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Online since: November 2013
Authors: Sławomir Zolkiewski
Majzner, Analysis of composite structural elements, Journal of Achievements in Materials and Manufacturing Engineering, 43/2, 577-585 (2010)
Labisz, Neural networks aided future events scenarios presented on the example of laser surface treatment, Archives of Materials Science and Engineering, 51/2, 69-96 (2011)
Dobrzańska-Danikiewicz, Foresight of material surface engineering as a tool building a knowledge-based economy, Materials Science Forum, 706-709, 2511-2516 (2012)
Journal of Materials Processing Technology, 164, 1452-1458 (2005)
Journal of Materials Processing Technology, 164, 1358-1368 (2005)
Labisz, Neural networks aided future events scenarios presented on the example of laser surface treatment, Archives of Materials Science and Engineering, 51/2, 69-96 (2011)
Dobrzańska-Danikiewicz, Foresight of material surface engineering as a tool building a knowledge-based economy, Materials Science Forum, 706-709, 2511-2516 (2012)
Journal of Materials Processing Technology, 164, 1452-1458 (2005)
Journal of Materials Processing Technology, 164, 1358-1368 (2005)
Online since: January 2020
Authors: Pavel V. Matyukhin
These materials are polymer and liquid glass composites, intermetallic and layer composites, metal concrete and antifriction composite materials, titanium-aluminum and titanium-steel composites, magnesium and concrete containing aluminum composites, sulfur and barium containing composites, lightweight and other composite materials [1-25] including hematite iron ore based concentrate and aluminum matrix [26].
Gurevich, Science basis of design and production of new class of construction materials – layer intermetallic composites, Construction of composite materials. 4 (2006) 132-134
Shutov, Radio protective cellular materials, Science Intensive Technologies. 17(2) (2016) 57-62
JOURNAL of Construction and Architecture. 4(41) (2013) 218-225
Voronov, Study of gamma radiation weakening properties of composite materials, Herald of construction sciences department of Russian academy of architecture and construction sciences. 9 (2005) 384-387
Gurevich, Science basis of design and production of new class of construction materials – layer intermetallic composites, Construction of composite materials. 4 (2006) 132-134
Shutov, Radio protective cellular materials, Science Intensive Technologies. 17(2) (2016) 57-62
JOURNAL of Construction and Architecture. 4(41) (2013) 218-225
Voronov, Study of gamma radiation weakening properties of composite materials, Herald of construction sciences department of Russian academy of architecture and construction sciences. 9 (2005) 384-387
Online since: March 2010
Authors: Hong Bai Bai, Guo Quan Liu, Jian Chun Yang, You Yan Wang
Study on Figuration Techniques of Grades Extrusion
for Making Metal Rubber Material
Jianchun YANG 1, 2, a, Guoquan LIU 1, b, Hongbai BAI 2, c, Youyan WANG 2.d
1
School of Material Science and Engineering, University of Science and Technology Beijing,
Beijing 100083, China
2
First Department of Ordnances Engineering College, Shijiazhuang 050003, China
a
yjc675266@163.com,
b
g.liu@ustb.edu.cn,
c
bhbk12@sina.com,
d
wangyy0632@163.com
Key words: Metal rubber material; Figuration Techniques; Grades Extrusion; mechanics property
Abstract.
Introduction The metal rubber material(abbr.
Beijing.2000), In Chinese [2] Xieqing TieshanZHANG, JunhuaZHANG: Mechanicl Science and Technology.
Vol. 19-6(2000), p.977, In Chinese [3] YuyanLI, Xieqingn HUNG: Journal of Aeronautical Materials Vol.28 -2(2008), p.70, In Chinese [4] JianminWANG, TingguoPEI: Journal of Astronautic.
In Chinese [5] ZHANG Rui-hua, JIANG Hong-yuan, ZHAO Ke-ding: Journal of Harbin Institute of Tehnology, Vol.13-2 (2006): p146
Introduction The metal rubber material(abbr.
Beijing.2000), In Chinese [2] Xieqing TieshanZHANG, JunhuaZHANG: Mechanicl Science and Technology.
