Search results

The study is totally based on industrial wastes to produce new building materials.
Experiments Chemical Constituents and physical property of raw materials.
Through this experiment, new building materials can produced from industrial wastes.
New Building Materials.
Journal of Wuhan University of Technology.

Effect of the Si3N4 coating on the mc-Si ingot in the process of multicrystalline silicon purification by metallurgical methods Jiayan Li, Yi Tana, Mei Liu, Wei Dong School of Materials Science and Engineering, Dalian University of Technology, Dalian 116024, China.
L Pastol and G.Revel: Solar Energy Materials., Vol.19 (1989), p.221 [5] Q.
Lawerenz: Solar Energy Materials & Solar Cells., Vol.72 (2002), p.403 [8] J.
Mukai: Journal of Colloid and Interface Science, Vol.270 (2004), p.140 [10] F.
Li: Materials Research Innovation, in press

The high mechanical properties of abaca fibers can be used as reinforcement in composite materials [11–15].
Composite materials are the alternative absorber materials that are expected to improve the mechanical properties.
Torng, Experimental study of the absorption characteristics of some porous fibrous materials, Appl.
Venkateshappa, Abaca Fiber Reinforced Epoxy Composites : Evaluation of Impact Strength International Journal of Sciences : Abaca Fiber Reinforced Epoxy Composites : Evaluation of Impact Strength, Int.
journal= JournalOfBasicAndApplied

Influence of Magnesium on Structure and Properties of Al- Si Alloy, Advanced Materials Research, 23 (2007) p291 [2] C.H.
Garcı´a-Garcı´a, Copper Content and Cooling Rate Effects Over Second Phase Particles Behavior in Industrial Aluminum–Silicon Alloy 319, Materials and Design (2005) p1-6 [4] Wang Feng et. al., Effect of Si addition on the Microstructure and Mechanical Properties of Al–Cu–Mg Alloy, Journal of Alloys and Compounds 585 (2014) p474–478 [5] C.
Liu et. al , The Effect of Si on Precipitation in Al–Cu–Mg Alloy With a High Cu/Mg Ratio Materials Science & Engineering A606 (2014) p187–195 [6] R.X.
Hu Age-hardening Behavior of Cast Al–Si Base Alloy Materials Letters 58 (2004) p2096– 2101 [7] Q.C.
Doty, Effect of Solution Heat Treatment and Additives on the Microstructure of Al-Si (A413.1) Automotive Alloys Journal of Materials Science 38 (2003) p4507 – 4522

Photocatalytic Decolorization of Methylene Blue by Ferric Stearate, Ferrocene and NiDBC under Sunlight Irradiation Zhao Zhao1,2,a, Xuegang Luo 1,2,b, Xiaoyan Lin 1,2,c 1School of Material Science and Engineering, Southwest University of Science and Technology, Mianyang 621010, Sichuan, China 2 Engineering Research Center for Biomass Materials, Ministry of Education, China a zhaozhao851023@msn.com, b lxg@swust.edu.cn, c xylinchwei@yahoo.com.cn Keywords: Ferric Stearate; Ferrocene; NiDBC; Photocatalytic; Decolorization Abstract.
Experimental Materials.
It could be noted from Figure3 that NiDBC required shorter irradiation time than the other materials to total disappearance of MB under irradiation with the sunlight.
This is unprecedented discover because that NiDBC was used broadly to impede photo aging of macromolecule materials, however in this study, it shows the best photocatalytic property.
Jiuhui: Journal of Hazardous Materials, Vol. 154 (2008), p. 146 [2] G.

