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Hu, Preparation and microwave absorption properties Ni-Fe3O4 hollow spheres, Materials Sciences Engineering B164 (2009) 112-115
Sudarshan, Grain size influence on soft ferromagnetic properties in Fe-Co nanoparticles, Materials Science and Engineering B 106 (2004) 95-100
Boldyrec, The science and technology of mechanical alloying, Materials Science and Engineering A 304-306 (2001) 151-158
Hu, The microwave electromagnetic and absorption properties of some porous iron powders, Materials Science and Engineering A 445-446 (2007) 135-140
Changrui, Microwave absorbing properties of rare-earth elements substituted W-type barium ferrite, Journal of Magnesium and Magnetic Materials 312 (2007) 310-313

The application of natural collagen materials and tissue engineering on repair for exercise-induced meniscus injury Zhi Ping Wang Northeastern University at Qinhuangdao, China dbdxwzp@163.com Keywords: Natural collagen materials; Tissue engineering; Exercise-induced meniscus injury Abstract.
With the development of tissue engineering and materials science, through the research of meniscus tissue engineering to discover novel tissue engineering materials, and further accelerate the research of meniscus tissue engineering, through clinical trials and application of finding appropriate meniscus substitute, which can provide a new mode of treatment for meniscus repair.
Materials Science and Engineering: C, Volume 30, Issue 1, 1 January 2010, Pages 190-195
Journal of the Mechanical Behavior of Biomedical Materials, Volume 4, Issue 7, October 2011, Pages 1343-1350
Collagen-based new bioartificial polymeric materials.

Tsuru, Effect of firing temperature on the water permeability of SiO2–ZrO2 membranes for nanofiltration, Journal of Membrane Science. 497 (2016) 348–356
M´Endez-Vivar, Porous SiO2–TiO2–ZrO2 Obtained from Polymeric Systems Prepared by the Sol–Gel Process, Journal of Porous Materials. 8 (2001) 303–309
Fardad, Catalysts and the structure of SiO2 sol-gel films, Journal of Materials science. 35 (2000) 1835 – 1841
Yang, L.L.Shaw, Polymorphic transformation and powder characteristics of TiO2 during high energy milling, Journal of materials Science. 35 (2000) 6015-6026
Muccillo, Synthesis and characterization of nanosized ZrTiO4 powders prepared by the sol-gel method, Materials Science Forum. 530-531 (2006) 401-407.

At this stage, a multistructural theory arose in materials science (the study of the material is carried out according to the scheme “recipe-technological factors - composition, structure - properties”).
Skachkov, Modeling of Building Materials as Complex Systems, Key Engineering Materials. 730(2017) 412-417 [2] Garkina I.A., Danilov A.M., Selyaev V.P., Materials as complex systems, Journal of Engineering and Applied Sciences. 11(2016) 2461-2464 [3] Irina Garkina and Alexander Danilov, Mathematical Methods of System Analysis in Construction Materials, IOP Conf.
Series: Materials Science and Engineering (2017) 245
[4] Garkina I., Danilov A., Composite Materials: Identification, Control, Synthesis, IOP Conference Series: Materials Science and Engineering. 471(2019) 032005
Series: Materials Science and Engineering. 191 (2017)012006 [7] Garkina Irina, Danilov Alexander, Experience of Development of Epoxy Composites: Appendix of Methods of Rank Correlation, Key Engineering Materials. 777(2018) 8-12

Building materials take up a large proportion in the construction cost; ordinary materials take up 30%~40%.
[2]Niu Chunyuan: Journal of Heilongjiang Science and Technology Information, 2006,p.230, In Chinese
[3]Yan Ling and Yin Yilin: Journal of Science Press, 2010, In Chinese
[4] Wang Jian: Journal of Shanxi Architecture. 2011(30),p.226-227, In Chinese
[5] Zhang Yong: Journal of International Business Accounting. 2011,p.20-22 , In Chinese

Influence of C/N Ratio on SND and Microbiological Analysis in Catching Bed Biofilm Reactor using Acrylic Resin Fiber as Carrier Materials in Civil Engineering Yan Zhang1a, ZhengYang Yang1b, LiLi Wang1a, XuYing Zhao2a HuanGuang Liu1a and Min Zhu1a 1Beijing Key Lab of Water Quality Science and Water Environmental Restoration Engineering College of Arc. and Civ.
In this study, effect of C/N ratio on denitrification were investigated using four sets of parallel catching bed reactors, which were using acrylic resin fiber (ARF) as carrier materials.
Materials and Methods Pilot Test of Catching Bed Biofilm Reactor.
Carrier Materials.
All reactors which using acrylic resin fiber as carrier materials could get high removal efficiencies of CODCr.

