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College of Mechanical Science and Engineering, Jilin University, Changchun 130022, China 2.
Transaction of the ASME, Journal of Fluids Engineering,1981, 103:564-576
Journal of Chongqing University(Natural Science Edition) , 2012, 35(007): 32-36
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Magnetic materials and devices, 2011 (1): 59-61
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Experimental Raw materials used in the reaction: 1,2,3,5-tri-O-acetyl-β-D-Ribofuranoside is from Da Rui Fine Chemical Co., Ltd of Shanghai; p-nitrophenol is from Xing Jin Chemical Co., Ltd of Beijing.
Acknowledgments We thank NSFC (No. 20962009, 21462019), NCET (11-1000) Education Department of Jiangxi Province (GJJ14578), Bureau of Science & Technology of Jiangxi Province, the Training Program of Jiangxi Youth Scientists, and Bureau of Science & Technology of Nanchang City for financial support.
Journal of Molecular Catalysis B: Enzymatic. 74 (2012) 36-40
Journal of Microbiological Methods. 79 (2009) 139-155
Journal of Histochemistry & Cytochemistry. 58(6) (2010) 481-497.

Materials and Methods Collection of species occurrence data of T. cinnabarinus.
Fig. 3 Jackknife test for environmental variable significance performed by Maxent Acknowledgements This work was supported by Special Fund for Modern Agricultural Technology System Fund (CARS-12-hncq); Science and Technology Program Project of Hainan Province (ZDXM20100022 and ZDXM20110032); Research Foundation for Introduced Talents of Chinese Academy of Tropical Agriculture Sciences (Hzs0810); Special Fund for Agro-scientific Research in the Public Interest (200903034).
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Kurnakov Institute of General and Inorganic Chemistry, Russian Academy of Science, Russian Federation, Moscow 119991, Leninskij av. 31, Tel/Fax +7 (095) 954-41-26, 2 Institute for High Energy Densities, "IVTAN" Association, Russian Academy of Science, Russian Federation, Moscow 125412, Izhorskaya st. 13/19 a v_sevastyanov@mail.ru , brpavelko@yandex.ru, cezhovyus@mail.ru Keywords: Transport, thermodynamic scanning, SiC+SiO2, chemical vapour transport, SiC nanocrystal growth.
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Materials and methods of research We used TiNi and NiAl as materials with SME for surface compositions, and we used steel 1045, 5135, 30HGSA, 34NiCrMoV14-5, AISI 321 as base material.
Stepanenko, Superficial Modifying by SME materials In Engineering Appendices.
Materials Science Forum. 738-739 (2013) 595-600
Materials diagnostics. 3 (2015) 41-49
Materials diagnostics. 11 (2013) 49-56

As depicted in Fig 1, the discrete model for improved ISEM is made up of nodes, elements, interfaces, specific loads and materials.
Acknowledgements This work was financially supported by the Fundamental Research Funds for the Central Institutes of China (No.2008B002), the National Science Foundation of China (No.50708099) and the Heilongjiang Natural Science Foundation (No.E200842, No.E201245).
Zhang, Interface Stress Element Method for Discontinuous Medium Problems, Science Press, Beijing, 2000.
Kawai, Some Considerations on the Finite Element Method, International Journal for Numerical Methods In Engineering, 16 (1980) 81-120
Lan, A Constraint Model for Interface Stress Element Method without Virtual Elements, Advanced Materials Research, 671-674 (2013) 1574-1577

Mechanics parameters of the slope materials Parameters E(GPa) v C(MPa) φ(o) Unfrozen 3.27 0.33 0.30 37 Frozen 4.27 0.30 1.21 32 Table 2.
Heat parameters of the slope materials Parameters Cu Cf λu λf J/kg oC J/kg oC W/m oC W/m oC Values 964.5 808.5 1.4338 1.8247 Analysis and discussion of results The temperature distribution on the right boundary of the slope shows that the frozen only appears on the surface of rock and soil.
Journal of Institute of Disaster-Prevention Science and Technology, 2008, 10(2): 20-24
Journal of Mountain Science, 2008, 26(2): 253-254
Journal of Tongji University, 2005, 33(10): 1-6

Lukaszkowicz, Structural investigation and wear resistance of CrAlSiN+DLC coating obtained by hybrid PVD/PACVD process, Advances in Materials Science and Engineering 62 (2013) 87-92
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Hajduczek, Structure of the nanocrystalline coatings obtained on the CAE process on the sintered tool materials, Journal of Materials Processing Technology 175 (2006) 157–162