Search results

The materials used in this study were also used in the analysis of H and ZMC models, as listed in Table 2.
Material properties of contact system .
B., ASME Journal of Tribology, 109(2), 257 (1987)
H., ASME Journal of Tribology, 120, 82 (1998)
M., and Chang, L., ASME Journal of Tribology, 122, 86 (2000)

The materials, from earth physical prospecting, revealed in the Xi'an area on the earth's crust 10~20km depth bounds, has thick approximately the 6~8km earth's crust weak belt; Since the Cainozoic Era, this area has been under the tensile stress condition in the north and south to direct Saying of the ground fracture origin.
Science Research and Technical Development Project (CSCEC-2010-Z-14).
Wu: JOURNAL OF CATASTROPHOLOGY, Vol. 12[1] (1997), P. 84
Peng: Journal of Engineering Geology, Vol. 11 [04] (2003), p. 343
Li: Journal of Engineering Geology, Vol. 15[04] (2007), p. 434

Various materials have been tested in the aim to substitute the natural bone.
Materials and methods 2.1.
The quantity of simulated body fluid included into composite materials has two components: water retained into materials porosity - as higher with material porosity increasing, and water interacted by hydrogen bonds with hydrophilic groups of the biopolymers.
Ma, Biomimetic materials for tissue engineering, Adv.
Amaral, Chitosan, Materials of Biological Origin, Elsevier Ltd (2011), 221-237

Industrial Development and Construction of Complex Saemaul Planning Xin Jie Wu 1, a, Kang Cai Nie2,b, Huang Hua Wu3,c and Zheng Yang Wang4,d 1Southwest University of Science and Technology, Mianyang, China 2 Southwest University of Science and Technology, Mianyang, China 3 Southwest University of Science and Technology, Mianyang, China 4 Southwest University of Science and Technology, Mianyang, China a78214356@qq.com, bnkc@foxmail.com, c981434846@qq.com, d674012544@qq.com Keywords: Urban Planning, Industrial Development, Complex Saemaul, Tourism Culture Abstract.
However, they could not give people the powerful impact on the visual, for their crude style and different materials.
For the new complex system engineering, urbanist should not look stay only in material spatial renovation, but think more in depth to develop the saemaul under the impact of economic tide.
Without orientative industry, completed infrastractural facilities or profound cultural foundation, the development of the saemaul couldn’t be steady References [1] Chunrui Wang: The interpretation of complex saemaul construction in the urban-rural planning, Hebei Academic Journal Vol. 31-5 (2011), in Chinese

Journal Citation (to be inserted by the publisher) Copyright by Trans Tech Publications Microstructure of carbon filled HDPE/EPDM composites studied by positron annihilation spectroscopy** H.M.
Department of Modern Physics, University of Science and Technology of China, Hefei, Anhui 230026, P R China 2.
Department of Polymer Science and Engineering, University of Science and Technology of China, Hefei, Anhui 230026, P R China 3.
HDPE and EPDM are two kinds of antipathetic materials.
EPDM is an amorphous material and thus according to Wessling’s theory [10], as its content is below the percolation point, all the EPDM particles in the polymer volume are in the form of flat agglomerate.

Preparation of microbial flocculant and its preliminary application on removal of ammonia in tannery effluent Changqing Zhao 1,3,a, Qinhuan Yang 2, Bo Teng 3,b, Wuyong Chen 3, Li Jiang 1, Yan Wang 1 and Sisi Deng 1 1 College of Bioengineering, Sichuan University of Science & Engineering, Zigong 643000, China 2 College of Material and Chemical Engineering, Sichuan University of Science & Engineering, Zigong 643000, China 3 National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China aemail: zhaocq81@163.com, bemail: teng_boo@163.com Keywords: tannery wastewater, ammonia, microbial flocculant Abstract.
Experimental Procedure Materials Bacillus cereus in the experiments was conserved in our laboratory and the tannery effluent was from a tannery in Sichuan (China).
Acknowledgements This work was financially supported by the Startup Project of Scientific Research for Sichuan University of Science & Engineering (Item No. 2010XJKRL003) and the Key Project of Chinese Ministry of Education (Item No. 211161).
Wang, et al.: Journal of Sichuan University (Engineering Science Edition, Vol. 40(2008), p. 94-98.

