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Online since: March 2017
Authors: Brian Yuliarto, Bambang Sunendar, Nugraha Nugraha, Hiskia Hiskia, Aminuddin Debataraja
Structural and Morphological Analysis of Nanocomposite SnO2-Graphene Synthesized By Sol-Gel Method
Aminuddin Debataraja1,2,a, Brian Yuliarto1,b, Nugraha1,c, Bambang Sunendar1,d
Hiskia3,e
1Department of Engineering Physics, Faculty of Industrial Technology, Institut Teknologi Bandung, Indonesia,
2Electrical Engineering, State Polytechnic of Jakarta, Depok, Indonesia
3Research Centre for Electronics and Telecommunication, Indonesian Institute of Sciences, Bandung, Indonesia
aaminuddin@students.itb.ac.id, bbrian@tf.itb.ac.id, cnugraha@tf.itb.ac.id, dpurwa@tf.itb.ac.id, ehisk001@lipi.go.id
Keywords: Structural and Morphological Analysis, Nanocomposite, SnO2-Graphene, Sol-Gel Method
Abstract.
Moreover, the Figure 1 also shows the results of XRD analysis of the powder SnO2 with the referring to the international standard database JCPDS Card No. 710 652.
Huang, Preparation and characterization of tin oxide, SnO2 nanoparticles decorated graphene, Elsevier, Ceramics International 38, 4209–4216. (2012) [6] C.
Shen, Room Temperature SnO2 Thin Film Gas Sensor Fabricated on Si Nanospikes, Journal of Nanoscience and Nanotechnology, Vol.9, 1–3(2009) [17] Brian Yuliarto, Lukman Nulhakim, Muhammad Fazri Ramadhani, Muhammad Iqbal, Nugraha, Suyatman, and Ahmad Nuruddin, Improved Performances of Ethanol SensorFabricated on Al-Doped ZnO Nanosheet Thin Films, IEEE SENSORS JOURNAL, VOL. 15, NO. 7(2015) [18] Ni Luh Wulan Septiania, and Brian Yuliarto, Review-The Development of Gas Sensor Based on Carbon Nanotubes, Journal of The Electrochemical Society, 163 (3) B97-B106 (2016) [19] Chang Sup Moon, Hae-Ryong Kim, Graeme Auchterlonie, Highly Sensitive and fast responding CO sensor using SnO2 nanosheets, Sensors and Actuators B 131, 556-564(2008) [20] Tan Rui-qin, Guo Yan-qun, Zhao Jun-hua, Li Yue, Xu Tie-feng, Song Wei-jie, Synthesis, Characterization and sensing properties of Pd-dopping SnO2 nano particles, Trans.
Liu, Polyol-mediated synthesis of ultrafine tin oxide nanoparticles for reversible Li-ion storage, Electrochemistry Communications 9, 915–919(2007) [24] Ghazaleh Allaedini1, Siti Masrinda Tasirin, Meor Zainal Meor Talib, Payam Aminayi, Ifa Puspasari, Comparative study on the microstructure and photoluminescence properties of SnO2 nano particles prepared by different methods, Applied Mechanics and Materials Vols 719-720, pp 132-136(2015) [25] Pi-Guey Su, Ching-Hsuan Wei a, Wei-Luen Shiu, Fabrication of SnO2-Reduced Graphene Oxide Nanocomposite Films for Sensing NO2 Gas at Room-Temperature, International Journal of Scientific Engineering and Technology, Volume No.4 Issue No.4, pp: 268-272 (2015) [26] Zhefei Li, Qi Liu, Yadong Liu, Le Xin, Fan Yang, Yun Zhou, Hangyu Zhang, Lia A.
Moreover, the Figure 1 also shows the results of XRD analysis of the powder SnO2 with the referring to the international standard database JCPDS Card No. 710 652.
Huang, Preparation and characterization of tin oxide, SnO2 nanoparticles decorated graphene, Elsevier, Ceramics International 38, 4209–4216. (2012) [6] C.
