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Introduction Magnetorheological (MR) materials are classified as a function and smart materials due to their rheological properties that can be changed continuously, rapidly and reversibly in the presence of magnetic fields [1].
MR materials classified into several groups such as MR fluid (MRF), MR grease (MRG) and MR elastomer (MRE) [2–4].
Corrosion is degradation of materials which associated with the release of gaseous H2 and it is an inevitable problem resulting in low ductility, brittle and cracking for most of the materials [9].
Mazlan, “Recent progress on magnetorheological solids: Materials, fabrication, testing, and applications,” Adv.
Mohamad, “Physicochemical and Viscoelastic Properties of Magnetorheological Solids,” in Reference Module in Materials Science and Materials Engineering, Elsevier, 2016, pp. 1–11

Guaranteed-grade reagents of silicate tetra-n-butoxide, lithium ethoxide, anhydrous ethanol, and diethylene glycol were used as starting materials.
Although the crystallization temperature depends on the composition of the sol, it was considered that the sol-gel synthesized powders composed of amorphous materials were crystallized by heating at a temperature of 823 K.
This material reacted with CO2 at ambient temperatures.
Hirai, Materials Transactions, 52, 2211～2215(2011) [5] K.
Hirai, The Scientific world journal, 2014, 1-7(2014)

HSU tries to decompose a mixed pixel into a collection of constituent materials (also called endmembers) and their relative proportions (also called abundances) [2][3].
Acknowledgement This work was supported in part by Science Foundation for Young Teachers of Wuyi University (No. 2013zk15).
Fully constrained least squares linear spectral mixture analysis method for material quantification in hyperspectral imagery [J].
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 2013, 6(2): 554-569
International Journal of Remote Sensing. 2013, 34(20): 6983-7001

Suitable material hysteretic model should be selected firstly.
Acknowledgments The authors gratefully acknowledge the financial support provided by the Natural Science Foundation of China (National Key Project No. 50938001 & 90715009).
Miao: Journal of Building Structures Vol.29 (2008), p. 132(In Chinese) [3] L.H.
Han: Concrete Filled Steel Tubular Structures from Theory to Practice (Science Press, Beijing 2004) (In Chinese) [4] B.D.
Priestley: ACI Structure Journal Vol. 79 (1982), p. 13 [5] F.

Comparison of Silica Sand Properties from Kandal Province, Cambodia and Tapah Perak, Malaysia, And Characterization of Soda Lime Silicate Glass Produced From Cambodian Silica Sand EM Sereiratana1,a, KHAIRUL Anwar Bin Bharum1,b, *SHEIKH Abdul Rezan1,c, RADZALI Othman1,d, FumitakeTAKAHASHI2,e and PHATBoné3,f School of Materials and Mineral Resources Engineering, University Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia, 2Department of Environmental Science and Technology, Interdisciplinary Graduate School of Science and Engineering, Tokyo Institute of Technology, G5-13, 4259, Nagatsuta, Midori-ku, Yokohama, 226-8503 Japan, 3Department Geo-resources and Geotechnical Engineering, Institute of Technology of Cambodia, Phnom Penh, Cambodia, aemsereiratana@yahoo.fr,busm105329anwar@gmail.com, *csrsheikh@eng.usm.my, df-takahashi.f.af@m.titech.ac.jp, eradzali@eng.usm.my, fbphat@itc.edu.kh Keywords: Characterization, silica sand, properties, glassmaking.
A common impurity in silica sand used as a raw material for glass product is iron oxide [2, 3].
Kondo, "Prediction of optical properties of commercial soda–lime-silicate glasses containing iron," Journal of Non-Crystalline Solids, vol. 261, pp. 72-78, 1// 2000
Yazawa, "Effects of iron on the formation and annihilation of X-ray irradiation induced non-bridging oxygen hole centers in soda-lime silicate glass," Journal of Non-Crystalline Solids, vol. 356, pp. 232-235, 2/15/ 2010

