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Sotiriadis, Determination of the Fire-Retardant Efficiency of Magnesite Thermal Insulating Materials to Protect Metal Structures from Fire, Materials Science Forum. 1038 (2021) 524–530
Guzii, et al., Thermal Behavior of an Intumescent Alkaline Aluminosilicate Composite Material for Fire Protection of Structural Elements, Journal of Materials in Civil Engineering. 31(6) (2019) 04019058
The influence of cavitation treatment on nanostructuring of alkali aluminosilicate binder for intumescent coatings, Materials Science Forum. 908 (2017) 63–70
Bachelet, et al., Influence of inorganic fillers on the fire protection of intumescent coatings, Journal of Fire Sciences. 31 (2013) 258–275
Zezulova, Thermal Insulating Materials for Energy Storage Application, Advanced Materials Research. 911 (2014) 30–35

The Preparation and Performance Research of the Desulphurization Gypsum Plaster Material Zhao Huanqi, Li Guozhonga* Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, University of Jinan, Jinan 250022, China a mse_ligz@ujn.edu.cn, * correspondence author Keywords: desulphurization gypsum; plaster material; retarder; setting times; mechanical properties.
The cementing material is the desulfurization gypsum.
The desulfurization gypsum is a cementing material.
Acknowledgements This work is supported by the National Natural Science Foundation of China under Grant No.50972051 and Natural Science Foundation of Shandong Province under Grant No.Y2008F12.
[3] A.J.Lewry, J.Williamson: JOURNAL OF MATERIALS SClENCE Vol. 29 (1994), p. 6085-6090.

There is a need to develop efficient UP methods that can manage the challenge in propagating various uncertainties across multiple scales to quickly assess probabilistic product performance in the hierarchical materials and product design.
Acknowledgment The grant support from National Science Foundation of China (10972034) and China Poster-doctoral Science Foundation (20090460216) are greatly acknowledged.
-J., and Mistree, F.: ASME Journal of Mechanical Design, 2006, 128(4):832-843
[5] Drugan, W.J. and Willis, J.R.: Journal of the Mechanics and Physics, 1996, 44(4):497-524
[7] Xiong, F., Yin, X., Chen, W. and Yang, S.: Journal of Engineering Optimization, accepted for publication, 2009.

Materials and Methods Experiment materials.
Experiment materials.
Table2 The crystalline parameters of 3 color materials.
Chinese journal of prosthodontics. 4[2](2003) 97
Part I:core materials, J.

Preparation of Porous ZnO Film by Zinc Oxalate Recurrence Method Yongqiang He1,2,a, Ronggang Huang3,b, Yu Liu2,3,c and Fubao Xing2,3,d* 1Department of Applied Chemistry, Yuncheng University, Yuncheng 044000, China 2School of Science, Tianjin University, Tianjin 300072; China 3School of School of Materials Science and Engineering, Tianjin University, Tianjin 300072; China aheyongqiang1985@126.com,brongganghuang@163.com,cliuyuls@163.com,dfbxing@yeah.net Keywords: Biomimetic, Porous materials, Natural polymer.
Steiner et al: Progress in Materials Science Vol. 50 (2005), p. 293-310
Kimura, et al: Journal of Sol-Gel Science Technology Vol. 29 (2004), p. 71-78
Kang at al: Journal of Luminescence Vol. 114 (2005), p. 118-125
Kubo et al: Chemistry of Materials Vol. 17 (2005), p. 3546-3551.

To the Question of the Cement-Polymer Composite Materials’ Rheological Properties N.N.
Introduction Cement-polymer composite materials have different requirements, depending on their purpose in the building complex [1-4].
Baskakov, On the issue of improving the quality of domestically produced building mortars, Research Journal of Applied Sciences. 9 (12) (2014) 1202-1205
Kukovitsky, Issa Jamal Issa Eleyan, Composite binders for finishing compositions, Construction Materials and Products. 1 (2) (2018) 37–44
Rakhimbaev, Calculation of the rate constants of some processes of technology of artificial conglomerates, Problems of materials science and improvement of the production technology of building products, BTISM, Belgorod, 1990.

In last decade, scientists have applied the technology to analyze surface morphology, such as micropore fractal, membrane, cement-based materials, coatings and food quality section [4-6].
Conclusions Research on the fibrous material image is a cross-research between image processing technology and material science.
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Gerlich, Joining of automotive sheet materials by friction-based welding methods: A review, Engineering science and technology, an international journal 21.1 (2018) 130-148
Anawa, and Abdul-Ghani Olabi, Control of welding residual stress for dissimilar laser welded materials, Journal of materials processing technology 204.1-3 (2008) 22-33
Chattopadhyay, Microstructure development during dissimilar welding: Case of laser welding of Ti with Ni involving intermetallic phase formation, Journal of materials science. 41 (2006) 643-652
Chattopadhyay, Phase formation in Ti/Ni dissimilar welds,  Materials Science and Engineering.
Kasai, Morisada, Y,Fujii, H, Dissimilar FSW of immiscible materials: steel/magnesium, Materials Science and Engineering: A 624 (2015) 250-255

Introduction With the modern industry’s rapidly development,the contradiction between man and nature has been deteriorated.The wall building material is one of the largest amount of construction materials in the world,it has caused a lot of load on the environment during its entire life cycle,including the production,construction,use and discard stage.How to evaluate the wall building material’s environment impact quantitative is becoming a key issue for the wall building material’s sustainable development.
The model based on China's national conditions, not only considered the wall material in the life cycle of the negative impact on the environment , Also taking into account the benefits of waste materials in the wall and other aspects of an active role.It can not only be used to evaluate the different wall building material’s enviorment impact ,but also can be used on the same wall at different stages of life cycle assessment analysis.
[M].Beijing: Science Press,2002 ,in Chinese
[2]Gong Ping, Study on Green Degree Evaluation System of Wall Building Materials [D].
[3] Wang jin, Zhang xu, Model improvement of inventory analysis on energy upstream phase based on life cycle assessment, Journal of Tongji university (natural science):2009,37(4):520-524,in Chinese

Materials Science and Engineering A406 (1-2), (2005), p. 63-73
Materials Science and Engineering A360 (2003), p. 372-376
Nafisi, R., Journal of Materials Science 41 (2006), p. 7954-7963
Materials Science and Engineering A 355 (2003), p. 325-330
Journal of Materials Processing Technology.