Shen, Room Temperature SnO2 Thin Film Gas Sensor Fabricated on Si Nanospikes, Journal of Nanoscience and Nanotechnology, Vol.9, 1–3(2009) [17] Brian Yuliarto, Lukman Nulhakim, Muhammad Fazri Ramadhani, Muhammad Iqbal, Nugraha, Suyatman, and Ahmad Nuruddin, Improved Performances of Ethanol SensorFabricated on Al-Doped ZnO Nanosheet Thin Films, IEEE SENSORS JOURNAL, VOL. 15, NO. 7(2015) [18] Ni Luh Wulan Septiania, and Brian Yuliarto, Review-The Development of Gas Sensor Based on Carbon Nanotubes, Journal of The Electrochemical Society, 163 (3) B97-B106 (2016) [19] Chang Sup Moon, Hae-Ryong Kim, Graeme Auchterlonie, Highly Sensitive and fast responding CO sensor using SnO2 nanosheets, Sensors and Actuators B 131, 556-564(2008) [20] Tan Rui-qin, Guo Yan-qun, Zhao Jun-hua, Li Yue, Xu Tie-feng, Song Wei-jie, Synthesis, Characterization and sensing properties of Pd-dopping SnO2 nano particles, Trans.
Liu, Polyol-mediated synthesis of ultrafine tin oxide nanoparticles for reversible Li-ion storage, Electrochemistry Communications 9, 915–919(2007) [24] Ghazaleh Allaedini1, Siti Masrinda Tasirin, Meor Zainal Meor Talib, Payam Aminayi, Ifa Puspasari, Comparative study on the microstructure and photoluminescence properties of SnO2 nano particles prepared by different methods, Applied Mechanics and Materials Vols 719-720, pp 132-136(2015) [25] Pi-Guey Su, Ching-Hsuan Wei a, Wei-Luen Shiu, Fabrication of SnO2-Reduced Graphene Oxide Nanocomposite Films for Sensing NO2 Gas at Room-Temperature, International Journal of Scientific Engineering and Technology, Volume No.4 Issue No.4, pp: 268-272 (2015) [26] Zhefei Li, Qi Liu, Yadong Liu, Le Xin, Fan Yang, Yun Zhou, Hangyu Zhang, Lia A.
Online since: February 2014
Authors: Zhao Peng, Yi Bing Li, Bai Gang Du
Modeling of Order Lifecycle Information in Discrete Manufacturing Enterprise
PENG Zhao1,a, DU Bai-gang1,b and LI Yi-bing1,c
1School of Mechanical and Electrical Engineering, Wuhan University of Technology, China
apz@whut.edu.cn, bdbg767@163.com, cahlyb@163.com
Keywords: discrete manufacturing; order lifecycle; order execution; key nodes; data chain
Abstract.
Discrete Manufacturing Enterprise Order Lifecycle Discrete manufacturing enterprise mainly produce heavy machinery, such as the rotary kiln, vertical mill, mill equipment used in cement, coal, ceramic production.
Modern Manufacturing Engineering, 2007, 7:17-20
Mechanic Automation and Control Engineering (MACE), 2010 International Conference on.
Journal of Wuhan University of Technology(Transportation Science &Engineering), 2005, 29(1):129-132.
Discrete Manufacturing Enterprise Order Lifecycle Discrete manufacturing enterprise mainly produce heavy machinery, such as the rotary kiln, vertical mill, mill equipment used in cement, coal, ceramic production.
Modern Manufacturing Engineering, 2007, 7:17-20
Mechanic Automation and Control Engineering (MACE), 2010 International Conference on.
Journal of Wuhan University of Technology(Transportation Science &Engineering), 2005, 29(1):129-132.
Online since: August 2014
Authors: Xi Xi He, Qing Wang
As a consequence, silica fume concretes are now applied worldwide in structure and bridge engineering.
