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Online since: December 2023
Authors: João Gago dos Santos, Juliane Freire, Paulo Pereira Almeida, Sanad Nahar
From energy-efficient building materials to smart management systems.
Construction and Building Materials, 60, 63-72
Mediterranean Journal of Social Sciences, 11(4), pp.122-122
Construction and Building Materials, 131, 411–422. https://doi.org/10.1016/j.conbuildmat.2016.11.062
International journal of real estate studies, 14(Special Issue 2)
Construction and Building Materials, 60, 63-72
Mediterranean Journal of Social Sciences, 11(4), pp.122-122
Construction and Building Materials, 131, 411–422. https://doi.org/10.1016/j.conbuildmat.2016.11.062
International journal of real estate studies, 14(Special Issue 2)
Online since: October 2022
Authors: Khairul Anuar Shariff, Zuryati Ab. Ghani, Tang Liszen, Anis Syamimi Johari
Materials and Methods
Materials.
Li, Effects of sintering temperature and particle size on translucency of zirconium dioxide dental ceramic, Journal of Materials Science: Materials in Medicine, 22(11), (2011) 2429-2435
Materials, 10(4), (2017) 402
Soboyejo, Mechanical properties, modelling and design of porous clay ceramics, Materials Science and Engineering A, 558, (2012) 21–29
Du, Modification effect of nanometre zirconia on Ca-PSZ Ceramics, Materials Science Forum, 953 (2019) 59-64.
Li, Effects of sintering temperature and particle size on translucency of zirconium dioxide dental ceramic, Journal of Materials Science: Materials in Medicine, 22(11), (2011) 2429-2435
Materials, 10(4), (2017) 402
Soboyejo, Mechanical properties, modelling and design of porous clay ceramics, Materials Science and Engineering A, 558, (2012) 21–29
Du, Modification effect of nanometre zirconia on Ca-PSZ Ceramics, Materials Science Forum, 953 (2019) 59-64.
Online since: March 2017
Authors: Razali Mohd Hasmizam, Khairul Anuar, Nur Arifah Ismail, Mat Amin
Characterization of Nanostructured Titania and Titanate Materials Synthesized by Simple Hydrothermal Method
Nur Arifah Ismaila, Mohd Hasmizam Razalib, Khairul Anuar and Mat Aminc
School of Fundamental Sciences, Universiti Malaysia Terengganu,
21030 Kuala Terengganu, Terengganu Darul Iman, Malaysia.
Materials Science in Semiconductor Processing Vol. 42 (2016), p. 131
Materials Research Bulletin, Vol. 74 (2016), p. 478
Solar Energy Materials and Solar Cells, Vol. 151, (2016), p. 169
Materials Chemistry and Physics Vol. 78 (2003), p. 239
Materials Science in Semiconductor Processing Vol. 42 (2016), p. 131
Materials Research Bulletin, Vol. 74 (2016), p. 478
Solar Energy Materials and Solar Cells, Vol. 151, (2016), p. 169
Materials Chemistry and Physics Vol. 78 (2003), p. 239
Online since: January 2021
Authors: Ahmed TAFRAOUI, Noureddine Kacimi
Composite materials have important advantages over traditional materials.
Materials and Methods Materials.
Gibson, Modal vibration response measurements for characterization of composite materials and structures, Composites science and technology, Réf 60(15) 2769-2780, 2000
[15] Chung-Shin Chang, Turning of glass-fiber reinforced plastics materials with chamfered main cutting edge carbide tools, journal of materials processing technology, vol.180, p.117-129, 2006
Sztajnowski, Multifunctional Polymer Composites Produced by Melt-Blown Technique to Use in Filtering Respiratory Protective Devices, Materials Journal, 2020, 13, 712; doi:10.3390/ma13030712
Materials and Methods Materials.
Gibson, Modal vibration response measurements for characterization of composite materials and structures, Composites science and technology, Réf 60(15) 2769-2780, 2000
[15] Chung-Shin Chang, Turning of glass-fiber reinforced plastics materials with chamfered main cutting edge carbide tools, journal of materials processing technology, vol.180, p.117-129, 2006
Sztajnowski, Multifunctional Polymer Composites Produced by Melt-Blown Technique to Use in Filtering Respiratory Protective Devices, Materials Journal, 2020, 13, 712; doi:10.3390/ma13030712
Online since: August 2009
Authors: Qiao Ling Li, Yong Fei Wang, Cun Rui Zhang
Being a strategic industrial material and one of the most used
metal oxides, with various applications in many scientific and industrial fields, hematite has been
extensively investigated because of its wide applications in catalysis, gas-sensors, magnetic
recording materials, pigments and paints [2-5].
A B C D Hc(Oe) Figure 3 Magnetic hysteresis loops of variously prepared α-Fe2O3 samples In the tests, FeSO4 and NaOH were used as raw materials to obtain the nanorod α-Fe2O3.
