Search results

Rotary viscometer for properties with continuous measurement of time variation of the materials, can be measured on the same materials at different shear rates, so it is widely used in the absolute measurement of viscosity of Newtonian fluid, and the apparent viscosity and rheological properties of non Newtonian liquid meter.
High temperature measurement of material viscosity, in order to prevent the chemical or physical reactions tested samples and the container between the contact surfaces, the non-contact measurement technology has become necessary.
You can believe that, along with the science and technology development and people more deeply on viscosity, viscosity measurement method will emerge, the measurement accuracy will be further improved, the measurement range will also further expand, these will be the organic heat carrier is more widely applied foundation.
Acknowledgements This work was financially supported by the National Natural Science Funds of China (No.51346007) and the Program of Science and Technology of Hunan Province (Project No. 2011GK2026).
JOURNAL OF synthetic crystals, Vol. 36(2), (2007), p. 381-384

Experimental Figure 1 shows the chemical structure of organic materials, the device structure of the OLEDs and schematic energy band diagram of devices.
The layer thickness of the deposited material was monitored using an oscillating quartz thickness monitor.
As mentioned earlier, at the doping level of DCJTB in DPVBi almost incomplete energy transfer occurs, so that we observe the emission from the host material, DPVBi itself.
Acknowledgements This work was supported by the Natural Science Foundation of Fujian Province of China (No.2011J01359), the project of Science and Technology Research of the Education Department of Fujian Province of China (No.JK2011043) and the project of Science and Technology Research of Quanzhou, Fujian Provice of China (No.2011G16).
Yokoyama:Journal of Crystal Growth, Vol. 289 (2006),p 559 [8] S.

Nikolic1, a and Masahiro Yoshimura2,b 1 Faculty of Electronic Engineering, Department of Microelectronics, University of Nish, 18000 Nish, PO Box 73, Serbia 2 Materials and Structure Laboratory, Center for Materials Design, Tokyo Institute of Technology, Yokohama 226-8503, Japan a znikolic@elfak.ni.ac.yu, byoshimura@msl.titech.ac.jp Keywords: Skeletal settling, Liquid phase sintering, Tungsten heavy alloy.
Acknowledgements The first author performed present work under the project (No. 142011) supported financially by the Ministry of Science and Environmental Protection of the Republic of Serbia.
He would also like to thank the Japan Society for the Promotion of Science (Invitation Fellowship No.
Nikolic: submitted to Journal of Materials Scince (2006)
Nikolic: Science of Sintering, 38 (2006), p. 41.

High-Temperature Antioxidant Screening for Silicone Oil Haijun Yang1, a, Huizhen Wang1,b, Li Zhong1,c, Junqing Zhang1,d, and Yuejia Liu1,e 1 School of materials science and engineering, Southwest University of Science and Technology, Sichuan Province nonmetal composite and Functional Materials Lab, Mianyang 621010, Sichuan, China ayanghaijun@swust.edu.cn Keywords: silicone oil, antioxidant, screening Abstract.
Introduction Silicone oil with outstanding thermal endurance could be used as high temperature aerospace lubricating material.
Screening of antioxidants should be carried out to obtain suitable antioxidant candidates for the antioxidant formulations of the OPDS oil used in high-temperature conditions.[7,8] Experiment Materials 1,3-Dioctyl-1,1,3,3-tetraphenyl-disiloxane (OPDS), synthesized in our Lab; Antioxidant T557, A.R., Guangzhou Zhengtong Chemical Technolody Co., LTD.; Antioxidant 1520, A.R., Zibo Hanbo Chemical Co., LTD.; Antioxidant T502A, A.R., Nanjing Datang Chemical Co., LTD.; Antioxidant RH505, A.R., Jinzhou Xinxing Petroleum Additive Co., LTD.; Antioxidant 1024,A.R., Nanjing Milan Chemicals; Antioxidant TNPP, A.R, Jilin Jiuxin Industry Group Chemical Co., LTD.; Antioxidant 2088,A.R., Jilin Jiuxin Industry Group Chemical Co., LTD.; Phenyl sulfide, A.R., Xiya Reagent; 1,10-phenanthroline, A.R., Xiya Reagent; Antioxidant DNPP, A.R, Jilin Jiuxin Industry Group Chemical Co., LTD.; Tricresyl Phosphate ( TCP ), A.R., Xiya Reagent; Antioxidant KY01, A.R., Jiangsu Feiya Chemical Industry Group; Antioxidant
Journal of Chromatography A, 2000, 891: 325-336
Zhejiang: Zhejiang Science and Technology University (in Chinese), 2012: 1-55