Numerical simulation experiments using the three kinds of material, explosive material, air material, concrete material (rigid materials).
Explosive material use TNT, TNT high explosive model * MAT_HIGH_EXPLOSIVE_BURN provided by using ls-dyna .
In order to improve the calculation efficiency, simplifying the concrete casing to the rigid body, and adopt the MAT_RIGID rigid body material.
Adopt the method of fluid-structure interaction realization of fluid and solid materials contact, this way can avoid the distortion in the process of calculation unit, in order to get reasonable results.
Reference [1] GOU Zhi-kun1,SONG Feng-liang1,LIU Feng2,HE Feng2.Experiment of closed flat box structure subjected to internal detonation[J].Journal of PLA university of science and technology (natural science edition), 2008 (04) [2] LI Zhongxian, SHI Yanchao.

Introduction As a new type of semiconductor material, SiC has excellent physical and chemical characteristics, and become the fundamental materials for electronic device and high temperature components.
With the rapid improvement of nano-manufacturing technology, low-dimensional materials exhibit significant differences compared with conventional bulk materials.
Compared with bulk materials, low-sized nanoscale materials have boundary effects and quantum effects.
Phonons in bulk materials mainly undertake normal and Umklapp scattering processes [7], which are called intrinsic scattering.
Osman, Computational Nanomechanics and Thermal Transport in Nanotubes and Nanowires, Journal of Nanoscience and Nanotechnology. 8(2008) 3628

Paixão1, Qingxi Yuan3, Wanxia Huang3, Peiping Zhu3 1Department of Physics, University of Coimbra, Rua Larga, Coimbra 3004-516, Portugal 2International Centre for Materials Physics, Chinese Academy of Sciences, Shenyang 110016, China 3Institute of High Energy, Chinese Academy of Sciences, Beijing 100039, P.R.
It is very important for investigating the ferroelectric domain structure in these materials.
Ferroelectric domains are homogenous regions within ferroelectric materials in which polarizations lie along one direction, that influence the piezoelectric and ferroelectric properties of the materials for utilization in memory devices, micro-electromechanical systems, etc.
Due to its simple principle and accessible setup, WBSRT has become a unique method to characterize ferroelectric materials.
Yuan, et al., Journal of Crystal Growth, 2001, 233: 717-722.

Gas pipeline corrosion prediction based on modified support vector machine and unequal interval model Weidong Zhang1,a, Bin Shen1,b, Yibo Ai1,c and Bin Yang1,d,* 1National Center for Materials Service Safety, University of Science and Technology Beijing, Beijing,100083, China azwd@ustb.edu.cn, bshenbin525@126.com, cybai@ustb.edu.cn, dbinyang@ustb.edu.cn *Corresponding author Keywords: Gas pipeline; Corrosion prediction; Support vector machine (SVM); Parameters optimization selection.
Because many factors can affect the prediction of corrosion residual life, such as environment, stress, and materials, it is difficult to obtain the expected results.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51005014).
References [1] Dengfeng Zheng, Jinsheng Jiang, Mingyong Wang: Journal of Safety Science and Technology, 2012, 8(10): 76-81 [2] Bilin Shao, Weiping Ma, Zhixia Zhang: Journal of Xi’an University of Architecture & Technology(Natural Science Edition), 2006, 38(6): 804~808 [3] ASME-B31G.
ISSUE6, 1997 [6] Caleyo F, M Hallen J, Gonzalez J L: Oil and Gas Journal, 2003, 101(2): 50-56 [7] Klever F J: Burst strength of corroded pipe: flow stress revisited[J].

At the same time, studying the electronic properties of liquid salts can be useful for the proved choice of them in different applications, for handling them during a high-selective extraction of salt components, for the minimizing a corrosion of structural materials in them, i.e. it can prove the reliable operation of molten salts in non-isothermal conditions [3,4].
Shimkevich: International Journal of Nuclear Energy Science and Engineering (IJNESE) Vol. 2 (2012), p. 88
Smirnov: Electrode Potentials in the Fused Chlorides (Science, Moscow, Russia 1973)
Alekseev et al: Questions of Nuclear Science and Engineering, Nuclear Fusion (Russian Journal) Vol. 36 (2013), p. 5
Davis: Electronic processes in non-crystalline materials (Clarendon Press, New-York, USA 1979)