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Osteogenesis of Porous Bioceramics Scaffolds Consisted of Hydroxyapatite Spherules After Implanted in Different Non-osseous Sites Yu YUAN 1, Peng HUANG1, 2, Qian PENG1, Cong ZHANG1, 2, Jie WENG1, a 1,2Key Laboratory of Advanced Technologies of Material (Minister of Education), School of Materials Science and Engineering, Southwest Jiaotong University, Chengdu 610031, China 2 Department of Orthopedics, 452nd Hospital of Chinese PLA, Chengdu 610021, China a email: jweng@swjtu.edu.cn (Dr.
Materials and Methods Materials.
Chen: Materials Review Vol. 18 (2004), p.3 [2] J.
Ren: Journal of Tongji University (Nature Science) Vol. 33 (2005), p.4 [3] H.
Weng: Jouranl of Biomedical Materials Research: Part A, (2008), accepted [6] H.

Mechanical behavior of CNTs/SiCp/AZ91D magnesium matrix composites Weixue Li1,2,a, Yunfeng Nie2,band Dundong Wang2,c 1State Key Laboratory of Gansu Advanced Non-ferrous Metal Materials, Lanzhou University of Technology, Lanzhou 730050 2School of Sciences, Lanzhou University of Technology, Lanzhou 730050, China a lwx@lut.cn b nieyunfeng12530@sina.com c feiliping761023@sogou.com Key words: magnesium matrix composites, Carbon nanotubes(CNTs), Silicon Carbide(SiCp), Mechanical properties, microstructure.
Experimental process In this study, the material of the commercial AZ91D alloy was used as matrix material.
a) b) c) Fig.2.Microstructures of the composite materials: a-AZ91D, b-AZ91D/1.0vol%CNTs, c-AZ91D/1.0vol%CNTs/3vol%SiCp Mechanical properties.
Acknowledgement This work is financially supported by the Natural Science Foundation of Gansu Province (1010RJZA045), and the Natural Science Foundation of China (50873047), People’s Republic of China and the Doctor Foundation of Lanzhou University of Technology, China.
Krishnadas et.al: Journal of the Minerals Metals & Materials Society Vol. 8 (1993), p. 52 [9] V.

Introduction Titanium alloy has become a wide range of materials in the aviation industry application with its excellent mechanical properties，however the titanium alloy materials have small coefficient of thermal conductivity, high chemistry activity, large friction coefficient and so on, the cutting tool wear is serious because of the cutting temperature increase in the titanium alloy processing, thus the titanium alloy processing efficiency was affected.
In a certain extent, the temperature generating mechanism of titanium alloy milling process reflected above of the method of the milling titanium alloy temperature measurement, but there are great differences still exist in analysis of the temperature generating mechanism in titanium alloy milling processing and the influence mechanism of surface quality for processed materials.
The Simulation using the vertical K milling cutter of cemented carbide, the cutter tooth is 4, the materials is Carbide - Grade – K, the diameter is 10mm, the front angle is 8°, the posterior horn is 10°, the blade edge radius is 0.02mm, the machining materials is Titanium Alloy Ti - 6Al - 4V, down milling and no cutting fluid.This experiment is two-dimensional milling, with two-dimensional simulation to replace three-dimensional simulation, its only considered the temperature in calculation process and simulation result, In computing, three-dimensional simulation model simplified as two-dimensional simulation model, as shown in figure 2.
Acknowledgements This work was financially supported by the National Science and Technology Planning Project (2008BAF32B10), National Natural Science Foundation (51005184) and National Natural Science Foundation (50975237).
[5] Marcio Bacci da Silva and Jame Wallbank, Journal of Materials Processing Technology, 1999, Vol.88: p(195-202).

One-Step Hydrothermal Reduction and Functionalization of Graphene Oxide with a Modified Diethylene Triamine Yong-Ling PAN1, Chuan-Guo MA1,2,a,*, Hua-Mei WAN1, De-Shui HUANG1, Ji-Xing WANG1, Ping-Ying TAO1, Qi SHI1 1School of Material Science and Engineering, Guilin University of Electronic Technoloy, Guilin, Guangxi, China 2Guangxi Key laboratory of information materials, Guilin, Guangxi, China amachuanguo@guet.edu.cn *Corresponding author Keywords: Graphene Oxide, Reduction, Functionalization, Dispersibility, Conductivity.
Experimental Materials Natural flake graphite (325 mesh) were provided by Nanjing XFNANO Materials Tech Co., Ltd.
Acknowledgements The authors gratefully acknowledge the supports from the National Natural Science Foundation of China (Grant #51363003) and National Undergraduate Training Program for Innovation and Entrepreneurship (201410595032).
I.; Seal, S., Graphene based materials: Past, present and future.
Journal of Materials Science 2013, 48 (12), 4214-4222

Materials and Methods The research adopted MODIS data product MOD13A3 from NASA MODIS data product distribution website.
Acknowledgements This work was financially supported by the Beijing Science and Technology Programs.
Chen: Advance in Earth Sciences Vol. 18 (2003), p. 85-93
[2] Q.Zhou, M Robson, P.Pilesjo: International Journal of Remote Sensing Vol.9(1998), p.1815-1820
Zhou: Resources Science Vol. 26 (2004), p. 153-159.

