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Wood, stone, bricks, and tiles have become auxiliary temple construction materials, which are generally applied to walls and roofs [4].
Furthermore, traditional building materials, that is, opaque mixed concrete and brick, offer insufficient indoor lighting and necessitate the use of artificial light such as fluorescent or incandescent lamps.
To block the penetration of solar energy, when producing most types of glass, physical vapor deposition is typically employed to deposit layers of metallic materials on glass for forming a composite metal layer.
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Kao, “When Technology Encounters Culture : A Closer Watch on Dajia Mazu Patrol and Pilgrimage in Taiwan,” Journal of Geographic Information System, 2012, vol. 4, pp. 96-104

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The attainment of an efficient encapsulation requires a thermal interface material (TIM), such as thermal adhesives, greases, phase change materials (PCMs) and thermal pads.
Typical interface materials are prepared by silicone rubber filled with thermal conductive fillers.
CTE of composite materials and aluminum was in the same order of magnitude.
This flexible composite can be used as thermal interface materials.
Vol.10 (2010), p.359-363 [13] Agari Y, Ueda A, Nagai S: Journal of Applied Polymer Science.

Raw materials were mixed and milled with zirconia balls for 24 h.
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After cutting the sample longitudinally, the materials between the welding lines did not changed obviously.
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Template method is the main method for praparing the porous nano-metal materials.
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At present, scholars have put forward a lot of strength models about metal materials at high strain rate.
For a lot of metal materials, the description of deformation is quite accurate with J-C strength model.
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Microstructure and Young's Modulus of (TiZr)2-x(NbTaMo)x Bio-High Entropy Alloys Mitsuharu Todai1,a*, Nagi Takahashi1,b , Neiro Tanaka1,c, Daisuke Tanaka2,d, Takeshi Nagase3,e, Aira Matsugaki4,f, Takayoshi Nakano4,g 1Department of Environmental Materials Engineering, National Institute of Technology, Niihama College, 7-1 Yagumo-cho Niihama, Ehime 792-8580, Japan 2Graduate School of Information Sciences, Tohoku University, Sendai 6-3 Aramaki Aza-Aoba, Aoba-ku, Sendai, Miyagi 980-8579, Japan 3Department of Materials and Synchrotron Radiation Engineering, Graduate School of Engineering, University of Hyogo, Himeji 671-2280, Japan 4Division of Materials and Manufacturing Science, Graduate School of Engineering, Osaka University, 2-1 Yamadaoka, Suita, Osaka 565-0871, Japan am.todai@niihama-nct.ac.jp, bngi98824@icloud.com, cqcsx2den9pcibg50nwn1@docomo.ne.jp, ddaisuke.tanaka.b7@tohoku.ac.jp, et-nagase@eng.u-hyogo.ac.jp, fmatsugaki@mat.eng.osaka-u.ac.jp, gnakano@mat.eng.osaka-u.ac.jp
Keywords: High entropy alloys (HEAs), Bio metallic materials, microstructure, Young’s modulus Abstract.
Introduction High entropy alloys (HEAs) are defined by their mixing entropy, DSmix, and have recently attracted significant attention as a group of materials distinct from conventional metallic materials [1-4].
They exhibit particularly high strengths and are expected to be used as new refractory materials [5].
In general, metallic materials with a high yield strength tend to have a high Young's modulus, and it is considered that high-strength materials, such as TiZrNbTaMo bio-HEAs, also have a high Young's modulus.

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