Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: September 2013
Authors: Fatima Aldaw Idrees, Zulkafli Othaman, Samsudi Sakrani
However the integrated electronic circuits system depends on electrical charges confined in the interfaces between different materials with different nanostructure properties [2].
This system created by a composite of different materials such as silicon thin films deposition on glass substrate.
Progress in Materials Science. 56(7): p. 901-1029
Journal of Alloys and Compounds, 2011. 509(9): p. 3963-3966
Microelectronics Journal, 2002. 33(4): p. 313-318
This system created by a composite of different materials such as silicon thin films deposition on glass substrate.
Progress in Materials Science. 56(7): p. 901-1029
Journal of Alloys and Compounds, 2011. 509(9): p. 3963-3966
Microelectronics Journal, 2002. 33(4): p. 313-318
Online since: September 2013
Authors: Luqman Musa, A.G. Supri, M.I.M. Yazid, Z. Firuz
Supri1,b, Firuz Zainuddin1,c, Luqman Musa1,d
1 School of Materials Engineering, Universiti Malaysia Perlis, KompleksPusatPengajianJejawi 2, 02600 Arau, Perlis, Malaysia.
Materials The chicken feathers were obtained from Local Market in Perlis, Malaysia.
These materials were mixed with CFF loading from 1-10 phr.
Igwe, Diffusion Characteristic of Toluene Into Natural Rubber / Linear Low Density Polyethylene Blends, International Journal of Polymer Science, 2009, 1-6
Baron, Polyehtylene / Keratin Fibers Composites, Composites Part A: Applied Science and Manufacturing, 36, 11, (2005), 1518 – 1524.
Materials The chicken feathers were obtained from Local Market in Perlis, Malaysia.
These materials were mixed with CFF loading from 1-10 phr.
Igwe, Diffusion Characteristic of Toluene Into Natural Rubber / Linear Low Density Polyethylene Blends, International Journal of Polymer Science, 2009, 1-6
Baron, Polyehtylene / Keratin Fibers Composites, Composites Part A: Applied Science and Manufacturing, 36, 11, (2005), 1518 – 1524.
Online since: October 2014
Authors: Mikhail D. Starostenkov, Mohamed Mahmud Aish
Changing the cross-sectional size affects the value of the yield strength of the material.
[5] Mikhail Starostenkov, Alexander Yashin, Nikita Sinica, Structural Transformation in Nanowires CuAu I with Superstructure of L10 of Tetragonal Symmetry at Uni-Axial Tension Deformation, Key Engineering Materials. 592-593 (2000) 51-54
Zhang, Computational Materials Science. 44 (2009) 1390
Starostenkov, Russian Physics Journal. 51, 10 (2008) 1053-1063
Grakhov, Computational Materials Science. 14 (1999) 146
[5] Mikhail Starostenkov, Alexander Yashin, Nikita Sinica, Structural Transformation in Nanowires CuAu I with Superstructure of L10 of Tetragonal Symmetry at Uni-Axial Tension Deformation, Key Engineering Materials. 592-593 (2000) 51-54
Zhang, Computational Materials Science. 44 (2009) 1390
Starostenkov, Russian Physics Journal. 51, 10 (2008) 1053-1063
Grakhov, Computational Materials Science. 14 (1999) 146
Online since: August 2012
Authors: Xian Hao Shi, Bo Qian, Xiao Dong Pan, Jian Zhong Xia
The reinforcement material 1.5 mm thick FRP sheet.
Test beam steel skeleton and the perspective of FRP materials and test beam finite element mesh is shown in Figure 4 and 5.
Acknowledgements This work was financially supported by the Zhejiang Science and Technology Program (2005C31067) and Chinese National Natural Science Foundation (50908212).
China Civil Engineering Journal,2008,41(12):14-20 [8] Liang Jinfu,Yan Liubin.
Building Structure,2006,36(12):19-21.In Chinese [9]Changzhou Dong,Jianzhong Xia.Applied Mechanics and Materials Vols.94-96 (2011) :883-886
Test beam steel skeleton and the perspective of FRP materials and test beam finite element mesh is shown in Figure 4 and 5.
Acknowledgements This work was financially supported by the Zhejiang Science and Technology Program (2005C31067) and Chinese National Natural Science Foundation (50908212).