International Journal of Innovative Technology and Exploring Engineering, ISSN:2278-3075, Vol.2, Issue.6, May 2013 ], Kurbus et al. (1985) [[] B.
Journal of ASTM International(CAA), Vol.5, Issue 1, ISSN:0149-6123, 1983 ], Monosi et al. 1996[[] Saveria Monosi, Roberto Troli, Luigi Coppola.
Journal of Materials in Civil Engineering, Vol.5, No.3, August, 1994 ]; Kwan, 2000[[] A.K.H.
Canadian Journal of Civil Engineering, Vol.27, pp.620-627, 2000 ], Sonebi et al., 2005[[] M.Sonebi, L.Svermova, P.J.M.
International Journal of Innovative Technology and Exploring Engineering, ISSN:2278-3075, Vol.2, Issue.6, May 2013 ], Kurbus et al. (1985) [[] B.
Journal of ASTM International(CAA), Vol.5, Issue 1, ISSN:0149-6123, 1983 ], Monosi et al. 1996[[] Saveria Monosi, Roberto Troli, Luigi Coppola.
Journal of Materials in Civil Engineering, Vol.5, No.3, August, 1994 ]; Kwan, 2000[[] A.K.H.
Canadian Journal of Civil Engineering, Vol.27, pp.620-627, 2000 ], Sonebi et al., 2005[[] M.Sonebi, L.Svermova, P.J.M.
Online since: August 2022
Authors: Xian Shuai Chen, Jin Yang Zhang, Xiao Zhang, Jian Yu Chen
The International journal of oral & maxillofacial implants. 30 (2015) 151-160
Medical Engineering & Physics. 29 (2007) 989-998
International Journal of Oral & Maxillofacial Implants. 33 (2018) 405-411
MATERIALS SCIENCE AND ENGINEERING: A. 725 (2018) 43–50
BIOCYBERNETICS AND BIOMEDICAL ENGINEERING. 39 (2019) 52-62
Medical Engineering & Physics. 29 (2007) 989-998
International Journal of Oral & Maxillofacial Implants. 33 (2018) 405-411
MATERIALS SCIENCE AND ENGINEERING: A. 725 (2018) 43–50
BIOCYBERNETICS AND BIOMEDICAL ENGINEERING. 39 (2019) 52-62
Online since: June 2015
Authors: Halimah Mohamed Kamari, Nur Ain Nabilah Razali, Iskandar Shahrim Mustafa, Abdul Razak Ibrahim, Mohd Mustaqim Rosli
Electronic Materials Letters Vol. 5, No. 4(2009),pp. 209-212.
[10] Nick Zemke, Emmet Woods,Rice Husk Ash.Callfornia Polytechnic State University,2009.
[11]Olawale,Olamide,Fetus Adekunle Oyawale, Characterization of Rice Husk via Atomic Absorption Spectrophotometer for Optimal Silica Production.International Journal of science and Technology,2012,ISSN 2224-3577.
[12] Omatola, K.M and Onojah, A.D,Elemental Analysis of Rice Husk Ash Using X-ray Fluorence Technique.
International Journal of Physical Sciences,2009 Vol. 4 (4),pp.189-193. [13] Saowaroj chuayjuljit, supparat Eiumnoh and Pranut Potiyaraj,Using silica from Rice Husk as a Reinforcing Filler in Natural Rubber.
International Seminar on Science and Technology of Glass Materials (ISSTGM-2009).IOP Conf.Series: Materials Science and Engineering 2 (2009) 012057. [15] Sidek H.A.A , Rosmawati S, Azmi B.Z, and Shaari A.H, 2013.
Glass Science and Technology Section, Glass Division, Central Glass and Ceramic Research Institute (CSIR, India), 1996. [18] Suparat Tuscharoen, Jakrapong Kaewkhao, Pichet Limsuwan and Weerapong Chewpraditkul, 2011.