Due to the limitation of the analysis method of science and technology, the measurement of binder concentration and its migration are not yet fully able to quantitative exactly, only half quantitative.
Experimental Materials Ultracote No1 clay from USA, mean particle size 0.6μm; CaCO3 from ECC England, mean particle size 1.1μm; SB-latex from Japan; oxidized starch and 70gms base paper from home market.
Journal of Pulp and Paper Science, 1998, 24(5)：141 [3] R Pasi，H Heikki.
The effect of intense air drying on material distribution and quality in coated papers[J].
Science press, Beijing, 1988 [5] Zhaohui Zhen.

Toward the High-Quality Graphene for Optoelectronic Applications by Optimization of the Growth and TransferParameters Lang Wang1,2, a,Jianhua Zhang2, b, Lianqiao Yang2,c 1 School of Materials Science and Engineering, Shanghai University, Shanghai, 20072, China 2 Key Laboratory of Advanced Display and System Applications (Shanghai University), Ministry of Education, Shanghai, 200072, China ahlpluo@shu.edu.cn, bjhzhang@staff.shu.edu.cn, cyanglianqiao@shu.edu.cn Keywords:Granphene, CVD, copper, transparent conductive layer Abstract.In this paper, the process parameters of graphene during fabrication and transfer are investigated.Cu is utilized as the substrate and chemical vapor deposition are used to obtain graphene.
Blake, A.N.Grigorenko, et al., Science Vol. 320(2008), p. 1308
An, et al., Science Vol. 324 (2009), p. 1312
Reina, Son, H.; Jiao, L., et al., The Journal of Physical Chemistry C Vol. 112(2008), p. 17741
Ruoff, Science Vol. 330(2010), p. 946

Liu: Journal of Xi’An Jiao Tong University, Vol. 42(8) (2008), p. 1049-1053 (In Chinese) [3] H.
Hu: Journal of Shang Hai Jiao Tong University, Vol. 41(12) (2007), p. 1930-1933 (In Chinese) [4] S.
Foscolo: International Journal of Hydrogen Energy, Vol. 23(7) (1998), p. 551-557 [8] G.
L: the Chinese Journal of Process Engineering, Vol. 10(4) (2010), p. 726-731 (In Chinese) [13] C.
Chen: Journal of Fuel Chemistry and Technology, Vol. 32(4) (2003), p. 305-310 (In Chinese) [16] P.M.

The inverse mechanical formulation was first proposed by Govindjee and Mihalic [4] for Neo-Hookean type materials.
Determination of the inverse deformation map φ(x) = ϕ−1(x) results in the material coordinates X of the material configuration B0, which is proposed in [6].
Engrg., 136, 47-57 (1996) [5] Germain S., Scherer M., Steinmann P., On inverse form finding for anisotropic hyperelasticity in the logarithmic strain space, International Journal of structural changes in solids, 2, Number 2, 1-16 (2011) [6] Germain S., Steinmann P., On inverse form finding for anisotropic elastoplastic materials, AIP Conference Proceedings, 1353, 1169-1174 (2011) [7] Germain S., Landkammer P., Steinmann P., On a recursive formulation for solving inverse form finding problems in isotropic elastoplasticity, Advanced Modeling in Simulation and Engineering Sciences, submitted (2013) [8] Landkammer P., Germain S., Steinmann P., On inverse form finding for orthotropic plasticity, Computer Assisted Methods in Engineering Science, accepted (2014) [9] Schmaltz S., Landkammer P., Beyer F., Kumor D., Rademacher A., Blum H., Steinmann P., Willner K., Vorstellung eines Simulationsbenchmarks für die Blechmassivumformung, Tagungsband zum 2.
Modular Kinematic Formulation and Implementation based on Incremental Minimization Principles for Standard Materials, Comput.
Eng., 61, 2067-2113 (2004) [13] Germain S., On Inverse Form Finding for Anisotropic Materials in the Logarithmic Strain Space, Dissertation, University of Erlangen (2013)