Vol. 19-6(2000), p.977, In Chinese [3] YuyanLI, Xieqingn HUNG: Journal of Aeronautical Materials Vol.28 -2(2008), p.70, In Chinese [4] JianminWANG, TingguoPEI: Journal of Astronautic.
In Chinese [5] ZHANG Rui-hua, JIANG Hong-yuan, ZHAO Ke-ding: Journal of Harbin Institute of Tehnology, Vol.13-2 (2006): p146
Online since: August 2013
Authors: Ikuo Ihara, Akira Kosugi, Iwao Matsuya
In the fields of materials science and engineering, measuring temperature has become one of the most fundamental and important issues.
Ultrasound is expected to be an alternative for monitoring the internal temperature and its gradient in materials because of its capability to probe the interior of materials and its high sensitivity to temperature [2-7].
Measurement Science Technology, 16 (2005) 548-555
Ihara, Ultrasonic monitoring of internal temperature distribution in a heated material, Japanese Journal of Applied Physics 47 (2008) 3894-3898
Ihara, (2009), Quantitative evaluation of one-dimensional temperature distribution on material surface using surface acoustic wave, Japanese Journal of Applied Physics, 48, (2009) 07GB04-1-5
Ultrasound is expected to be an alternative for monitoring the internal temperature and its gradient in materials because of its capability to probe the interior of materials and its high sensitivity to temperature [2-7].
Measurement Science Technology, 16 (2005) 548-555
Ihara, Ultrasonic monitoring of internal temperature distribution in a heated material, Japanese Journal of Applied Physics 47 (2008) 3894-3898
Ihara, (2009), Quantitative evaluation of one-dimensional temperature distribution on material surface using surface acoustic wave, Japanese Journal of Applied Physics, 48, (2009) 07GB04-1-5
Online since: September 2013
Authors: Xiao Meng Huang, Chao Sun, Ren Yuan Sun, Kun Kun Fan, Lei Wang
Experimental
Materials.
Journal of Oil and Gas Technology, Vol. 28 (2006), No. 2, P. 105 (in Chinese) [14] H.
Journal of Daqing Normal University, Vol. 29 (2009), No. 6, P. 114 (in Chinese) [15] R.
Journal of the Chinese Ceramic Society, Vol. 36 (2008), No. 3, P. 391 [16] Y.
Petroleum Science, Vol. 8 (2011), No. 8, P. 207
Journal of Oil and Gas Technology, Vol. 28 (2006), No. 2, P. 105 (in Chinese) [14] H.
Journal of Daqing Normal University, Vol. 29 (2009), No. 6, P. 114 (in Chinese) [15] R.
Journal of the Chinese Ceramic Society, Vol. 36 (2008), No. 3, P. 391 [16] Y.
Petroleum Science, Vol. 8 (2011), No. 8, P. 207
Online since: May 2014
Authors: Anna Danuta Dobrzańska-Danikiewicz, Dariusz Łukowiec, Mirosława Pawlyta
The exact imaging of the materials examined was possible by applying an HAADF detector (Z contrast).
Hybrid materials containing nanoparticles of precious metals and carbon nanotubes are also employed in medical techniques.
Prato, Decoration carbon nanotubes with metal or semiconductor nanoparticles, Journal of Materials Chemistry 17 (2007) 2679-2694
Dobrzańska-Danikiewicz, Characterisation of carbon nanotubes decorated with platinum nanoparticles, Journal of Achievements in Materials and Manufacturing Engineering 53/2 (2012) 67-75
Wolf, Hydrogen storage by carbon materials, Journal of Power Sources 159/2 (2006) 781-801
Hybrid materials containing nanoparticles of precious metals and carbon nanotubes are also employed in medical techniques.
Prato, Decoration carbon nanotubes with metal or semiconductor nanoparticles, Journal of Materials Chemistry 17 (2007) 2679-2694
Dobrzańska-Danikiewicz, Characterisation of carbon nanotubes decorated with platinum nanoparticles, Journal of Achievements in Materials and Manufacturing Engineering 53/2 (2012) 67-75
Wolf, Hydrogen storage by carbon materials, Journal of Power Sources 159/2 (2006) 781-801
Online since: March 2020
Authors: Lakshmanan Poovazhgan, A. Arun
ARB is carried out in homogenous and heterogeneous materials to bring out the useful applications of ultrafine grained materials.
