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Application of Information Technology in Interpretation with Note Methods for Exploration-Internalization Xianzhi Tian Wuchang University of Technology,Wuhan,China,430223 Julia030712@163.com Key words information technology;note methods; exploration-internalization mode; electronic materials; interpretation training Abstract With the development of information technology,its application has been found in many different fields.
“Note Method” in Interpretation based on printing materials “Note method” belongs to human element in improving interpretation.
The course is closely connected with printing materials based on personal efforts.
But the whole course is also connected with information technology from listening materials from MP3 and other video equipments.
Chinese Journal of electrization education. 2006 [3] Xianzhi Tian,Advanced Research on Industry, Information System and Material Engineering IV,Advanced Material Research,Volume 1014 ,2014 [4] Kikuchi, K., Sakai, H.

Balela: IOP Conference Series: Materials Science and Engineering Vol. 201 (2017), pp. 1-5 [10] X.
Dunn: MATERIALS SCIENCE Vol. 343 (2014), pp. 1210-1211 [12] M.
Series: Materials Science and Engineering Vol. 201 (2017), pp. 1-5 [15] L.
Shen: Journal of Materials Chemistry Vol. 22 (2012), p. 21647-21653 [17] L.
Jiang: Journal of Environmental Sciences Vol. 51 (2017), pp. 248-255 [18] A.

Multi-walled carbon nanotubes were used as solid phase extraction materials.
Experiment 1.1 Materials and Instrument Dichlorvos(DDVP) and methamidophos(MAP)(AR) was supplied by Tianjin Chemical Reagent Factory; carbon nanotubes was purchased from Nano Shenzhen Port Co.
Zhang,Progress on toxicity, toxicological study of Methamidophos, Journal of Health Toxicology, 8(1994)123-125 [4]ChunXia.
Wang, Research developments for the applications of carbon nanotubes in separation science, Chinese Journal of Chromatography. 29(2011)6-14 [5]QuanLong.
Yuan, Study of Purified M ult-walled Carbon Nanotubes as a Sorbent of Solid Phase Extraction for Preconcentration of Organophosphorous Pesticides from Water Samples, Journal of Xiamen University(Natural Science).43(2004)531-535

Tan δ is referred to the damping factor of materials.
Acknowledgement This work was financially supported by the Ministry of Science, Technology and Innovation (MOSTI) Science Fund (Project no. 305/PBAHAN/6013380) and MyPhD (Z.X.
Haw, Effects of palm ash loading and maleated natural rubber as a coupling agent on the properties of palm ash filled natural rubber composites, Journal of Applied Polymer Science, 110 (2008) 2867-2876
Kraus, Reinforcement of elastomers by carbon black, Advances in Polymer Science 8 (1971) 155-237
I, Journal of Applied Polymer Science, 94(4) (2004) 1575-1585.

Fabrication of Morphology Controllable Vertically Aligned TiO2 Nanorod Arrays for Dye-Sensitized Solar Cells Fen Lia, Sujuan Hub, Lidong Weic, Bo Chi*d and Li Jiane Center for Fuel Cell Innovation, School of Materials Science and Engineering, State Key Lab of Material Processing and Die & Mould Technology, Huazhong University of Science and Technology, Wuhan 430074, China ahustlifen@163.com, bhsj200599@163.com, csylar2059@163.com, dchibo@hust.edu.cn, elijian@hust.edu.cn *corresponding author, +86-27-87558142 Keywords: TiO2 nanorods; hydrothermal; morphology; dye-sensitized solar cell Abstract.
Acknowledgements This research was supported by Natural Science Foundation of China (50902056).
The authors would like to thank Materials Characterization Center of Huazhong University of Science and Technology for XRD, SEM and TEM assistance.
Grätzel, Novel nanostructures for next generation dye-sensitized solar cells, Energy & Environmental Science. 5 (2012) 8506-8516
Bihri, Preparation and characterization of sprayed FTO thin films, The European Physical Journal Applied Physics. 38 (2007) 217-219