Influence of Bi2O3 content on the crystallization behaviour of TeO2-Bi2O3-ZnO glass system, Journal of Non-Crystalline Solids 358 (2012) 952-958.
International Journal of Physical Sciences,2009 Vol. 4 (4),pp.189-193. [13] Saowaroj chuayjuljit, supparat Eiumnoh and Pranut Potiyaraj,Using silica from Rice Husk as a Reinforcing Filler in Natural Rubber.
International Seminar on Science and Technology of Glass Materials (ISSTGM-2009).IOP Conf.Series: Materials Science and Engineering 2 (2009) 012057. [15] Sidek H.A.A , Rosmawati S, Azmi B.Z, and Shaari A.H, 2013.
Glass Science and Technology Section, Glass Division, Central Glass and Ceramic Research Institute (CSIR, India), 1996. [18] Suparat Tuscharoen, Jakrapong Kaewkhao, Pichet Limsuwan and Weerapong Chewpraditkul, 2011.
Influence of Bi2O3 content on the crystallization behaviour of TeO2-Bi2O3-ZnO glass system, Journal of Non-Crystalline Solids 358 (2012) 952-958.
Online since: July 2005
Authors: Vincent Ji, Lian Zhou, Xiao Nan Mao, Y.G. Zhou, P.S. Zhang, L.L. Yu
Internal stress effects on mechanical properties of TiCp particle reinforced Titanium
Composites
X.N.Maob&c, V.Jia*, L.Zhoub&c, Y.G.Zhouc
a LM3 ESA CNRS 8006, ENSM, 151Bd.de l'hôpital F-75013Paris, France
b
Northwest Institute for Non-ferrous Meta Research,Xi'an710016,China
c Department of Materials Science and Engineering, Northwest Polytechnical Uneversity,Xi'an 710000,China
Abstract In this paper the internal stresses had been measured on Ti-6Al-4V/7TiC, Ti-3Al-2.5V/7TiC and
TP650 composite using the XRD method, the results show no other phases separate out besides the alpha(major
phase, for over 90 percent), bate and TiC in the course of heating treatment.
Physical and mechanical properties of TiC particle and Ti alloy matrix [6,10 ,11,12,13] Materials TiC particles T64 matrix T32 matrix T650 matrix Density (g/cm 3) 4.43 4.43 4.46 4.51° Young's modulus (GPa) 460 120 110 118° Shear modulus (GPa) 193 44.4 41.4 43° Poisson's ratio 0.19 0.36-0.34 0.33 ● 0.35° CTE (10-6 K -1) 7.4-8.8* 7.6-9.5 9.3 8.6° ½S2 {hkl} (10-6MPa -1) 2.77 11.3 12.1 11.4 S1{hkl} (10-6 MPa -1) -0.46 -3 -3 -2.97 ( • Technical information (2002) by HAYNES International, Inc * Technical information (1991-2001) by VISHAY International, Inc ° Internal data ) The mechanical testing using Blanks of size 13.5mm(diameter) ×70 mm(length) were cut from the as received T64, T32 and T650 composite forging using a diamond coated saw blade.
Table shows to exist a stress character change point, i.e. the metallic matrix phase and TiC particles ceramic phase were found to be under tension and compressive stresses over about 800 0 C, respectively, and on the contrast under 8000 C or so.
Conclusions The internal stresses had been measured on Ti-6Al-4V/7TiC, Ti-3Al-2V/7TiC and TP650 composite using the XRD method, results in there are a stress character change point, i.e. the metallic matrix phase and TiC particles ceramic phase were found to be under tension and compressive stresses over about 800 0C, respectively, and it is on the contrast under 800 0 C or so.