Advanced healthcare materials 2015, 4 (5), 646-658
Advanced Materials 2012, 24 (13), 1759-1764
Smart Materials and structures 2013, 22 (7), 075017
NPG Asia Materials 2018, 10 (6), 540
ACS applied materials & interfaces 2016, 8 (7), 4532-4540.

Effect of Molten Alkali on Pyrolysis of Fatty Acid Sodium Salts to Hydrocarbon Weijin Wanga, Fengwen Yub*, Longchao Gaoc,Guodong Zhangd,Jianbing Ji e College of Chemical Engineering and Materials Science, Zhejiang University of Technology, Zhejiang Province Key Laboratory of Biofuel, Hangzhou, China aweijinwang@126.com, byufw@zjut.edu.cn, clongchaogao@163.com,d171102717@qq.com,ejjb@zjut.edu.cn Keywords: Molten alkali; Pyrolysis; Fatty acid sodium salts; Hydrocarbon.
And the different raw materials also affected the distributions of pyrolysate.
This paper mainly reports the pyrolysis with or without molten alkali of saturated sodium stearate and un-saturated sodium oleate, aims at demonstrating the influence of different raw materials for pyrolysates and the effect of molten alkali on promoting deoxygenation in pyrolysis process.
Thermal Science, 2004, 8(1), 21-49
Journal of Analytical and Applied Pyrolysis, 2011, 91, 154–158.

Stream Function of Cohesive Mixing in the Tank of a Planetary Mixer Mingjin Yang1,2,a, Xiwen Li2,b and Tielin Shi2,c 1College of Engineering and Technology, Southwest University, Chongqing, China, 400715 2Department of Mechanical Science and Engineering, Huazhong University of Science and Technology, Wuhan, China, 430074 aymingjin2000@126.com, bxiwenli@vip.sina.com, ctlshi@mail.hust.edu.cn Keywords: Stream function, Cohesive mixing, Mixer, Planetary motion Abstract.
For a material point P with initial position, it occupies position after a period of time, then maps to , namely, , and .
Acknowledgements The study was supported by Natural Science Foundation Project of CQ CSTC 2009BB1297, Chunhui Project of Ministry of education of China Z2009-1-63012, and Fundamental Research Funds for the Central Universities of China HUST2010MS090, XDJK2009B028/C004.
Shi: Applied Mechanics and Materials, Vol. 37-38, pp. 858-861
Finn: Journal of Engineering Mathematics, Vol. 41(2001) No.1, pp. 75-79.

Huang1,b and Ferri Aliabadi2,c 1 School of Engineering and Material Sciences, Queen Mary, University of London, UK 2Department of Aeronautics, Imperial College, London, UK ap.h.wen@qmul.ac.uk, bxuejiao.huang@qmul.ac.uk,cm.h.aliabadi@imperial.ac.uk Keywords: Nonlocal elasticity, Eringen’s model, point collocation method, radial basis function Abstract.
Nowadays, it is believed that the physical nature of materials is discrete if atoms are regarded to be the basic constituents.
[5] Wen PH, Aliabadi MH, Analytical formulation of meshless local integral equation method, APPLIED MATHEMATICAL MODELLING, 2013, Vol:37, Pages:2115-2126 [6] Wen PH, Aliabadi MH, Analysis of functionally graded plates by meshless method: A purely analytical formulation, ENGINEERING ANALYSIS WITH BOUNDARY ELEMENTS, 2012, Vol:36, Pages:639-650 [7 Li LY, Wen PH, Aliabadi MH, Meshfree modeling and homogenization of 3D orthogonal woven composites, COMPOSITES SCIENCE AND TECHNOLOGY, 2011, Vol:71, Pages:1777-1788, [8] Wen PH, Aliabadi MH, Elastic Moduli of Woven Fabric Composite by Meshless Local Petrov-Galerkin (MLPG) Method, CMES-COMPUTER MODELING IN ENGINEERING & SCIENCES, 2010, Vol:61, Pages:133-154 [9] Wen PH, Aliabadi MH, Evaluation of mixed-mode stress intensity factors by the mesh-free Galerkin method: static and dynamic, JOURNAL OF STRAIN ANALYSIS FOR ENGINEERING DESIGN, 2009, Vol:44, Pages:273-286

Finite-element Analysis of 10kN Deadweight Force Standard Machine’ Reverse frame Yu Lijuan1,a , Xu Changju2,b , Zhang Xuecheng3,c 1Mechanical science and engineering College, Jilin University,Jilin Changchun ,China 2Mechanical science and engineering College, Jilin University,Jilin Changchun ,China 3Mechanical science and engineering College, Jilin University,Jilin Changchun ,China atallyu@163.com, bexcj19518@163.com, czxche@163.com, Keywords: Buckling, Stability analysis, Reverse frame, Deadweight Force Standard Machine Abstract: In the test enginery, using reverse frame put the pulling force into the pressure is the most commonly structure method.
Model material parameters: elastic modulus of Upper and lower horizontal beams and transitional connection is , elastic modulus of left and right rods is .Poisson's ratio of all components is ,the density is .
Journal Of Da Lian Railway Instute.2006.3 [5] Meng Guangwei, Mechanics of Materials, Machinery Industry Press,2004.