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Plasma polymerized diglyme (pp-diglyme) is a promising class of biomedical materials due to hydrophilic features when deposited under excitation by RF low power.
The recovering of these materials with pp-diglyme films let them with a resistant biocompatible feature that is appropriate for use in aggressive environments.
Therefore one can conclude that diglyme plasma polymerization on PUD samples at lower RF power level produced low cost biocompatible material with promising applications in many science and technology fields.
Lemons (Eds.), Biomaterials Science: An Introduction to Materials in Medicine, second ed., Academic Press, New York, 2004
Silva: Journal of Nanomaterials (2011), p.1-

Introduction In recent years, smart structures utilizing piezoelectric materials as sensors/actuators have been found in many engineering applications, such as precision positioning, noise and vibration suppression[1].
Acknowledgments This work is financially supported by National Natural Science Foundation of China under grant No. 50875235.
ZHANG, et al., "Torsional actuator and stepper motor based on piezoelectric d(15) shear response," Journal of Intelligent Material Systems and Structures, vol. 11 (2000), p. 456-468 [4] J.
Kang, "Performance test and improvement of piezoelectric torsional actuators," Smart Materials & Structures, vol. 10 (2001), p. 750-757 [5] C.
Glazounov, et al., "Piezoelectric ceramic assembly tubes for torsional actuators," Smart Structures and Materials 1999: Smart Materials Technologies, vol. 3675 (1999), p. 53-62 [6] YongGui.

In order to obtain materials with high conductivity, using metal as conductive fillers and high loading is needed.
Experimental Materials.
Novak: European Polymer Journal Vol. 43 (2007) p. 2401 [2] Qiang Yin, Aiju Li and Weiqiang Wang: Journal of Power Sources Vol. 165 (2007) p. 717 [3] W.P.
Wolf: Composites Science and Technology Vol. 70 (2010) p. 2253 [7] W.
Zhang: Materials Letters Vol. 64 (2010) p. 2226 [9] S.J.

Acknowledgements This work was financially supported by the National Natural Science Foundation of China (Grant No. 61167005 and 61367007) and the Natural Science Foundation of Gansu province of China (Grant No. 1112RJZA018).
Journal of Lanzhou University of Technology, 31(4) (2005)15-18
Rare Metal Materials and Engineering, 37(01) (2008)147-151
Rare Metal Materials and Engineering, 40(6) (2011) 0973-0977
Journal of Lanzhou Polytechnic College. 16(3) (2009)50-52

However, before the material yield or fracture, the line of visco-elastic strain range relative to the materials available in the entire strain range is very small, so close to fracture in the material before the asphalt is the line that the viscoelastic properties is not entirely correct [2].
Raw materials and methods Raw materials This test is used in heavy traffic asphalt AH-70, its technical specifications shown in Table 1.
References [1] L. iu Lixin, Viscoelastic Mechanics and Materials Science Principles of Asphalt Mixture, China Communications Press, Beijing, 2006 [2] Jing Bin, The Study on Non-Linearity Viscoelastic Model of Aged Asphalt Mixture (Dissertation), Changsha University of Science & Technology, 2009
Journal of Highway and Transportation Research and Development, 25 (2008) 1-6
[5] Yu Jiangmiao, Zou Guilian, Hu Xuebin, et al, Asphalt-Aggregate Mixtures Aging Simulation Test Study Method, Journal of Highway and Transportation Research and Development, 22 (2005) 14-17

Introduction The absorption factor is an important physicalquantity in material science,especially in photovoltaic solar cell[1-4].
Santbergen, R.J.C. van Zolingen: Solar Energy Materials & Solar Cells Vol. 92(2008) ,P.432
[2] R.Santbergen,J.M.Goud,M.Zeman: Solar Energy Materials & Solar Cells Vol. 94 (2010) ,P.715
[3] Zhixun Ma, Xianbo Liao , Gonglin Kong: Materials Letters Vol. 42(2000),P.367
Matsumura: Solar Energy Materials & Solar Cells Vol. 90(2006) ,P.1527

The Magneto-rheological Fluid (MRF) absorber is a kind of novel intelligent material device.
Professor Zhu Shi-xing had supported by Chinese National Natural Science Foundation (NO. 60572163).
Gao, J.P Qu: Journal of Functional Materials.
Choi, Norman M.Wereley: Journal of Aircraft, Vol. 40 (2003) No.3, p.432-438
Wereley and Peter C.Chen: Journal of Guidance, Control, and Dynamics, Vol. 30 (2007), No.2, p.565-575

Journal of Southeast University (English Edition), 2005(04) 480 - 485 [3] LIU Guangdong, WANG Jiejun, HE Fanglong.
Journal of Hunan University (Natural Science), 1992(01) [4] CHEN Tao, HUANG ZongMing.
Material and geometrically nonlinear spatial beam-column element based on the finite element flexibility method [J].
Chinese Journal of Computational Mechanics, 2006, (05)
International Journal for Num ericalM ethodsin engineering, 1987, 24: 2143-2166

Du, etc: Advanced Materials Research Vol.97-101(2010), p. 60 [2] L.
He, etc: Journal of Machine Design Vol.21 (2008), p.46 [3] C.
Davoli, etc: Journal of Mechanical Design Vol.30 (2008), p.112604 [4] T.
Lai: International Journal of Advanced Manufacturing Technology Vol.28 (2006), p.665 [5] K.B.
Zhang: Journal of Mechanical Engineering Vol.4 (2005), p.151

Patankarhe gave the method of resistance distribution, namely the porous medium model to simulate flow field in the porous material.
Journal of Chemical Industry and Engineering. 54(2003) 35-41.
Chinese Journal of Chemical Engineering.16(2008) 558-563
Chinese Journal of Chemical Engineering.17(2009)219-225
Journal of Chemical Industry and Engineering. 24 (2003) 1209-1214.