 249-255
Miguel, Non-darcy porous media flow in no-slip and slip regimes, Thermal Science 16 (2012) 167-176
Reis, Transport and deposition of fine mode particles in porous filters, Journal of Porous Media 8 (2006) 731-744
Miguel, Particle deposition in random fibrous porous materials: effect of acoustic fields, fibres distribution and porosity, Journal of Mechanical Science and Technology 21 (2007) 1881-1885.
Online since: March 2017
Authors: Meruyert Nazhipkyzy, Nikolay G. Prikhodko, Bakhytzhan T. Lesbayev, Zulkhair A. Mansurov, Tolganay Temirgaliyeva, Aizhan A. Zhaparova, Araylim Nurgain
The scales of porous carbon materials usage are constrained by their considerably high cost.
Obtained carbon materials was investigated by Raman spectroscopy and by scanning electron microscope.
Among carriers, of great importance for preparation of catalysts are carbon materials.
«Eurasian Chemico-tecnological journal». – 2012, – V. 14, №1. – P. 19-23
Methods for preparation of catalytic materials //Chem.
Obtained carbon materials was investigated by Raman spectroscopy and by scanning electron microscope.
Among carriers, of great importance for preparation of catalysts are carbon materials.
«Eurasian Chemico-tecnological journal». – 2012, – V. 14, №1. – P. 19-23
Methods for preparation of catalytic materials //Chem.
Online since: July 2014
Authors: Hua Zhou, Wan Tai Yu, Ying Zhao
Materials and methods
Experimental Design.
Table 1 TOC, ON and C/N ratio of the investigated soil and organic materials.
Fig. 4 TOC of observed value and predicted value in mixed organic materials.
Yu, Chinese Journal Soil Science Vol. 28 (1997), p. 71 (in Chinese)
Shen, Chinese Journal Applied Ecology Vol. 18 (2007), p. 2503 (in Chinese)
Table 1 TOC, ON and C/N ratio of the investigated soil and organic materials.
Fig. 4 TOC of observed value and predicted value in mixed organic materials.
Yu, Chinese Journal Soil Science Vol. 28 (1997), p. 71 (in Chinese)
Shen, Chinese Journal Applied Ecology Vol. 18 (2007), p. 2503 (in Chinese)
Online since: October 2023
Authors: Daniel Garcia-Garcia, Rafael Balart, Debora Puglia, Franco Dominici, Juan Ivorra-Martinez, Jaume Gomez-Caturla, Luigi Torre
This work reports on the development of thermoplastic starch materials based on mango kernel flour.
Several environmentally friendly materials have been studied as alternatives for petrochemical plastics.
Materials and Methods Materials Mango stones were purchased from a local marmalade company, “El rincon de las Mermeladas (Alicante, Spain).
Field emission scanning electron miscroscopy (FESEM) images of all the TPS materials.
Huneault, Comparison of sorbitol and glycerol as plasticizers for thermoplastic starch in TPS/PLA blends, Journal of Applied Polymer Science 119(4) (2011) 2439-2448
Several environmentally friendly materials have been studied as alternatives for petrochemical plastics.
Materials and Methods Materials Mango stones were purchased from a local marmalade company, “El rincon de las Mermeladas (Alicante, Spain).
Field emission scanning electron miscroscopy (FESEM) images of all the TPS materials.
Huneault, Comparison of sorbitol and glycerol as plasticizers for thermoplastic starch in TPS/PLA blends, Journal of Applied Polymer Science 119(4) (2011) 2439-2448
Online since: July 2014
Authors: Wei Na Liu, Li Feng Yang, Chun Yan Dong
Numerical investigations of the abrasive influence on material removal efficiency of the micro-hole for AFM process is conducted in this paper.
Introduction Abrasive flow machining (AFM) is an advanced finishing process used to remove workpiece material.
Journal of Mechanical Science and Technology 21 (2007) 1593-1598 [2]P.A.
Journal of Materials Processing Technology, 2003,135(2-3): 330-339
A study of abrasive waterjet characteristics by CFD simulation.Journal of Materials Processing Tech. 2004, Vol.153 , pp.488-493
Introduction Abrasive flow machining (AFM) is an advanced finishing process used to remove workpiece material.
Journal of Mechanical Science and Technology 21 (2007) 1593-1598 [2]P.A.
Journal of Materials Processing Technology, 2003,135(2-3): 330-339
A study of abrasive waterjet characteristics by CFD simulation.Journal of Materials Processing Tech. 2004, Vol.153 , pp.488-493
Online since: September 2013
Authors: Wei Dong He, Peng Wang, Yan Long Shi, Xiao An Wei
Zhu: Chinese Journal of Energetic Materials,Vol.7(1999),P.25
[6] F.G.
Pan,and X.Q:Chinese Journal of Energetic Materials ,Vol.13(2005),P.242 [9] Y.H.
Liu:Chinese Journal of Explosives and Propellants,Vol.25(2002),P.78 [10] X.Y.Lin,Y.J.Liu and S.Shi:Journal of Nanjing University of Science andTechnology,Vol.35 (2010),P.552 [11] C.Z.
Wang: Chinese Journal of Energetic Materials,Vol.12(2004),P.231 [13] W.D.
Wang: Explosive Materials, Vol.33(2004),P.12 [18] P.Wang, X.A.Wei and X.H.Xiao:Chinese Journal of Explosives and Propellants,Vol.34(2011), P.36
Pan,and X.Q:Chinese Journal of Energetic Materials ,Vol.13(2005),P.242 [9] Y.H.
Liu:Chinese Journal of Explosives and Propellants,Vol.25(2002),P.78 [10] X.Y.Lin,Y.J.Liu and S.Shi:Journal of Nanjing University of Science andTechnology,Vol.35 (2010),P.552 [11] C.Z.
Wang: Chinese Journal of Energetic Materials,Vol.12(2004),P.231 [13] W.D.
Wang: Explosive Materials, Vol.33(2004),P.12 [18] P.Wang, X.A.Wei and X.H.Xiao:Chinese Journal of Explosives and Propellants,Vol.34(2011), P.36