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Online since: May 2025
Authors: Samsul Rizal, Ikramullah Ikramullah, Iskandar Hasanuddin, Akram Tamlicha, Nazaruddin Nazaruddin, M.M. Noor
In IOP Conference Series: Materials Science and Engineering (Vol. 523, No. 1, p. 012080).
In IOP Conference Series: Materials Science and Engineering (Vol. 352, No. 1, p. 012020).
Journal of Sustainable Materials, 25(3), 175-192 [7] Tamlicha, A., Rizal, S., Hasanuddin, I., Pahlevi, A., Nazaruddin, Noor, M.
International Journal of Materials Research, 41(3), 789-803
Journal of Advanced Materials, 52(1), 45-60
In IOP Conference Series: Materials Science and Engineering (Vol. 352, No. 1, p. 012020).
Journal of Sustainable Materials, 25(3), 175-192 [7] Tamlicha, A., Rizal, S., Hasanuddin, I., Pahlevi, A., Nazaruddin, Noor, M.
International Journal of Materials Research, 41(3), 789-803
Journal of Advanced Materials, 52(1), 45-60
Online since: April 2014
Authors: Lu Zheng, Yu Zhong Guo, Liang Bin Liu, Jian Hua Wang
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: October 2010
Authors: Lin Chong Huang, Cui Ying Zhou, Wei Ke Li, Wei Yi Zhang
The purpose of this paper is to construct a constitutive model based on porous soil materials for engineering practice.
Acknowledgments This work has been supported by National Science Foundation of China, Grant No. 40672194, and China Postdoctoral Science Foundation, Grant No. 20090460827, these supports are gratefully acknowledged.
Huang: Journal of Central South University, Vol. 36(2) (2005), p. 323-328
Lade: International Journal of Soilds Structure, Vol. 13(1997), p. 1019-1035
Martin: Journal of Engineering Mechanics, Vol. 111(7) (1985), p. 855-881
Acknowledgments This work has been supported by National Science Foundation of China, Grant No. 40672194, and China Postdoctoral Science Foundation, Grant No. 20090460827, these supports are gratefully acknowledged.
Huang: Journal of Central South University, Vol. 36(2) (2005), p. 323-328
Lade: International Journal of Soilds Structure, Vol. 13(1997), p. 1019-1035
Martin: Journal of Engineering Mechanics, Vol. 111(7) (1985), p. 855-881
Online since: July 2011
Authors: Xi Lin Zhu, Shi Ju E, Li Hui Zhu, An Feng Hui, Jian Bo Cao
Introduction
Electric-Acrylic Elastomer material is a new smart materials on the acrylic elastomer material in the substrate the upper and lower surface and infiltrate electrode materials (such as carbon or graphite, etc.) formed a new type of based on Maxwell effect.Also known as the new artificial muscle material,and is a new electroactive polymers (EAPs).
The material has many excellent features like biological muscle, which can be replace conventional materials used to a large number of flexible robots, medical, bionic machinery and other fields[2].
Summary E-ACE material membrane drive is the object of study in this paper, E-ACE materials is analyszd theoretically and the model of it is established.
Materials Science and Engineering C 25(2004)342-349
Journal of Sound and Vibration.2004.1.118-120
The material has many excellent features like biological muscle, which can be replace conventional materials used to a large number of flexible robots, medical, bionic machinery and other fields[2].
Summary E-ACE material membrane drive is the object of study in this paper, E-ACE materials is analyszd theoretically and the model of it is established.
Materials Science and Engineering C 25(2004)342-349
Journal of Sound and Vibration.2004.1.118-120
Online since: June 2014
Authors: Yuan Xiong, Bo Lin Wu
Experimental procedures
Materials and methods.
The bulk density and wear resistance of the Y2O3-added materials are improved largely than that of Y2O3-free materials.
Hence, it is evident that adding Y2O3 to alumina ceramic is a useful method to enhance the sinterability of materials.
Wang: Materials Transactions.
Sil: Indian Journal of Engineering & Materials Sciences r.
The bulk density and wear resistance of the Y2O3-added materials are improved largely than that of Y2O3-free materials.
Hence, it is evident that adding Y2O3 to alumina ceramic is a useful method to enhance the sinterability of materials.
Wang: Materials Transactions.
Sil: Indian Journal of Engineering & Materials Sciences r.
Online since: April 2015
Authors: Sahrim Haji Ahmad, Jalilah Abd Jalil, Nor Azwin Ahad
International Journal of Polymeric Materials 56 (3) (2007) 327-338
Journal of Magnetism and Magnetic Materials 324 (5) (2012). 755-760
Materials Science and Engineering B 117 (2005). 27-36
Materials Science and Engineering B. 156 (2009).24-31
Journal of Materials Processing Technology 160 (2005) 229-233
Journal of Magnetism and Magnetic Materials 324 (5) (2012). 755-760
Materials Science and Engineering B 117 (2005). 27-36
Materials Science and Engineering B. 156 (2009).24-31
Journal of Materials Processing Technology 160 (2005) 229-233
Online since: July 2014
Authors: Lu Cheng Huang, Yan Lou, Shang Zhang
Their research fields include engineering, material science, dentistry, oral surgery, plastic surgery, etc.