Effects of Rare-earth Oxides Doping on Microstructures and Properties of Al2O3 /TiAl Composites Fen WANGa, Xiaofeng WANGb, Jianfeng ZHUc, Liuyi XIANG Key Laboratory of Auxiliary Chemistry & Technology for Chemical Industry, Ministry of Education, Shaanxi University of Science &Technology, Xi′an 710021, China aemail:wfch2@163.com, bemail: wang3164153@126.com,c email:zhujf@sust.edu.cn Keywords: TiAl; rare-earth oxide; microstructure; mechanical property Abstract: Effects of rare-earth oxides addition (0.38~1.52 mol% of Sm2O3, Eu2O3 and Er2O3) on the property and microstructure of the hot-pressed (1300℃, 2h, 35 MPa) Al2O3 (12 wt %)/TiAl in-situ composites have been investigated.
Acknowledgements: This work was supported by the National Foundation of Natural Science, China (50802057), the Foundation of Xianyang, China (XK06010-11), and the Graduate Innovation Fund of Shaanxi University of Science and Technology.
References [1] Xinhua Wu: Intermetallics, 14 (2006), 1114-1122 [2] Shukiko Tanaka, Kiyoshi Itatani and Hiroshi Uchida: Journal of the European Ceramic Society. 22 (2002), 777–783 [3] Bernhard M.E.
Hoelderich: Journal of Catalysis. 271 (2010), 290–304 [4] Zhiqiang Yu, Gaohui Wu, Dongli Sun: Materials Science and Engineering A357 (2003), 61-66 [5] Youming Liu, Bofan Xu, Wenyi Li.
Materials Letters, 58(2004): 432–436 [6] Ai Taotao: Chinese Journal of Aeronautics, 21(2008), 559-564 [7] Xueli Du, Mingli Qin, Akhtar Farid: Materials Science and Engineering A, 460–461 (2007), 471–474

Spare parts are a kind of protective materials for normal equipment maintenance and emergency treatment.
Introduction Equipments are the basic materials of production.
Spare parts are a kind of protective materials for normal equipment maintenance and emergency treatment.
Spare parts are the protective and essential materials of production.
Conclusions Spare parts management is different from the management of other materials used in production.

These include nanopores [5], nanowires [6], nanotubes [7], and nanodots [8], which are all functional materials for solar energy conversion, catalysis, sensors and separation filters.
Rare earth compounds have been widely used in optics, electronics, metallurgy, chemical and materials engineering, due to their special physical and chemical characteristics [9].
Huang: Journal of Rare Earths Vol.27 (2009), p.480 [10] X.Y.
Yu, et al.: Advanced Materials Research Vol. 415-417 (2012), p.1895  [12] X.Z.
Yu, et al.: Advanced Materials Research Vol. 399-401 (2012), p.847

The molecules of water in materials are polar molecules, its polarity orientation changes with the electronic magnetic field[1-2].
In a very short time，Materials have a fast drying rate when the temperature of the material cells rised rapidly and the rapid evaporation of water.
Not only the temperature of the materials rised fast, but also dry crop quality have relatively large fluctuations.
And sometimes even singed inside of materials[3].
Qptimization of Technical Parameters for Microwave-Vacuum Drying of Chinese Prickly Ash, Journal of Southwest University(Natural Science Edition), 30(2008)：182–183

The dynamic weighing technology is multi-domain comprehensive technology, including the mechanics of materials, dynamics, the technology of sensor, the technology of electronic information and so on.
The dynamic weighing technology is multi-domain comprehensive technology, including the mechanics of materials, dynamics, the technology of sensor, the technology of electronic information and so on.
Zhang, The influence of vehicle speed on weigh-in-motion, Journal of Shandong University of Technology (Natural Science Edit ion).
Cao, Vehicle weigh-in-motion technology, Chinese Journal of Scientific Instrument, vol. 8, No. 8,2006, pp. 944-947
Wang, Actualizing least-squares curve-fitting based on Matlab, Journal of Beijing broadcasting institute, Vol. 12, No. 2, 2005, pp. 52-58.