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Online since: September 2013
Authors: Josip Brnic, Marko Canadija, Marino Brcic
Lu: Progress in Polymer Science 33 (2008), p.191
[7] S.
Chandra: Journal of Engineering Materials and Technology 127 (2005), p.222 [8] K.I.
Brnic: Reviews on Advanced Materials Science 33 (2013), p.1 [14] M.
Liu: Computational Materials Science 29 (2004), p.1 [16] K.J.
Jones: Mechanics of Composite Materials, second ed. (1999), Taylor & Francis, Philadelphia.
Chandra: Journal of Engineering Materials and Technology 127 (2005), p.222 [8] K.I.
Brnic: Reviews on Advanced Materials Science 33 (2013), p.1 [14] M.
Liu: Computational Materials Science 29 (2004), p.1 [16] K.J.
Jones: Mechanics of Composite Materials, second ed. (1999), Taylor & Francis, Philadelphia.
Online since: August 2011
Authors: Zhi Ming Feng, Zhen Kai Zhao, Yan Pei Song
Primary Study of Wear-resistance characters of the Recycled Composite materials
Zhiming Feng, Yanpei Song, Zhenkai Zhao
School of Material Science and Engineering, Henan University of Science and Technology, Luoyang 471003, China
aemail:fzmhao@163.com, bemail: sypei@mail.haust.edu.cn, cemail: zhaozhenkai@gmail.com
Keywords: Recycled composite materials, centrifugal casting, friction property
Abstract.
If scrapped composites collars can be recycled, the availability of composite materials may be greatly improved and the cost will be also reduced.
Experimental details The experimental materials were from the recycled WCp reinforced ferrous composite materials.
Journal of mechanical engineering, 2001, 37 ( 11) : 99.
Aplication of WC/Fe-C composites by Centrifugal casting.Journal of Functional Materials, 2004, 6(35): 761.
If scrapped composites collars can be recycled, the availability of composite materials may be greatly improved and the cost will be also reduced.
Experimental details The experimental materials were from the recycled WCp reinforced ferrous composite materials.
Journal of mechanical engineering, 2001, 37 ( 11) : 99.
Aplication of WC/Fe-C composites by Centrifugal casting.Journal of Functional Materials, 2004, 6(35): 761.
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: 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: 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.
Online since: April 2013
Authors: Hai Yu, Yu Bo Zhang, Hai Ting Xia, Rong Xin Guo, Feng Yan
Investigation for the Fracture Process of WCp/Cu Functionally Graded Materials under Three-Point-Bending
Haiting Xia1,2,a,Rongxin Guo1,2,b, Feng Yan1,2, Hai Yu1,Yubo Zhang1
1Faculty of Civil and Architectural Engineering, Kunming University of Science and Technology, Kunming 650500,China
2Key Laboratory of Yunnan Higher Education Institutes for Mechanical Behavior and Microstructure Design of Advanced Materials,Kunming University of Science and Technology,Kunming 650500,China
ahtxia2006@163.com, bguorx@kmust.edu.cn
Keywords: Functionally Graded Materials, Fracture Process, Three-Point-Bending, Experimental Mechanics.
Introduction Functionally graded materials (FGMs) are known as materials in which a material composition varies gradually in some direction.
According to the knowledge of materials mechanics, the reason of the fracture of bending is that the maximum normal stress exceeds the ultimate stress of materials.
Fracture mechanics of functionally graded materials.
Advanced Materials Research, Vols. 415-417 (2012), pp 2244-2247
Introduction Functionally graded materials (FGMs) are known as materials in which a material composition varies gradually in some direction.
According to the knowledge of materials mechanics, the reason of the fracture of bending is that the maximum normal stress exceeds the ultimate stress of materials.
Fracture mechanics of functionally graded materials.
Advanced Materials Research, Vols. 415-417 (2012), pp 2244-2247
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: February 2015
Authors: Jing Lei Dou, Jing Feng Dou, Yu Juan Guo
On the site grouting test and compare the compressive strength of the stones of the body and the size of the diffusion radius, and compare the grouting materials with pure cement materials.
Through the comparative and analysis, the reasonable grouting materials are choosen.
Comparison analysis shows: The core compressive strength of pure cement materials and montmorillonite with cement mixing materials has little difference.
China safety science journal, Vol.16(2006), 42~46
Journal of mining and safety engineering, Vol.23(2006),320~323.
Through the comparative and analysis, the reasonable grouting materials are choosen.
Comparison analysis shows: The core compressive strength of pure cement materials and montmorillonite with cement mixing materials has little difference.
China safety science journal, Vol.16(2006), 42~46
Journal of mining and safety engineering, Vol.23(2006),320~323.
Online since: January 2012
Authors: Volkan Gunay, Muzeyyen Marsoglu, Enver Bulent YALÇIN
The damage process in composite materials under low and high velocity impact loading and the impact energy-displacement properties of the composite materials were investigated.
Introduction Performances of composite materials have shown their superiority over other materials in many applications, such as automotive and aerospace industries [2].
Composites Science and technology 61 (2001) 65-73
On low-velocity impact testing of composite materials.
Journal of Composite Materials 1988; 22(1):30-52 [4] Cesim Atas, Onur Sayman An overall view on impact response of woven fabric composite plates.
Introduction Performances of composite materials have shown their superiority over other materials in many applications, such as automotive and aerospace industries [2].
Composites Science and technology 61 (2001) 65-73
On low-velocity impact testing of composite materials.
Journal of Composite Materials 1988; 22(1):30-52 [4] Cesim Atas, Onur Sayman An overall view on impact response of woven fabric composite plates.