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For amorphous materials such as glass, the fragility of the material can be limited using surface reinforcement by chemical tempering.
Through the introduction of EEC, it is possible to use a classic formalism (second order) in the case of stressed materials.
In numerous cases, fields of stress appear during the processing of materials, with sudden variations in temperature often being the cause of residual stress.
In the context of amorphous materials such as glass, the fragility of the material can be limited using surface reinforcement by chemical or thermal tempering.
Jonson, The technology of chemical glass strengthening - a review, Glass technology-European Journal of Glass Science and Technology Part A, 51 (2010) 41-54

Materials Science and Engineering: A 286.1 (2000): 169-178
Materials Science and Engineering: A 366.1 (2004): 206-209
Materials Science and Engineering: B 97.1 (2003): 106-110
Journal of materials science 46 (2011): 3669-3686
Journal of Materials Science: Materials in Electronics 27 (2016): 5622-5627

Solution of Slope of a Frame Based on Simple Support Beam Coming from Method of Changing to Rigidity by Step Combined with Conversion Method Xiaojin Yu College of Civil Engineering and Architecture East China Jiaotong University Nanchang，Jiangxi, China email: yuxj_59@163.com Keywords: method of changing to rigidity by step; Conversion Method; internal force; deformation; displacement Abstract: The rigidity-step-change method is set up by Mechanics of Materials.
Journal of Jiangxi University of Science and Technology, Vol. 28-6(2007), p.50~52.
Journal of Jiangxi University of Science and Technology, Vol. 29-4(2008), p.36~38.
Qing Liu (translator), in: Structural Mechanics of Basic Structure, Science Press, Beijing (2009).
[15] Wenxuan Gou, in: Mechanics of materials(II), Science Press, Beijing (2010), p.39.

Evaluation indicators of NREBM fill the void in green evaluation of building materials.
At present, the green evaluation of building materials only evaluate single factor, for instance, merely evaluate CO2 emissions in the producing process of building materials, or barely emphasize on energy consumption in the producing process.
In this paper, building materials are evaluated based on the 6E evaluation indicators.
Journal of Approximate Reasoning, 1997, 16:309-334
Xue et al, Evaluation system on wall materials, China Building Materials Industry Press, Beijing. 2007.60

Optical Processing Damage Reduced by Polishing Technology with Material Removal in Elastic mode Wen Qiang PENG1,a*, Shu Ming YANG1,b, Ping YANG2,c and Qing Yu LI2,d 1College of Aerospace Science and Engineering, National University of Science and Technology, Changsha Hunan, 410073 China 2College of Intelligence Science and Technology, National University of Science and Technology, Changsha Hunan, 410073 China a*plxhaz@126.com, bYangsm@nudt.edu.cn, cYangp@nudt.edu.cn, dLiqy@nudt.edu.cn, Keywords: Processing damage; Damage model; Elastic mode; Material removal; hydrodynamic polishing Abstract.
Davis, Subsurface damage in optical materials: origin, measurement and removal[R].
Scattergood, Ductile-regime grinding: a new technology for machining brittle materials, J.
Houten, Three-body abrasion of brittle materials as studied by lapping, Wear, 166(1993) 237-245
Zhang, Study on removal mechanism of nanoparticle colloid jet machining, Advanced Materials Research, 53-54(2008) 363-368

This conference focused on advanced materials research in the forward-looking R&D domains where the intersection of key technologies in areas such as nano and micro-technology, biotechnology, stealth materials, smart materials and structures, and energy generation and storage is being explored.
He supervised 20 PhD and Pos-Doc scientific works and is member of the editorial board of several leading international scientific journals on composite and fibrous materials.
Previously, he worked as a Senior Researcher and Leader of Composite Materials at the Fibrous Materials Research Group (Fibrenamics), University of Minho, Portugal (2010-2018).
He has been invited to deliver keynote and invited talks in several international conferences and meetings focused on fibre science and composite materials.
Journal of Nanomaterials, Key Engineering Materials, International Journal of Polymer Science, Journal of Biobased Materials and Bioenergy, Advances in Polymer Technology, etc.) and is a potential reviewer for numerous scientific journals including Green Chemistry, Carbohydrate Polymers, Composite Science and Technology, Composites Part A & B, Dyes and Pigments, RSC Advances, Composite Interfaces, Journal of Composite Materials, Journal of Reinforced Plastics and Composites, Powder Technology, Journal of Nanomaterials, Journal of Applied Polymer Science, Fibres and Polymers, and so on.

Synthesis of MIL-125/Graphene Oxide Composites and Hydrogen Storage Properties Tian-bao Yang1, Li-xian Sun1,a, Fen Xu1,b, Zi-qiang Wang1,2, Yong-jin Zou1 and Hai-liang Chu1 1Guangxi Key Laboratory of Information Materials, School of Material Science and Engineering, Guilin University of Electronic Technology Guilin 541000, P.R.
All the materials showed a disk like morphology.
Gabelica: Energy & Environmental Science, Vol. 4 (2011) No.11, p.4522
Falcaro: Journal of Materials Chemistry A, Vol. 1 (2013) No.42, p.13033
Jiang: Energy & Environmental Science, Vol. 6 (2013) No.3, p.818

There is a recent trend to enhance the soil with natural material; because they are environmentally friend, cheap and available materials.
Materials and Methods The soil.
Zara, Strength and ductility of randomly distributed palm fiber reinforced silty-sand soils, American Journal of Applied Science, 5(3) 2008 209-220
Yang, Experimental study on unconfined compressive strength of basalt fiber reinforced clay soil, Advances in Materials Science and Engineering, (2015)
Soundara, Effect of fibers on properties of clay, International Journal of Engineering and Applied Sciences, 2(5) 2015

Optimization of factors influencing the aspect ratio of mullite whiskers based on single factor analysis and response surface methodology Bin MENG1,a, Jinhui PENG2,b 1School of Materials Science & Engineering, Kunming University of Science & Technology, Kunming, Yunnan Province, China, 650093 2Faculty of Metallurgy & Energy Engineering, Kunming University of Science & Technology, Kunming, Yunnan Province, China, 650093 ahitmengbin@163.com, bJ.H.Peng@kmust.edu.cn Keywords: Aspect ratio of mullite whiskers; Response surface methodology; Single factor analysis Abstract: The mullite whiskers were synthesized from commercial raw materials by sintering in air.
The powders, including raw materials and sintering assistant, were mixed and homogenized by ball milling in ethanol for 6h.
Journal of Materials Science Letter, 1985, 4: 1270-1272 [4] S.
Materials Letter, 2004, 58: 1288-1291 [6]A.
Journal of Materials Processing Technology, 2004, 145: 46-58

Journal King Saud UniversityEngineering Sciences
Journal of Materials Research and Technology, 2(2), 188-194
International Journal of Engineering Materials and Manufacture, 6(3), 176-186
In IOP Conference Series: Materials Science and Engineering (Vol. 413, No. 1, p. 012063).
Open Journal of Composite Materials, 9(03), 312