Huang and D.Yan, Journal of Materials Science Letters 1999 (18):213-216
Physical and mechanical properties of TiC particle and Ti alloy matrix [6,10 ,11,12,13] Materials TiC particles T64 matrix T32 matrix T650 matrix Density (g/cm 3) 4.43 4.43 4.46 4.51° Young's modulus (GPa) 460 120 110 118° Shear modulus (GPa) 193 44.4 41.4 43° Poisson's ratio 0.19 0.36-0.34 0.33 ● 0.35° CTE (10-6 K -1) 7.4-8.8* 7.6-9.5 9.3 8.6° ½S2 {hkl} (10-6MPa -1) 2.77 11.3 12.1 11.4 S1{hkl} (10-6 MPa -1) -0.46 -3 -3 -2.97 ( • Technical information (2002) by HAYNES International, Inc * Technical information (1991-2001) by VISHAY International, Inc ° Internal data ) The mechanical testing using Blanks of size 13.5mm(diameter) ×70 mm(length) were cut from the as received T64, T32 and T650 composite forging using a diamond coated saw blade.
Table shows to exist a stress character change point, i.e. the metallic matrix phase and TiC particles ceramic phase were found to be under tension and compressive stresses over about 800 0 C, respectively, and on the contrast under 8000 C or so.
Conclusions The internal stresses had been measured on Ti-6Al-4V/7TiC, Ti-3Al-2V/7TiC and TP650 composite using the XRD method, results in there are a stress character change point, i.e. the metallic matrix phase and TiC particles ceramic phase were found to be under tension and compressive stresses over about 800 0C, respectively, and it is on the contrast under 800 0 C or so.
Huang and D.Yan, Journal of Materials Science Letters 1999 (18):213-216
Online since: August 2009
Authors: Dong Bo Wei, Shi Chun Di, Xu Yang Chu, Hong Zhang
Zhang
4
1
School of Mechanical Engineering, Harbin Institute of Technology, Harbin, 150001, China
dishichun@126.com
2
School of Mechanical Engineering, Harbin Institute of Technology, Harbin, 150001, China
chuxuyang7@126.com
3
School of Mechanical Engineering, Harbin Institute of Technology, Harbin, 150001, China
weidb82@126.com
4
Department of Media and Art, Harbin Institute of Technology, Harbin, 150001, China
zhangh@hit.edu.cn
Keywords: Kerf, Micro-WEDM
Abstract.
Seminar on Precision Engineering and Micro Technology (Achen, Germany, 2000)
Journal of micromechanics and micro engineering Vol.15 (2005), p. 1547-1555
International Journal of Machine Tools & Manufacture Vol.45 (2005), p. 1717-1725
Journal of Materials Processing Technology Vol.9 (2008) p. 1256
Seminar on Precision Engineering and Micro Technology (Achen, Germany, 2000)
Journal of micromechanics and micro engineering Vol.15 (2005), p. 1547-1555
International Journal of Machine Tools & Manufacture Vol.45 (2005), p. 1717-1725
Journal of Materials Processing Technology Vol.9 (2008) p. 1256
Online since: March 2015
Authors: Zhi Chao Meng, Bin Sun, Fei Huan, Jin Feng Leng, Wen Shuang He
Influence of Substrate Temperature on the Al and Zr Co-doped ZnO Thin Films Prepared by RF Magnetron Sputtering
Fei Huan a, Jinfeng Lengb*, Zhichao Mengc, Bin Sund and Wenshuang Hee
School of Material Science and Engineering, University of Jinan.
In this paper, ZAZO transparent conductive thin films were prepared by magnetron sputtering with Al2O3 (1.5 wt %) and ZrO2 (2.5 wt %) co-doped ZnO ceramic target in Ar ambient.
Experimental A sintered ceramic sputter target with a mixture of ZnO (99.99% purity), Al2O3 (99.99% purity) and ZrO2 (99.99% purity) was employed as source material.
Li, ZnO thin films produced by magnetron sputtering, Ceramics International. 30(2004) 1155-1159
Guo, Comparison of Preparation and performance between Ti-doped ZnO Thin Films and Ti-Al Co-doped ZnO Thin Films, Journal of Synthetic Crystals. 39(2010) 1152-1155.
