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A Review on Water Footprint Research of Materials Industry Hualong Chen1,a, Yu Liu1,2,b*, Xianzheng Gong1,c, Liwei Hao3,d, Boxue Sun1,e, Xiaoqing Li1,f 1National Engineering Laboratory for Industrial Big-data Application Technology, Beijing 100124, China 2Beijing University of Technology, the Key Laboratory of Advanced Functional Materials, Ministry of Education of China, Beijing 100124, China 3Beijing Building Materials Academy of Sciences Research / State Key Laboratory of Solid Waste Reuse for Building Materials, Beijing 100041, China a2365993639@qq.com, b*liuyu@bjut.edu.cn, cgongxianzheng@bjut.edu.cn, dhlw717@126.com, esunboxue@bjut.edu.cn, flixiaoqing@bjut.edu.cn Keywords: Water footprint; Sustainable utilization; Research progress; Accounting methods Abstract.
Thirdly, the case studies on the water footprint of metallic materials, nonmetallic materials and chemical materials were reviewed to analyze its guidance significance on the sustainable development of water resources.
Water Footprint Application Research of Materials Products—Metallic Materials.
Water Footprint Application Research of Materials Products—Nonmetallic Materials.
Water Footprint Application Research of Materials Products—Chemical Materials.

Modern polymer materials have become important materials in science and technology and economic development because polymer material technologies are mature and same as metallic materials and inorganic nonmetallic materials. 2.1 Cold Insulation Material Properties Cold Insulation refers to heat insulation lower than the external environment temperature.
It is believed that polymer materials are important materials in cold insulation structures.
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Multi-disciplinary education: The last few years automotive engineering/service has grown rapidly and evolved to utilize new materials and components like plastics, aluminum, biological materials, semiconductors, software, and new production methods like gluing, welding of aluminum, and development of high reliant software and hence it comprises different disciplines like mechanics, electronics, informatics, etc.
Fig. 3: Objective of Engineering Education in Automotive Engineering/Service There are ten German university partners of AES major, seven of them focus on automotive service technology, which are Munich University of Applied Sciences (HS München), Berlin University of Applied Sciences (HTW Berlin), Cologne University of Applied Sciences (FH Köln), Bingen University of Applied Sciences (FH Bingen), RheinMain University of Applied Sciences (HS RheinMain), Coburg University of Applied Sciences (HS Coburg) and Ingolstadt University of Applied Sciences (FH Ingolstadt); and the remaining three focus on automotive service management, which are Esslingen University of Applied Sciences (HS Esslingen), Ostfalia University of Applied Sciences (HS Ostfalia), Zwickau University of Applied Sciences (HS Zwickau) (Fig.1).
Table 2 AES multi-disciplinary courses a Courses Disciple Mechanical Drawing & CAS Mechanical Fundamental of Mechanical Design Mechanical/Mechatronics Chemistry & Engineering Material (focus on automotive material) Chemistry/Material Electrotechnology & Electrics Measurement Electrics Electronics Electronics Fundamental of Mechanical Design Mechanical/Mechatronics Theoretical Mechanics Mechanics Engineering Mechanics Mechanics/Engineering Engineering Thermodynamics Mechanics/ hermophysics Mechanics of Materials Mechanics/Material Hydromechanics Hydromechanics Regional economy development & analysis Economy Electronics business Business Enterprise & Quality Management Management Information Technology & Logistics Informatics/Logistics Automatic Control Theory Control a Courses of automotive engineering and service are not included due to space constraints.
Journal of Engineering education, p. 235-236
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Electrolyte materials.
Catalyst materials.
Electrode materials.
Catalyst materials.
Catalyst materials.

In order to investigate the effects of TiN content on Al2O3/TiN ceramic material (ATN), the ATN ceramic materials were prepared of TiN content in 30%, 40%, 50%, 60% in the condition of hot press sintering.
It is indicated that the TiN content has important effect on microstructure and mechanical properties of ATN ceramic materials.
ATN ceramic materials have simple manufacturing process, better performance and lower cost, but their performances are general.
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This paper selects the dielectric properties of materials science, soil science, geophysics and other areas of computing model, comparative analysis of the applicability of various computational models.
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Emen, Formation of fire retardant properties in elastic silica coatings for textile materials, Materials Science Forum, 1006 (2020) 25–31
Savchenko, Thermodynamic study of fireprotective material, Materials Science Forum. 1038 (2021) 486–491
Kurska, Investigation of the processes of formation of a fire retardant coating, Materials Science Forum, 1038 (2021) 480–485
Obizhenko, Colloid-chemical regularities of reagent wastewater treatment of dairies, Materials Science Forum, 1038 (2021) 235–241
Romanova, Co-Мo-W galvanochemical alloy application as cathode material in the industrial wastewater treatment processes, Materials Science Forum, 1038 (2021) 251–257

This heating and air-conditioning lost can be reduced through many means, such as the selection of the building thermal insulation materials.
Insulation materials have to improve their performance and cost in this highly competitive market.
However, if the producers make these three novel materials occupy a prominent position in the market.
Investigations into composite materials using Aerogel could be carried out to maximise the performance and reduce the cost of the insulation materials.
(Aerogel-application-review-Pierre.pdf) [4]J.Fricke, A.Emmerling, Aerogels—Recent Progress in Production Techniques and Novel Applications, Journal of Sol-Gel Science and Technology 13, 299–303 (1998).

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Acknowledgement This item is subsidized by the Nature Science Foundation in China.
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Li: Journal of Mechanical Transmission.
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