Hysteresis Modeling of Soft Magnetic Materials using LabVIEW Liangyu Su School of Electrical and information Engineering, Xu Chang University, Xu Chang, China sulyu@qq.com Keywords: Hysteresis cycle; Preisach model; LabVIEW; magnetic materials; simulation Abstract.Hysteresis cycle is one of the most important characteristics for magnetic materials.Preisach model is one of most used model in practice for modeling the hysteresis cycle.
Introduction For magnetic materials one of the most important characteristics is the hysteresis cycle.
The problem to characterize the actual material is finding a statistical distribution of elements according to the values of variables a and b.This distribution is represented in the plane (a,b) and is called the Preisach distribution p(a,b).With this distribution function is determined the global flux(magnetization),at a time of material[4].
References [1] Yong Fei Zhang,You He Zhou.Parameter identification of a modified dynamical hysteresis model with immune clone method.13th International Conference on Fracture,2013,pp.233-237 [2] Renrong Lin,Wei Jin,Mingzhou Cao.Internal Stress Distribution Model of the Magnetomechanical Hysteresis of Fe-Cr-Al Based Alloys.Journal of Materials Science & Technology,2011(5),pp.75-80 [3] Bottauscio,Chiampi,Chiarabaglio.Advanced Model of Laminated Cores for Two -Dimensional Magnetic Field Analysis,IEEE Trans.Magna,No.36,2000,pp.561-573 [4] Cardelli,Della Torre,Faba.Experimental Verification of the deletion and Congruency Property in Si-Fe Magnetic Steels.Modeling hysteresis and Micromagnetics,2009,pp.228-234 [5] Cardell,Della Torre,Faba.Properties of a Class of Vector HysteronsJournal of Applied Physics.Ocean Engineering,No.103,2008,pp.794-798 [6] YE XU,LING WANG.Hysteresis Modeling of Magnetic Devices Using Dipole Distribution.IEEE Transactions on Magnetics,Vol.41,No. 5,2005,pp780-784
[7] Dlala,Saitz,Arkkio.Inverted and Forward Preisach Models for Numerical Analysis of Electromagnetic Field Problems.IEEE Transactions on Magnetics,Vol.42,No.8,2006,pp. 1963-1973 [8] Makaveev,Dupre,Melkebeek.Combined Preisach-Mayergoyz-Neural-Network Vector Hysteresis Model for Electrical Steel Sheets.Journal of Applied Physics,Vol.93,No.10,2003,pp.6738-6740 [9] MAO JianQin,DING HaiShan.Intelligent modeling and control for nonlinear systems with rate-dependent hysteresis.Science in China(Series F:Information Sciences),2009(04),pp.259-267 [10] ZHANG Zhen, MAO JianQin,ZHOU KeMin.Experimental characterization and modeling of stress-dependent hysteresis of a giant magnetostrictive actuator.Science China(Technological Sciences),2013(03),pp.259-267