Microstructure describes the grain refinement in ARB processed materials.
Development of composite materials is investigated and is used for relevant applications and ARB is also used to develop advanced materials through heterogeneous processing’s.
Each pass shows distinct property of materials, hence, each pass shall be analyzed carefully to understand the point at which the material starts to bond with the pairing materials.
After the specimen preparation, the required material is annealed; the annealing temperature varies depending on materials used.
Microstructure describes the grain refinement in ARB processed materials.
Development of composite materials is investigated and is used for relevant applications and ARB is also used to develop advanced materials through heterogeneous processing’s.
Each pass shows distinct property of materials, hence, each pass shall be analyzed carefully to understand the point at which the material starts to bond with the pairing materials.
After the specimen preparation, the required material is annealed; the annealing temperature varies depending on materials used.
Online since: July 2014
Authors: Yuan Ming Zhang
Theoretical Introduction of Nanostructured Titanium Oxide
Nanostructured materials refers Nanostructures accumulate a certain way or at a certain matrix dispersed form macroscopic materials, including Nanostructured powders, Nanostructured thin film materials, Nanostructured materials.
Properties of Nano-TiO2 Textile Materials For the nature of TiO2 materials synthesis, modification and applications, people have done extensive research.
Fig.2 shows the properties of Nano-TiO2 textile materials [4].
Journal of Colloid and Interface Science, 2008, 322(1): 128-135
Journal of Photochemistry and Photobiology A: Chemistry, 2009, 203(2-3): 192-198
Properties of Nano-TiO2 Textile Materials For the nature of TiO2 materials synthesis, modification and applications, people have done extensive research.
Fig.2 shows the properties of Nano-TiO2 textile materials [4].
Journal of Colloid and Interface Science, 2008, 322(1): 128-135
Journal of Photochemistry and Photobiology A: Chemistry, 2009, 203(2-3): 192-198
Online since: November 2011
Authors: Xue Song Mao, Ji Quan Xiong, Yun Tao Peng, Da Yong Xie
Journal of East China University of Science and Technology, 2003, 29(6): 583-586
Journal of Ceramics, 2006, 27(1): 39-42
Journal of Wuhan University of Science and Technology (Natural Science Edition), 2008, 31(62): 570-573
Journal of Wuhan University of Science and Technology (Natural Science Edition), 2005, 28(2): 130-133
Refractory Materials, 2010, 44(4): 302-304
Journal of Ceramics, 2006, 27(1): 39-42
Journal of Wuhan University of Science and Technology (Natural Science Edition), 2008, 31(62): 570-573
Journal of Wuhan University of Science and Technology (Natural Science Edition), 2005, 28(2): 130-133
Refractory Materials, 2010, 44(4): 302-304
Online since: December 2012
Authors: G. Galli, A. Vallati
Thermal Characteristics of Urban Surface Materials
G.
Vallatia a Department of DIAEE, “Sapienza” University of Rome, Via Eudossiana, 18 -00184 Roma Italy Keywords: Heat Flux, Materials Properties, Thermal Comfort.
These interactions are mainly based on surface radiation and energy balances, which are ruled by physical properties of construction materials.
The proposed study aims to analyze the influence of vegetation and of surface materials on the microclimate of an urban area.
A very simple model has been considered: a square of fixed size that has at its centre a test area of different surface properties: asphalt, grass, trees, sun reflecting materials. 2.
Vallatia a Department of DIAEE, “Sapienza” University of Rome, Via Eudossiana, 18 -00184 Roma Italy Keywords: Heat Flux, Materials Properties, Thermal Comfort.
These interactions are mainly based on surface radiation and energy balances, which are ruled by physical properties of construction materials.
The proposed study aims to analyze the influence of vegetation and of surface materials on the microclimate of an urban area.
A very simple model has been considered: a square of fixed size that has at its centre a test area of different surface properties: asphalt, grass, trees, sun reflecting materials. 2.