Study on Antibacterial Mechanism of CuAz Preservative on Wood White Rot Fungi Wang Ya-mei1,a, Wang Xi-ming1,a, Liu Jun-liang2,b 1College of Material Science and Art Design, University of Inner Mongolia Agricultural, Hohhot, ZhaoWuDa Road 306,China 2Research Institute of Wood Industry, Chinese Academy of Forestry, Beijing, China awangym80@126.com, bliujunliang@caf.ac.cn Keywords: Antibacterial mechanism; CuAz preservative; White rot fungi; Wood preservation Abstract: CuAz preservative is a new kind of wood preservative product with high efficient and low toxicity.
Experimental materials and methods 2.1 Experimental materials Test bacteria: wood white rot fungi, Potyporus versicolorFr.
Acknowledgment This work was supported by the grant (30860222) from the National Natural Science Foundation of China.
Fitoterapia，2001，72(7):825-828 [8] Huang peitang translation.Beijing:Science press,2002 (In Chinese)
Journal of Chinese Electron Microscopy Society，2001，20（3）:217-223 (In Chinese).

SEISMIC FRAGILITY ANALYSIS OF HILL BUILDINGS WITH UNEVEN GROUND COLUMN HEIGHTS Linqing Huang 1,a ,Liping Wang 1, b and Chaolie Ning *2,c 1 Architectural and Civil Engineering Institute, Chongqing University of Science Technology, Chongqing 401331, China 2Collage of Civil Engineering, Tongji University, Shanghai 200092, China ahlinqing@126.com, bwangliping98@163.com, cningchaolie@126.com Keywords: Hill building with uneven ground column heights; Seismic fragility; Exceedance probability; Peak ground acceleration Abstract.
The first one goes to the uncertainty resulted from the scatter of material properties and the second one is the randomness of earthquakes.
Acknowledgements This work was financially supported by the Chongqing Natural Science Foundation (cstc2014jcyjA0682) and the Chongqing Natural Science Foundation (cstcjjA30006).
References [1] Liping Wang and Chaolie Ning: Advanced Materials Research, (2014) [2] Liping Wang and Yingmin LI: J.
Xi'an Univ. of Arch. & Tech Vol.41 (2009), p. 822 (in Chinese) [3] Liping Wang and Yao Zhao: Advanced Materials Research,(2012) ,p. 2279 [4] Liping Wang, Heping Zhong and Linqing Huang: Advanced Materials Research, (2013) [5] Pu Yang, Yingmin Li and Ming Lai: China civil engineering journal Vol. 33 (2000), p. 33 (in Chinese) [6] E.Borgonovo, I.Zentner, A.Pellegri, S.Tarantola and E. de Rocquigny: Reliability Engineering and System Safety Vol. 109 (2013), p. 66 [7] Vamvatsikos D, Cornell AC.

By manual or electronic scanning, translators can enter the materials to be translated, thus a new translation project has been created.
In addition to translation, if we collect valuable bilingual materials in daily reading, we can also use this function of Déjà V.
We can import file into the interface of document alignment according to the operation hint, and then align the bilingual materials according to the function of each dialog box.
Toward a Science of Translation.
Machine Translation in Europe and America.Chinese Translators Journal, 1995 (2)

Introduction Eri-silk is a high-purity protein material with good biological activity.
For the applications in biological materials area, it can be used for cell culture scaffolds, artificial skin, wound dressings and so on.
The experiment Materials and instruments Raw eri-silk, 29.3dtex, provided by the Fuan Chevalier Silk Co., Ltd.
Acknowledgements The work is supported by the 9th province-level science and technology innovation and achievements transferring North Jiangsu science and technology(2011).
Preparationof undegraded native molecular fibroin solution from silkwormcocoons[J].Journal of Materials Science and Engineering C,2001(14):41-46

Four material combinations of gears were tested: wheel and pinion uncoated, wheel and pinion coated, wheel coated and pinion uncoated as well as wheel uncoated and pinion coated.
For many engineering materials, further improvement of their properties through a modification of their microstructure, chemical composition, phase composition, and oil formulation is practically impossible [1].
The results from pitting tests obtained for gear material combinations with MoS2/Ti coating are summarised in Figs. 4 and 5.
Journal of Mechanical Science and Technology, 24 (2010) 103-106
Vižintin, The tribological performance of DLC-coated gears lubricated with biodegradable oil in various pinion/gear material combinations.

[2] Yigitcanlar T., Planning for knowledge-based development: global perspectives, Journal of Knowledge Management, 13(5), 228-242, (2009)
XXII IASP – World Conference on Science and Technology Parks.
XXVIII IASP – World Conference on Science and Technology, Parks, COPENHAGEN, 2011
International Journal of Knowledge-Based Development, 3(2), pp 175-192, (2012)
Mishing, in: Diffusion Processes in Advanced Technological Materials, edtied by D.