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Electroosmotic flow pump on transparent polyimide substrate fabricated using hot embossing Hirofumi Saito, Hiroki Komatsuzaki, Ryuta Ikoma, Takayuki Komori, Keigo Kuroda, Yohta Kimura, Yudai Fukushi, Hirotaka Maenosono, Syohei Koide, Masahiro Satano, and Yasushiro Nishioka* College of Science and Technology, Nihon University, 7-24-1 Narashinodai, Funabashi-shi, Chiba 274-8501, Japan Email: nishioka@eme.cst.nihon-u.ac.jp Keywords: Hot embossing; Electroosmotic flow; UV ozone; Polyimide; Transparent microfluidics Abstract.
Journal of Metals, Materials and Minerals.
Science 1996;272:85–7

Adsorption Energies of X-Doped Fullerene (X = Si, Sn, BN): A First-Principles Study Nikmatul Jannaha, Yosephine Novita Apriatib, Ari Dwi Nugrahenic, Sholihund* Computational Physics Research Group, Department of Physics, Faculty of Mathematics and Natural Sciences, Universitas Gadjah Mada, Sekip Utara BLS 21 Yogyakarta 55281, Indonesia anikmatuljannah@mail.ugm.ac.id, byosephinetha@mail.ugm.ac.id, cari.dwi.n@ugm.ac.id dsholihun@ugm.ac.id *Corresponding author Keywords: Dopamine, Fullerene, Doping, Adsorption Energy Abstract.
In the last decade, research on nanomaterials such as fullerene, graphene, and carbon nanotubes (CNTs) was applied to materials science and nanotechnology such as drug carrier systems due to their unique chemical and physical properties [3-6].
[19] Sholihun, Kadarisman, H.P, Nurwantoro, P, Indonesian Journal of Chemistry. 18(4) (2018) 749–754

The material properties of batteries and cartridges were as shown in Table 1.
Material properties of battery and cartridge Item Density (kg/m3) Thermal Conductivity (W/m.K) Specific Heat (J/kg.K) Battery 2414 2.2 1011 Cartridge (ABS) 1014 0.25 1206 Analysis Results by Adjusting Parameters of Heat Flux and Mass Flow Rate At first, heat flux of the batteries had been changed for investigating the effect of heat flux of the batteries to the performance of the battery cooling system.
Acknowledgements Following are results of a study on the "Development of Software Platform for Analysis and Optimization of Battery Cooling System Used for HEV" Project (G20110049), supported by the Planned Science and Technology Project of Wenzhou City.
J. of Mechanical Science and Technology Vol. 22 (2008), p. 1602
Chemical Engineering Journal Vol. 101 (2004), p. 397

Application of Computed Tomography in Wood-polymer Composites density detection Yu Han1, a, Dawei Qi1, b*, Shuyue Guan1, c 1College of Science, Northeast Forestry University, Harbin, Heilongjiang Province, 150040, China ahanyu5214@163.com, bqidw9806@yahoo.com.cn, cg1987s12y13@gmail.com * Corresponding author Keywords: Wood-polymer Composites; density; nondestructive testing; CT number.
Introduction Wood–plastics composites (WPC) are known as a new generation of materials for housewares, automotive and construction, etc. [1].
R2 of fitting formula is = 0.951 Acknowledgment This research was financially supported by the project “Introduction of Computed Tomography Technology in Properties of Wood Detection” by “948” program (No.2011-4-18) of State Forestry Administration of China and the project “The Application of Multi-Fractal Spectrum Theory in the Detection and Identification of Wood Defects by Computed Tomography” sponsored by Science Foundation of Key Projects in Heilongjiang Province (No.ZD201016).
Schmoldt, in: Lumber value differences from reduced CTspatial resolution and simulated log sawing, edited by Computers and electronics in agriculture, Vol.41. (2003) , p.23 [4] Lei Yu,Shuxia Han,Dawei Qi,Haiyan Gu, in: Automatic and Fast Testing of Wood Density Basedon Computed Tomography, edited by IEEE International Conference on Control and Automation,Guangzhou, CHINA-May 30 to June 1. (2007), p.2560 [5] Peng Guanyun, Jiang Zehui, Liu Xinge, Ren Haiqing, Yu Yan, in: Detection of structure anddensity distribution of wooden floor by computed tomography, edited by Journal of Beijing ForestryUniversity, Vol. 32.(2010) , p.109