Conclusion In these tests, FeSO4 and NaOH were used as raw materials.
References [1] L.Huo, W.Li, L.Lu: Chemistry of Materials, 2000, 12, 790 [2] R.Zboril, M.Mashlan, D.Petridis: Chemistry of Materials, 2002, 14, 969 [3] N.Mimura, I.Takahara, M.Saito: Catalysis Today, 1998, 45, 61 [4] J.S.Han, D.E.Davey, D.E.Mulcahy, A.B.Yu: Sensors and Actuators, 1999, 61, 83 [5] A.Watanabe, H.Kozuka: Journal of Physical Chemistry B, 2003, 107, 12713 [6] F.Favier, E.C.Walter, M.P.Zah, T.Benter, R.M.Penner: Science, 2001, 293, 2227 [7] J.Hu, T.W.Odom, C.M.Lieber: Accounts of Chemical Research, 1999, 32, 435 [8] Y.Xia, P.Yang, Y.Sun, Y.Wu, B.Mayers, B.Gates, Y.Yin, F.Kim, Y.Yan: Advanced Materials, 2003, 15, 353 [9] Z.L.Wang, J.H.Song: Science, 2006, 312, 242 [10] D.Wang, S.Jin, Y.Wu, C.M.Lieber: Nano Letters, 2003, 3, 1255 [11] Y.J.Zhu, W.W.Wang, R.J.Qi, X.L.Hu: Angewandte Chemie International Edition, 2004, 43, 1410 [12] W.Y.Yu, W.X.Tu, H.F.Liu: Langmuir, 1999, 15, 6 [13] X.Wang, X.Chen, X.Ma, H.Zheng, M.Ji, Z.Zhang: Chemical Physics Letters
, 2004, 384, 391 [14] Y.Y.Fu, R.M.Wang, J.Xu, J.Chen, Y.Yan, A.V.Narlikar, H.Zhang: Chemical Physics Letters, 2003, 379, 373 [15] X.Wang, X.Y.Chen, L.S.Gao, H.G.Zheng, M.R.Ji, C.M.Tang, T.Shen, Z.D.Zhang: Journal of Materials Chemistry, 2004, 14, 905 [16] S.Musić, S.Krehula, S.Popovic, Z.Skoko: Materials Letters, 2003, 57, 1096 [17] X.Wang, L.S.Gao, H.G.Zheng, M.R.Ji, C.M.Tang, T.Shen, Z.D.Zhang: Journal of Crystal Growth, 2004, 269, 489 [18] C.Z.Wu, P.Yin, X.Zhu, C.Z.Yang, Y.Xie: Journal of Physical Chemistry B, 2006, 110, 17806 [19] C.C.Li, J.S.Cheng: Journal of East China University of Science and Technology, 1996, 22, 18 [20] Z.L.Wang, Y.P.Zhou: Physical Chemistry, China Higher Education Press, 2001, pp300-339 [21] A.X.Che, C.Z.Li: Chemistry World, 1997, 4, 404 [22] A.X.Che, C.Z.Li: Chinese Journal of Chemical Physics, 1999, 2, 211
A B C D Hc(Oe) Figure 3 Magnetic hysteresis loops of variously prepared α-Fe2O3 samples In the tests, FeSO4 and NaOH were used as raw materials to obtain the nanorod α-Fe2O3.
Conclusion In these tests, FeSO4 and NaOH were used as raw materials.