China Civil Engineering Journal,2008,41(12):14-20 [8] Liang Jinfu,Yan Liubin.
Building Structure,2006,36(12):19-21.In Chinese [9]Changzhou Dong,Jianzhong Xia.Applied Mechanics and Materials Vols.94-96 (2011) :883-886
Online since: February 2013
Authors: Xing Zhu, Yong Ci Liu, Qi Rui Zhao, Gui Ping Liu
Experiments
Materials.
Acknowledgments This work is supported by Liaoning provincial science and technology department, and the Fund item number is L2012144.
Journal of Hubei University (Natural Science), 2009, 3, 1(31), p. 59-63(.in Chinese) [2] Xianyan Cao.
Journal of Hazardous Materials Vol.154(2008), p. 639-648
Environmental Science Vol.1(1995), p. 12-15(.in Chinese) [6] Deshuai Zhang, Xiaodong Zhang, Zhongyi Zhang, et al.
Acknowledgments This work is supported by Liaoning provincial science and technology department, and the Fund item number is L2012144.
Journal of Hubei University (Natural Science), 2009, 3, 1(31), p. 59-63(.in Chinese) [2] Xianyan Cao.
Journal of Hazardous Materials Vol.154(2008), p. 639-648
Environmental Science Vol.1(1995), p. 12-15(.in Chinese) [6] Deshuai Zhang, Xiaodong Zhang, Zhongyi Zhang, et al.
Online since: September 2007
Authors: Victor Giurgiutiu
AFOSR is organized in three major research areas [1]:
• Aerospace, Chemical, and Material Sciences
• Mathematics, Information, and Life Sciences
• Physics and Electronics
Inside each of the major research areas there are several research programs.
For example, the Aerospace, Chemical, and Material Sciences major research area encompasses thirteen research programs; details of these research programs can be found on the public website given in ref. 1.
One of the thirteen research programs of the Aerospace, Chemical, and Material Sciences major research area is the research program in Structural Mechanics.
The science and engineering community has recently created a dedicated publication (Structural Health Monitoring - An International Journal, Sage Pub., UK), and several other established publications have refocused to include structural health monitoring into their center vision.
Many of the well established long-running conference in NDI, NDE, materials, etc. have recently added sections on structural health monitoring.
For example, the Aerospace, Chemical, and Material Sciences major research area encompasses thirteen research programs; details of these research programs can be found on the public website given in ref. 1.
One of the thirteen research programs of the Aerospace, Chemical, and Material Sciences major research area is the research program in Structural Mechanics.
The science and engineering community has recently created a dedicated publication (Structural Health Monitoring - An International Journal, Sage Pub., UK), and several other established publications have refocused to include structural health monitoring into their center vision.
Many of the well established long-running conference in NDI, NDE, materials, etc. have recently added sections on structural health monitoring.
Online since: July 2013
Authors: Zhi Yu Wen, Dong Ling Li, Zheng Guo Shang
Especially compared to polymeric membranes which are the commonly used materials in MEMS device fabrication, silicon nitride layers have several advantages.
Specifically, silicon nitride films are typical structural materials for integrated circuits (IC) passivation, etching masks, device dielectrics, and MEMS microstructures.
Bellutti, et al., Applied Surface Science, 256 (2009) 251-255
Wei, Journal of Micromechanics and Microengineering, 16 (2006) 869
Sheng, et al., Materials Science and Engineering B, 98 (2003) 248-254
Specifically, silicon nitride films are typical structural materials for integrated circuits (IC) passivation, etching masks, device dielectrics, and MEMS microstructures.
Bellutti, et al., Applied Surface Science, 256 (2009) 251-255
Wei, Journal of Micromechanics and Microengineering, 16 (2006) 869
Sheng, et al., Materials Science and Engineering B, 98 (2003) 248-254
Online since: April 2012
Authors: Duangduen Atong, Chiravoot Pechyen, Athiwat Sirimuangjinda, Khanthima Hemra
Pechyen1, 3,d
1Department of Packaging and Materials Technology, Faculty of Argo-Industry, Kasetsart University, Bangkok 10900, Thailand
2National Metal and Materials Technology Center, 114 Thailand Science Park, Pathumthani 12120, Thailand
3Center for Advanced Studies in Agriculture and Food, KU Institute for Advanced Studies, Kasetsart University, Bangkok 10900, Thailand (CASAF, NUR-KU, Thailand)
aathiwat.si@hotmail.com, bkhanthh@mtec.or.th, cduangdua@mtec.or.th, dchiravoot.p@ku.ac.th
Keywords: Activated Carbon, Waste Tire, Ethylene Absorbent, Active Packaging
Abstract.
