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(ed.)(1991), Materials Science and Engineering, ASM
Badawi, Journal of Materials Science and Engineering, 5(4) (2011) 400
Badawi, Journal of Materials Science and Engineering A, 1(3) (2011) 415
Lotfy, Journal of Materials Science and Engineering A, 1(5) (2011) 711
Peterson, Journal of Nuclear Materials, 69-70 (1978) 3

Study on Magnetic Materials with Numerical Calculation of Geoelectromagnetic Field in Middle-Low Latitude Region 1,2Wu Wei-Li 1.
We can make some comments from the study about it that auroral electrojet center moves to low-latitude area during violent geomagnetic disturbance of magnetic materials[8].
Conclusions Paper presents the mechanism that electric and magnetic fields at the earth as a magnetic materials surface generate and vary under the effect of the space weather storm.
Numerical simulation of ionosphere effect during geomagnetic storms above the low latitude(in Chinese), Chinese Journal of radio science, Vol25.No.5 (2010):823-827 [11] Simon G.Shepherd, Fridon Shubitidze.
Journal of Atmospheric and Solar-Terrestrial Physics ,62(2000), 1311.

There may be two reasons. (1) Arrangement is random due to the accumulation of granular particles of bulky rock material and contact between the particles cannot be determined. (2) Bulk materials is a kind of non-tacky geotechnical materials with larger particle size.
Chinese Journal of Geotechnical Engineering, 1992, 14(1),p.14-24(In Chinese)
Soil and Environmental Sciences, 2000, 9(4),p.263-265(In Chinese)
Applied Mechanics and Materials Vols. 170-173,2012,p.295-300
Journal of Xiangtan Mine Institute, 2003, 18(3) ,p.56-59(In Chinese).

LiFePO4 as cathode materials for lithium-ion battery were prepared by a liquid-phase method which utilizes FeSO4•7H2O, NH4H2PO4, H2O2, CH3COOLi and glucose as raw materials.
All the materials show the characteristic peaks of crystalline LiFePO4.
Phospho-olivines as positive-electrode materials for rechargeable lithium batteries .
Synthesis and electrochemical performance of Li2FeSiO4/C/carbon nanosphere composite cathode materials for lithium ion batteries .Journal of Alloys and Compounds 572 (2013) 158-162
Journal of Advanced Materials Industry 10 (2010) 6-10 [In Chinese]

The test results that winding materials affect the compressive strength and bending strength of GFRP bars to a certain extent.
Through the test of compression and bending property of GFRP bars with different winding materials, the influence and mechanism from different winding materials are discussed.
The Preparation of GFRP Bars Several GFRP bars with different winding materials were manufactured in Henan Key Laboratory of Hydraulic Material and Structure.
Summary Different winding materials have effects on the compression and bending properties of GFRP Bars.
Wang, Study of GFRP Bar's Mechanical Properties in Compression, Journal of Shenyang Jianzhu University, Vol. 27 6 (2011) 1037-1042

This periodical edition includes peer-reviewed papers based on results of scientific research and engineering solutions in different areas of modern engineering science.
Keywords:
Materials Science, Materials, Mechanics, Civil Engineering, Electrical Engineering, Cumputer Science, Environmental Engineering

Introduction Carbon-carbon composite materials (CCCM) have attracted the attention of scientists from various fields, from chemistry, materials science and engineering to condensed matter physics, both in science and industry.
Shchurik, Artificial carbon materials.
Composite materials: Handbook.
Carbon: Fundamental Problems of Science, Materials Science, Technology. 2020: Proceedings of 12th International Conference, Moscow (Troitsk).
Kartel, Carbon-Carbon Composition “Expanded Graphite – Multiwalled Carbon Nanotubes” International Journal of Materials Science and Applications. 8 (2019) 127-134. doi: 10.11648/j.ijmsa.20190806.16

Disaster science.
Journal of Mountain Science.
Journal of Mountain Science.
Disaster Science.
Earth Science Frontiers.

Study on the Abrasive Effecting Factors of the Removal Rate during Dual-Lapping Sapphire Wafer ZHANG Kehua1, 2, a , WEN Donghui 1, b , and YUAN Julong 1, c 1 The MOE Key Laboratory of Mechanical Manufacture and Automation, Zhejiang University of Technology, Hangzhou, 310032, China 2 Institute of Machinery Equipment and Measurement & Control Technology, Zhejiang Normal University, JinHua, 321004, China a mature@126.com, bwdh_74@163.com, cjlyuan@zjut.edu.cn Keywords: Sapphire Wafer, Dual-Lapping, Materials Removal Ratio, Surface uniformity Abstract: Dual-lapping was a process to planarize the surface of the sapphire wafer, the nature of surface&subsurface damage and the surface uniformity was depended on the material removal mode and materials removal ratio.
Material removal mode was studied in this paper, and the model of material removal was set up too.
This research provided valuable insights into the material removal ratio and the dependence of lapping-induced damage on dual-lapping conditions, the asymmetry of abrasive granularity brought on the different materials removal mode and the surface asymmetry.
CHINA ILLUMINATING ENGINEERING JOURNAL, 14(4):23-31 (2003) [4] HAN Peide,DUAN Xiaofeng,SUN Jialong, ZHANG Z,WANG Zhanguo.: Difference Between Ga� Films Grown on Two Opposite Oriented c-Al2O3 Wafers[J],CHINESE JOURNAL OF SEMICONDUCTORS,22(8):1030-1034(2001) [5] Y.S.
Trans. of the ASME, Journal of Manufacturing Science and Engineering, 122(2):413-419 (2000)

Solid Chemical Synthesis in Millimeter-wave Field of Spinel Li-MnO as Cathode Materials for Li-ion Batteries H.
OuYang 1 1 State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, Wuhan, 430070, China 2 Department of Chemistry, Tsinghua University, Bejing, 100084, China, email: zhaoshixi @tsinghua.org.cn 3 The Institute of Electronics, Chinese Academy of Sciences, Beijing, 100080, China Keywords: Solid chemical reaction, millimeter wave, cathode materials, Li-ion batteries Abstract.
Wakihara: Materials Science and Engineering, R33 (2001), p. 109
Miyake: Journal of Materials Science Letters, Vol. 19 (2000), p. 2247
Miyake: Journal of Materials Science, Vol. 36 (2001), p. 693.