References [1] L.Huo, W.Li, L.Lu: Chemistry of Materials, 2000, 12, 790 [2] R.Zboril, M.Mashlan, D.Petridis: Chemistry of Materials, 2002, 14, 969 [3] N.Mimura, I.Takahara, M.Saito: Catalysis Today, 1998, 45, 61 [4] J.S.Han, D.E.Davey, D.E.Mulcahy, A.B.Yu: Sensors and Actuators, 1999, 61, 83 [5] A.Watanabe, H.Kozuka: Journal of Physical Chemistry B, 2003, 107, 12713 [6] F.Favier, E.C.Walter, M.P.Zah, T.Benter, R.M.Penner: Science, 2001, 293, 2227 [7] J.Hu, T.W.Odom, C.M.Lieber: Accounts of Chemical Research, 1999, 32, 435 [8] Y.Xia, P.Yang, Y.Sun, Y.Wu, B.Mayers, B.Gates, Y.Yin, F.Kim, Y.Yan: Advanced Materials, 2003, 15, 353 [9] Z.L.Wang, J.H.Song: Science, 2006, 312, 242 [10] D.Wang, S.Jin, Y.Wu, C.M.Lieber: Nano Letters, 2003, 3, 1255 [11] Y.J.Zhu, W.W.Wang, R.J.Qi, X.L.Hu: Angewandte Chemie International Edition, 2004, 43, 1410 [12] W.Y.Yu, W.X.Tu, H.F.Liu: Langmuir, 1999, 15, 6 [13] X.Wang, X.Chen, X.Ma, H.Zheng, M.Ji, Z.Zhang: Chemical Physics Letters
, 2004, 384, 391 [14] Y.Y.Fu, R.M.Wang, J.Xu, J.Chen, Y.Yan, A.V.Narlikar, H.Zhang: Chemical Physics Letters, 2003, 379, 373 [15] X.Wang, X.Y.Chen, L.S.Gao, H.G.Zheng, M.R.Ji, C.M.Tang, T.Shen, Z.D.Zhang: Journal of Materials Chemistry, 2004, 14, 905 [16] S.Musić, S.Krehula, S.Popovic, Z.Skoko: Materials Letters, 2003, 57, 1096 [17] X.Wang, L.S.Gao, H.G.Zheng, M.R.Ji, C.M.Tang, T.Shen, Z.D.Zhang: Journal of Crystal Growth, 2004, 269, 489 [18] C.Z.Wu, P.Yin, X.Zhu, C.Z.Yang, Y.Xie: Journal of Physical Chemistry B, 2006, 110, 17806 [19] C.C.Li, J.S.Cheng: Journal of East China University of Science and Technology, 1996, 22, 18 [20] Z.L.Wang, Y.P.Zhou: Physical Chemistry, China Higher Education Press, 2001, pp300-339 [21] A.X.Che, C.Z.Li: Chemistry World, 1997, 4, 404 [22] A.X.Che, C.Z.Li: Chinese Journal of Chemical Physics, 1999, 2, 211
Online since: May 2011
Authors: Kun Zhang, Yu Su Song, Pan Zuo
Choice of Electrode Material for Detecting Low Frequency
Electric Field in Sea Water
Yusu Song1, a, Kun Zhang1,b and Pan Zuo1
1School of Sciences, Naval University of Engineering, Wuhan, Hubei,430033, China
acaosys@126.com, bkyzkem@sina.com
Keywords: sea water, low frequency electric field, electrode, material.
The relationship between the electrochemistry performance and electric field detection is researched to provide the principle of electrode material selection.
Electrode Materials and Experiment Methods Electrode Materials.
White: Journal of Colloid and Interface Science Vol. 297(2006), p. 819-831(in Chinese) [5] T.
Hu: Corrosion Electrochemistry(Metallurgical Industry Press, Beijing 1991) (in Chinese) [7] Bhattacharya, Arup, Basumallick and Indra Narayan: Journal of Power Sources Vol. 113(2003), p. 382-387 [8] J.
The relationship between the electrochemistry performance and electric field detection is researched to provide the principle of electrode material selection.
Electrode Materials and Experiment Methods Electrode Materials.
White: Journal of Colloid and Interface Science Vol. 297(2006), p. 819-831(in Chinese) [5] T.
Hu: Corrosion Electrochemistry(Metallurgical Industry Press, Beijing 1991) (in Chinese) [7] Bhattacharya, Arup, Basumallick and Indra Narayan: Journal of Power Sources Vol. 113(2003), p. 382-387 [8] J.
Online since: April 2014
Authors: Yu Zhong Guo, Liang Bin Liu, Jian Hua Wang, Lu Zheng
Influence of aging process on the crystalline structure and electrochemical properties of LiNi0.8Co0.1Mn0.102 cathode material
Liang-bin Liu1,a, Lu Zheng1, Jian-hua Wang1, Yu-zhong Guo1,b
1Faculty of materials science and engineering, Kunming university of science and technology, Kunming 650093, China
a1035177835@qq.com , byzguocn62@sina.com(corresponding author)
Keywords: Cathode materials;LiNi0.8Co0.1Mn0.102;Co-precipitation processing;Aging time;Cation mixing
Abstract.
Kim et al[3] studied nickel-rich ternary materials LiNi0.8Co0.1Mn0.1O2 in depth, and further studied the coating modification of this materials[4].However, its structural stability on charge and discharge keeps a problem, a high cyclic performance of materials retains far reach.
[2] Liu Z L, Yu A S, Lee J Y, Synthesis and Characterization of LiNi1−x−yCoxMnyO2 as the Cathode Materials of Secondary Lithium Batteries , J.
[6] CHEN Wei,LI Xin-hai,WANG Zhi-xing,et al,Influence of feeding rate on performance of LiNi0.8Co0.1Mn0.1O2 cathode materials prepared by co-precipitation,The Chinese Journal of Nonferrous Metals,2012,22(7):1956-1962
[12] YING Jie-Rong, GAO Jian, JIANG Chang-Yin, et al, Research and Development of Preparing Spherical Cathode Materials for Lithium Ion Batteries by Controlled Crystallization Method, Journal of Inorganic Materials,2006,21(2):291-297
Kim et al[3] studied nickel-rich ternary materials LiNi0.8Co0.1Mn0.1O2 in depth, and further studied the coating modification of this materials[4].However, its structural stability on charge and discharge keeps a problem, a high cyclic performance of materials retains far reach.