Activated carbon is a processed carbon material with a highly developed porous structure and a large internal specific surface area.
Yunhong: International Journal of Food Science & Technology.
Sricharoenchaikul: Materials Science Forum.Vol.561-565(3), (2007), p.1719-1722 [3] V.
Mesquita, K.Sapag: Journal of Hazardous Materials.
Activated carbon is a processed carbon material with a highly developed porous structure and a large internal specific surface area.
Yunhong: International Journal of Food Science & Technology.
Sricharoenchaikul: Materials Science Forum.Vol.561-565(3), (2007), p.1719-1722 [3] V.
Mesquita, K.Sapag: Journal of Hazardous Materials.
Online since: August 2022
Authors: Valentin Gaydarov, Nikolay Hristov, Nikolay T. Tontchev, Emil H. Yankov
., 1574 Sofia, Bulgaria
2Department of Material Science and Technology, University of Ruse „Angel Kanchev“,
8 Studentska Str., 7017 Ruse, Bulgaria
atontchev@vtu.bg, b*eyankov@uni-ruse.bg, cvgaydarov@vtu.bg, dn_d_hristov@vtu.bg
Keywords: austenitic steels, defmot, multicriteria optimization, regression models, mechanical properties.
Dobrzański, W Sitek, Designing of the chemical composition of constructional alloy steels, Journal of Materials Processing Technology, Volumes 89–90, 1999, Pages 467-472
[3] Jing-Bo Li, Caifu Yang, Han Dong, Computer simulations of phase transformation in steels, Materials & Design, Volume 22, Issue 1, 2001, Pages 39-43
Comparative study on intelligent and classical modeling and composition optimization of steel alloys, Journal of Materials Sciences and Engineering with Advanced Technology, 4(1), 69-91
[8] Tontchev N., Materials science, Effective solutions, and technological variants, - Lambert, Academic Publishing, 2014
Dobrzański, W Sitek, Designing of the chemical composition of constructional alloy steels, Journal of Materials Processing Technology, Volumes 89–90, 1999, Pages 467-472
[3] Jing-Bo Li, Caifu Yang, Han Dong, Computer simulations of phase transformation in steels, Materials & Design, Volume 22, Issue 1, 2001, Pages 39-43
Comparative study on intelligent and classical modeling and composition optimization of steel alloys, Journal of Materials Sciences and Engineering with Advanced Technology, 4(1), 69-91
[8] Tontchev N., Materials science, Effective solutions, and technological variants, - Lambert, Academic Publishing, 2014
Online since: May 2011
Authors: Da Jun Fu, Xiao Guang Yuan, Shuang Li
Experimental materials, equipment and methods
The alloy in this test is composed of Al-5% Fe-1.2% Si-1% Mg-0.6% Cu-0.5% Mn; raw materials used to fuse the alloy including aluminum, magnesium, Fe, Mn, Cu, Si are added in the form of master alloys.
But at temperature above 200 ℃, the transient mechanical properties of materials decreased significantly.
References [1]ZHOU Zhenping,LI Rongde, Journal of Shenyang University of Technology 2003,(2):p.101-104.In Chinese [2]GAO Wenyu, ZHANG Yongchang Materials Review 1994,(3):p.17-20.
Intermetallic Elsevier Science SA,1995, (1): p.128-133
The Chinese Journal of Nonferrous Metals, 2005,(4):p.621-625.
But at temperature above 200 ℃, the transient mechanical properties of materials decreased significantly.
References [1]ZHOU Zhenping,LI Rongde, Journal of Shenyang University of Technology 2003,(2):p.101-104.In Chinese [2]GAO Wenyu, ZHANG Yongchang Materials Review 1994,(3):p.17-20.
Intermetallic Elsevier Science SA,1995, (1): p.128-133
The Chinese Journal of Nonferrous Metals, 2005,(4):p.621-625.