Zhang Kay Lab on Instrumentation Science & Dynamic Measurement of the Ministry Education, North University of China, Taiyuan 030051, China as030718@mail.nuc.edu.cn Keywords: stress, nano-thin film, Raman, quantitate�M/NEMS Abstract.
Direct measurement of local stresses must often accompany analytical or numerical models for deformation due to imprecise knowledge of materials properties, inability to predict the magnitudes of intrinsic residual stresses, and to assist in microsystems design [6].
Acknowledgment Project 50375050 and 50405025 is supported by the National Natural Science Foundation of China.
Mark Spering: Journal of Microelectromechanical Systems, Vol.12 (2003), p.1057 [8] Bonera E, Fanciulli M, Batchelder DN: Appl.

Discussion About Sticking to the Concept of Urban Planning ——Return to nature Jianqiu Yu 1, a ,Wenting Lu 2,b , Zhijuan Shen 3,c 1 School of Environment and Civil Engineering, Wuhan Institute of Technology 2Huazhong University of Science and Technology 3School of Geodesy and Geomatics, Wuhan University ayujq200366@126.com, bwindylu55@163.com, c294146262@qq.com Keywords: Urban construction, Concept, Stick to, Return Abstract： In the process of urban construction in several thousand years, Chinese insisted on the principle of "man and nature co-existing in harmony", however, in recent years, due to blind pursuit of economic development, this principle was fading out.
In knowledge economic era, national policies, science, technology and culture have imposing a stronger effect on city more than ever.
Cities are where people can live and proliferate, we need air, water and other materials there to survive.
(In Chinese) [5] Qingji Shen, Chao An, Changshou Liu: The basic principles of the connotation of low-carbon eco-city, features, and planning and construction, Journal of urban Planning(2010/5).

Pretreatment Processing of Gelcast Green Body before Debinding Dai Chunlei1, a , Yang Jinlong b and Huang Yong c 1 State Key Lab of New Ceramics and Fine Processing, Department of Materials Science and Engineering, Tsinghua University, Beijing 100084, P.
Wang: Journal of Applied Polymer Science.

Processing Efficiency Very high General High Structure Parameters (length×width×high) 4210×2710×2660 4300×3000×2660 4210×3000×2660 Structure Form General layout is fluency General layout is fluency; Up-down material is convenient General layout is fluency; Up-down material is convenient; easy operation Conclusions Evaluation activities have penetrated into various stages of the product modular design.
Acknowledgement This work is supported by the Research Funds of State "Twelve Five” Support Program(2012BAF10B11, 012BAF12B08), and the Research Funds for Science Technology Projects of Liaoning Province (2009402017, 2010220003).
References [1] Jingsong Zhang, Qifu Wang, Qinghua Liu, Li Wan and Yifang Zhong: Journal of Mechanical Engineering vol. 39 (2003), p. 129
[5] Jun Yu: China Mechanical Design Ceremon, (Jiangxi Science and Technology Press, Nanchang 2002)

The maximum contact pressure which the material can support in the elastic range in steady state conditions is known as the ‘shakedown limit’.
An advanced cyclic plasticity model was implemented into a finite element code via the material subroutine.
The wheel and the rail have the same elastic material property in terms of Young’s modulus E1=210GPa and Poisson’s ratio v1=0.3, while lower elastic modulus E2=0.2E1 and same Poisson’s ratio v2=v1 is applied to the insulation material.
In all numerical simulations, the insulation material was assumed to be perfectly bonded with the rail ends.
Tan, X., and Bushan, B., 1996, A numerical three-dimensional model for the contact of rough surfaces by variational principle, Journal of Tribology, 33-42.

Nature Materials 8 (2009) 203-207
Materials Research Express 1 (2014) 025031
Advanced Functional Materials 22 (2012) 2123-2128
Materials Letters 64 (2010) 2180-2183
Nature Materials 10 (2011) 443-449