[2] Liu Z L, Yu A S, Lee J Y, Synthesis and Characterization of LiNi1−x−yCoxMnyO2 as the Cathode Materials of Secondary Lithium Batteries , J.
[6] CHEN Wei,LI Xin-hai,WANG Zhi-xing,et al,Influence of feeding rate on performance of LiNi0.8Co0.1Mn0.1O2 cathode materials prepared by co-precipitation,The Chinese Journal of Nonferrous Metals,2012,22(7):1956-1962
[12] YING Jie-Rong, GAO Jian, JIANG Chang-Yin, et al, Research and Development of Preparing Spherical Cathode Materials for Lithium Ion Batteries by Controlled Crystallization Method, Journal of Inorganic Materials,2006,21(2):291-297
Online since: January 2014
Authors: An Guo Huang, Shu Hui Hu, Ge Yang, Yuan Liu
Journal of Materials Science: Materials in Medicin. 13 (2002) 601-605
,Journal of Materials Science: Materials in Medicine. 10(1990) 269-273
Journal of Materials Science: Materials in Medicine. 10(10-11) (1999) 671-676
Materials Research Bulletin.45 (2010) 1304-1310
,Journal of Biomedical Materials Research.87 (2008) 429-433
,Journal of Materials Science: Materials in Medicine. 10(1990) 269-273
Journal of Materials Science: Materials in Medicine. 10(10-11) (1999) 671-676
Materials Research Bulletin.45 (2010) 1304-1310
,Journal of Biomedical Materials Research.87 (2008) 429-433
Online since: August 2012
Authors: Jian Xin Zhang, Guo Hua Zhang, Bing Chao Li, Wei Cai, Zuo Shan Wei, Zeng Jian Feng
Effect of intermetallics on the low cyclic fatigue crack growth behavior of a heavily alloyed Al-Si piston alloy
Guo-hua ZHANG1,3, Bing-chao LI2, Jian-xin ZHANG2, Zeng-jian FENG3, Zuo-shan WEI3, Wei CAI1*
1School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, China
2 School of Materials Science and Engineering, Shandong University, Jinan 250061, China
3 Shandong Binzhou Bohai Piston Co., Ltd, Binzhou 256602, China
Guo-hua ZHANG1,3: zhangmater@yahoo.com; Jian-xin ZHANG2: jianxin@sdu.edu.cn;
Wei CAI1: alsialloy@yahoo.com; *corresponding author
Keywords: aluminum alloys; low cyclic fatigue; crack growth; fracture; intermetallics
Abstract
This paper focuses on a typical automotive piston material to characterize its fractographic appearance after low cyclic fatigue test.
Materials Science and Engineering A, 2000, 280: 8-16
Arzt, High temperature, low cycle fatigue behaviour of an aluminium alloy (Al–12Si–CuMgNi), Materials Science and Engineering A276 (2000) 283–287 [6] Ma Z.
Materials and Design, 2002, 23: 141-151
International Journal of Fatigue, 2005, 27: 1564-1570
Materials Science and Engineering A, 2000, 280: 8-16
Arzt, High temperature, low cycle fatigue behaviour of an aluminium alloy (Al–12Si–CuMgNi), Materials Science and Engineering A276 (2000) 283–287 [6] Ma Z.
Materials and Design, 2002, 23: 141-151
International Journal of Fatigue, 2005, 27: 1564-1570
Online since: November 2011
Authors: Xiang Dong Liu, Feng Wang, Hui Min Liu, Ping Xu
In preparing the composite materials, the technology of powder metallurgy is used.
It is caused by the non-torn materials which have undergone the plastic deformation.
As the materials are pushed on both sides and the front, the furrow is formed.
Özdin, “Wear resistance of aluminum alloy and its composites reinforced by Al2O3 particles,”Journal of Materials Processing Technology. vol. 183, pp. 301–309, 2007
Cai, “Tribological Properties and Wear Mechanisms of Particulate Reinforced Metal Matrix Composites,”Journal of Malerlals Science&Engineering.
It is caused by the non-torn materials which have undergone the plastic deformation.
As the materials are pushed on both sides and the front, the furrow is formed.
Özdin, “Wear resistance of aluminum alloy and its composites reinforced by Al2O3 particles,”Journal of Materials Processing Technology. vol. 183, pp. 301–309, 2007
Cai, “Tribological Properties and Wear Mechanisms of Particulate Reinforced Metal Matrix Composites,”Journal of Malerlals Science&Engineering.