The former focus on materials science, engineering, transplantation, pharmacology and pharmacy areas, and the latter specialize in fields of physics, materials science, optics, image science and photography, and polymer science.
Table 2 The detailed information of experts in the biomaterials field experts name nationality affiliation research direction Langer, Robert America Department of Chemistry, Massachusetts Institute of Technology Biotechnology and Applied Microbiology Nakamura, Tatsuo Japan Biomedical Engineering Technology Research Center, Kyoto University Engineering; Materials Science Schmalz, Gottfried Germany University of Regensburg Dentistry, Oral Surgery and Medicine Ishihara, Kazuhiko Japan Tokyo Institute of Medicinal Polymer Science; Materials Science Suzuki, Shigehiko Japan Biomedical Engineering Technology Research Center, Kyoto University Engineering; Materials Science Wataha, John C.
America Rice University Bioengineering Orthotics; Materials Science Ratner, Buddy D.
Journal of Beijing University of Aeronautics and Astronautics: social science edition. 3(2012), 95-97
The former focus on materials science, engineering, transplantation, pharmacology and pharmacy areas, and the latter specialize in fields of physics, materials science, optics, image science and photography, and polymer science.
Table 2 The detailed information of experts in the biomaterials field experts name nationality affiliation research direction Langer, Robert America Department of Chemistry, Massachusetts Institute of Technology Biotechnology and Applied Microbiology Nakamura, Tatsuo Japan Biomedical Engineering Technology Research Center, Kyoto University Engineering; Materials Science Schmalz, Gottfried Germany University of Regensburg Dentistry, Oral Surgery and Medicine Ishihara, Kazuhiko Japan Tokyo Institute of Medicinal Polymer Science; Materials Science Suzuki, Shigehiko Japan Biomedical Engineering Technology Research Center, Kyoto University Engineering; Materials Science Wataha, John C.
America Rice University Bioengineering Orthotics; Materials Science Ratner, Buddy D.
Journal of Beijing University of Aeronautics and Astronautics: social science edition. 3(2012), 95-97
Online since: October 2022
Authors: Tang Liszen, Anis Syamimi Johari, Khairul Anuar Shariff, Zuryati Ab. Ghani
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: August 2014
Authors: Dan Shi Zhu, Jie Yu Liang, Xue Hui Cao, Jian Rong Li, Jia Yu Lv, Yong Hong Ge, Xu Qiao Feng
Materials and methods
2.1 Material
Red Fragrant Pear (Korla fragrant pear×Pyrus bretschneideri ‘Eli’) was harvested from a commercial vineyard located at suburb of Jinzhou city, China.
The content of O2 in LDPE, HDPE, PP6, PO bags were higher at the end of storage than the other materials.
Taken together, this study indicated that OPP, LDPE, CPP were more suitable for Red fragrant pear storage as MAP materials.
Yang, et al., Study on changes of the peel pigments and effect of bagging on pigment accumulation in pear cultivar 'Hongxiangsu': Journal of Fruit Science. vol. 29 (2012),p.333-337
Singh, et al., Extension of shelf life of pear fruits using different packaging materials: J Food Sci Technol. vol. 49 (2012),p.556-563
The content of O2 in LDPE, HDPE, PP6, PO bags were higher at the end of storage than the other materials.
Taken together, this study indicated that OPP, LDPE, CPP were more suitable for Red fragrant pear storage as MAP materials.
Yang, et al., Study on changes of the peel pigments and effect of bagging on pigment accumulation in pear cultivar 'Hongxiangsu': Journal of Fruit Science. vol. 29 (2012),p.333-337
Singh, et al., Extension of shelf life of pear fruits using different packaging materials: J Food Sci Technol. vol. 49 (2012),p.556-563
Online since: October 2010
Authors: Jun Ting Cheng, Shao Sheng Wang, Wan Tao He, Rong Bin Liu
Optimal Design of Flexible Manufacturing System based on Optical Measurement Principle
Wang Shaosheng a, He Wantaob, Liu Rongbinc and Cheng Juntingd
Modern Manufacture Engineering Center of Heilongjiang Institute of Science & Technology, Harbin, Heilongjiang Province, China
awss_ren@sohu.com, bhewantao1225@163.com, crbliu@163.com, dchengjunting@163.com
Keywords: FMS, material recognition, grating, three-dimensional measuring.
In order to improve the flexible manufacturing system of best stripe parameters, improving materials detection device performance
Acknowledgement This research was supported by Research Start-up Foundation of Heilongjiang Institute of Science & Technology (Grant No. 07-32、05-26).
Platts: International Journal of Operations and Production Management Vol.15 (1995) No.4, p. 80-116
Neely: International Journal of Operations and Production Management Vol. 22(2002).
In order to improve the flexible manufacturing system of best stripe parameters, improving materials detection device performance
Acknowledgement This research was supported by Research Start-up Foundation of Heilongjiang Institute of Science & Technology (Grant No. 07-32、05-26).
Platts: International Journal of Operations and Production Management Vol.15 (1995) No.4, p. 80-116
Neely: International Journal of Operations and Production Management Vol. 22(2002).