In this paper, ZAZO transparent conductive thin films were prepared by magnetron sputtering with Al2O3 (1.5 wt %) and ZrO2 (2.5 wt %) co-doped ZnO ceramic target in Ar ambient.
Experimental A sintered ceramic sputter target with a mixture of ZnO (99.99% purity), Al2O3 (99.99% purity) and ZrO2 (99.99% purity) was employed as source material.
Li, ZnO thin films produced by magnetron sputtering, Ceramics International. 30(2004) 1155-1159
Guo, Comparison of Preparation and performance between Ti-doped ZnO Thin Films and Ti-Al Co-doped ZnO Thin Films, Journal of Synthetic Crystals. 39(2010) 1152-1155.
Online since: June 2022
Authors: Christelle Habis, Michel Aillerie, Jean Zaraket
Bellet, Electron scattering mechanisms in fluorine-doped SnO2 thin films, Journal of Applied Physics, 114 (2013)
[9] T.
Ghanaatshoar, Preparation of highly conducting Al-doped ZnO target by vacuum heat-treatment for thin film solar cell applications, Ceramics International, 44 (2018) 12862–12868
Nyakotyo, Effect of gallium doping on the structural, optical and electrical properties of zinc oxide thin films prepared by spray pyrolysis, Ceramics International, 42 (2016) 10066–10070
Verma, Raman spectra, photoluminescence and ferromagnetism of pure, Co and Fe doped SnO2 nanoparticles, Ceramics International, 38 (2012) 5563–5570
Znaidi, Sol–gel-deposited ZnO thin films: A review, Materials Science & Engineering B, 1–3 (2010) 18–30
Ghanaatshoar, Preparation of highly conducting Al-doped ZnO target by vacuum heat-treatment for thin film solar cell applications, Ceramics International, 44 (2018) 12862–12868
Nyakotyo, Effect of gallium doping on the structural, optical and electrical properties of zinc oxide thin films prepared by spray pyrolysis, Ceramics International, 42 (2016) 10066–10070
Verma, Raman spectra, photoluminescence and ferromagnetism of pure, Co and Fe doped SnO2 nanoparticles, Ceramics International, 38 (2012) 5563–5570
Znaidi, Sol–gel-deposited ZnO thin films: A review, Materials Science & Engineering B, 1–3 (2010) 18–30
Online since: October 2011
Authors: Bahador Sabet Divsholi, Tze Yang Darren Lim, Susanto Teng
Ultra Durable Concrete for Sustainable Construction
SABET DIVSHOLI Bahador1, a, LIM Tze Yang Darren2,b and TENG Susanto3,c
1Research Fellow; 2Research Engineer; 3Associate Professor
50 Nanyang Avenue, N1-01c-83, School of Civil and Environmental Engineering, Nanyang Technological University, Singapore 639798
absabet@ntu.edu.sg, bdtylim@ntu.edu.sg, ccsteng@ntu.edu.sg
Keywords: Concrete, Durability, Slag, Silica fume, chloride penetration, SCM
Abstract With the rapid consumption of natural resources, there is a growing concern about sustainable development.
Introduction Sustainable development is a key area for the future of engineering.
In view of recent advancements in civil engineering materials, there is a good opportunity to improve the quality of concrete produced for various applications.
Bazant, Journal of Materials in Civil Engineering, Vol. 11, No. 1, February, (1999) [4] M.
Turriziani, American Ceramic Society, Vol. 55, No. 10, pp.534-535 (1972) [5] L.
Introduction Sustainable development is a key area for the future of engineering.
In view of recent advancements in civil engineering materials, there is a good opportunity to improve the quality of concrete produced for various applications.
Bazant, Journal of Materials in Civil Engineering, Vol. 11, No. 1, February, (1999) [4] M.
Turriziani, American Ceramic Society, Vol. 55, No. 10, pp.534-535 (1972) [5] L.