Multiple Imputation for Missing Data in Life Cycle Inventory Yu LIU, Xianzheng GONG, ZhiHong WANG, Wei LIU, Zuoren NIE* School of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, China zrnie@bjut.edu.cn Keywords：life cycle assessment; multiple imputation; missing data Abstract.
Introduction Life cycle assessment is a compilation and evaluation of the inputs, outputs and the potential environmental impacts of a product system throughout its life cycle including consecutive and interlinked stages of a product system from raw material acquisition or generation of natural resources to final disposal [1].
Acknowledgement This work was financially supported by the National Natural Science Foundation of China (NSFC, Project No.50525413), National 863 Project (2007AA03Z432), National 973 Project (2007CB613206) and National Key Technology R&D Program (No.2006BAE04B09 and No.2006BAF02A23).
Journal of Clinical Epidemiology. 2006, 59: 1087-1091
Journal of Clinical Epidemiology. 2002, 55: 184-191 [13] Robins JM, Wang N.

Effect of Tempering on Microstructure and Mechanical Properties of Laser Welded and Post-Weld Treated AHSS Specimens Farnoosh Forouzan1, a *, Nanny Strandqvist1, b, Esa Vuorinen1, c, Erik Navara2, d and Frank Mücklich3, e 1Division of Materials Science, Luleå University of Technology, SE-97187 Luleå, Sweden 2Jihlava, Czech Republic 3Department for Materials Science, Functional Materials, Saarland University, D-66041 Saarbrücken, Germany afarnoosh.forouzan@ltu.se, bnanstr-1@student.ltu.se, cesa.vuorinen@ltu.se, deriknavara@gmail.com, emuecke@matsci.uni-sb.de Keywords: laser welding, quench and temper (Q&T), dilatometer, hardness profile, tensile test.
Though, welding of these materials without changing their mechanical properties is challenging especially after laser welding due to its high cooling rate, which can cause formation of martensite in the weld.
Tumuluru, Welding and Joining of Advanced High Strength Steels (AHSS), Elsevier Science, 2015
Zhou, Effect of Laser Welding on Formability of DP980 steel, Journal of Engineering Materials and Technology 130 (2008) 041004-041004
Sietsma, Overview of Mechanisms Involved During the Quenching and Partitioning Process in Steels, Metallurgical and Materials Transactions A 42 (2011) 3620-3626

As template agent, it can induce the shape of the material skeleton to get the nanoscale catalyst.
[41] LF Zubeir, C Held, G Sadowski, PC-SAFT Modeling of CO2 Solubilities in Deep Eutectic Solvents, Journal of Physical Chemistry B. 120 (2016) 2300-2310
[44] B Liu, J Zhao, F Wei, Characterization of caprolactam based eutectic ionic liquids and their application in SO2 absorption, Journal of Molecular Liquids. 180 (2013) 19-25
[46] GH Li, DS Deng, YF Chen, Solubilities and thermodynamic properties of CO2 in choline-chloride based deep eutectic solvents, Journal of Chemical Thermodynamics. 75 (2014) 58-62
Ionothermal synthesis of amorphous vanadium phosphate catalyst in eutectic mixture for oxidation reaction.journal of molecular catalysis (china) 28(2014)105-111

The flyer plate and base plate materials used in this study were stainless steel and regular steel.
(2) Where E is the maximum energy provided by unit area materials under weldability condition, is the density of the flyer plate materials, is the thickness of the flyer plate.
Atomic diffusion behavior in Cu-Al explosive welding process, Journal of Applied Physics. 113(2013) 044901
Recent Developments in Explosive Welding, Materials and Design. 32(3) (2011) 1081-1093
Dynamic behavior of materials, John Wiley &Sons, Inc; (1994)

Hydrogen storage of Carbon nanotubes: Theoretical Studies Yanjin Wang1, a, Lieyan Wang1,b, Shubo Wang1, c, Ling Wu1, Qingze Jiao1 1Department of chemical engineering and materials science, Zhuhai Campus, Beijing institute of technology, P.
Carbon nanotubes (CNTs) have been proposed as a possible hydrogen storage material.
DFTB has been proven extremely useful and reliable in simulations of large systems with hundreds of atoms or highly predictive materials using either cluster models or placed in supercells [18-19].
Becher, Journal of Nanoscience and Nanotechnology Vol. 3 (2003), p. 3 [3] C.
Dresselhaus, Science Vol. 1127 (1999), p. 286 [4] V.V.