A Study on Characteristics of Microstructures and Orientations of UFG Materials Prepared by SPD Shi Qingnan1,a, Chen Yongjin2,b, Wang Junli3,c 1Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, PRC 2Faculty of Architecture and Civil Engineering, Kunming University of Science and Technology, Kunming 650093, PRC 3Research Center for Analysis and Measurement, Kunming University of Science and Technology, Kunming 650093, PRC a shikust@vip.163.com, b cyjkm00@163.com, c junliwangli@yahoo.com.cn Keywords: Sever plastic deformation, UFG materials, microstructure, orientation Abstract: In the paper, the study was conducted on the characteristics of microstructures and orientations of UFG pure copper and 6061 aluminum alloy prepared by AARB, ECAP and CECC severe plastic deformation processes, in which SEM, TEM, EBSD and X-ray diffraction techniques were employed.
TEM was used to reveal the microstructures of the prepared UFG materials.
Pancholi: Materials and Design, , Vol.30(2009):1894 [3] W.J.
Choi, etal:Materials Science and Engineering A, Vol.520 (2009) :23 [5] N Tsuiji, Y Saito, S H Lee, et al:Advanced Engineering Materials,Vol. 5(2003) :338 [6] J Hirsch, K Lűcke:Acta Metal, Vol.36 (1988): 2863 [7] W.
Wei, G Chen:Journal of Mechanical Engineering,Vol.7,(2002) :1 [8] Q.N.

Ductile-regime Machining for Fast Tool Servo Diamond Turning of Micro-structured Surfaces on Brittle Materials De Ping Yu1, a, Yoke San Wong 2, b and Geok Soon Hong 2, c 1Sichuan University, School of Manufacturing Science and Engineering, China, 610065 2National University of Singapore, Department of Mechanical Engineering, Singapore, 119260 awilliamydp@yahoo.com.cn, bmpewys@nus.edu.sg, cmpehgs@nus.edu.sg Keywords: ductile-regime machining; fast tool servo; diamond turning; micro-structured surfaces; brittle materials Abstract.
Nevertheless, it is challenging to machine micro-structured surfaces with a mirror surface on the brittle materials due to the low fracture toughness of the materials and the complex shapes of the surfaces.
Ogura and Okazaki used FTS diamond turning to machine micro-lens array on brittle materials [10].
The value of tc can be estimated by Bifano’s model [17] for typical brittle materials using Eq
Hong: Key Engineering Materials Vol. 443 (2010), p. 669-674 [13] D.P.

Control on Dynamic Response of Fluid-driven Deployable Mechanism by Application of Magnetorheological Elastomeric Materials GUO Shirong1, a, SUN Lingyu1,b and CHEN Weiwei1,c 1School of Transportation Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China abuaaauto@126.com, blysun@buaa.edu.cn, cchenweiwei@ae.buaa.edu.cn Keywords: Magnetorheological Elastomer; Intelligent Materials; Adaptive Vibration Control; Finite Element Analysis (FEA) Abstract.
If intelligent materials with variant stiffness can be used, it is possible to solve this problem.
And Mooney-Rivlin model has been widely used to model rubber-like materials with acceptable accuracy, especially when the shear strain is within 150% [9].
References [1] M.Farshad, M.Le Roux: Polymer Testing Vol.24(2005),p.163 [2] W.Zhang,X.L.Gong,L.Chen: Journal of Magnetism and Magnetic Materials(2010), in press
[3] X.L.Gong,L.Chen,J.F.Li: International Journal of Modern Physics Vol.21(2007),p.4675 [4] Y.S.Zhu,X.L.Gong,P.Q.Zhang: Chinese Journal of Computational Mechanics Vol24(2007),p.565 [5] L.C.Davis: Journal of applied physics Vol.85(1999),p.3348 [6] Y.Shen,M.F.Golnaraghi,G.R.Heppler: Journal of Intelligent Material Systems and Structures Vol.15(2004),p.27 [7] M.R.Jolly,J.D.Carlson,B.C.Munoz: Smart Materials and Structures Vol.5,p.607 [8] X.Z.Zhang,H.L.Wei,X.L.Gong: Communications in Nonlinear Science and Numerical Simulation Vol13(2003),p.1910 [9] W.Wang,T.Deng,S.G.Zhao: Special Purpose Rubber Products Vol.25(2004),p.8 [10] M.J.Zheng,W.J.Wang,Z.N.Chen,L.J.Wu: Rubber Tire Vol.50(2003),p.462 [11] G.Y.Zhou: Smart Materials and Structures Vol.12(2003),p.139 [12] G.Y.Zhou,J.R.Li: Smart Material and Structures Vol.12(2003),p.859