Search results

Introduction Each day reveals new materials that could be applied in different areas of mechanical engineering.
In most of these materials processing by conventional methods is a major problem due to breakage and tool wear, uneconomical or even impossibility of processing, while the non-traditional manufacturing processes are applied without the usual restrictions on the mechanical properties and machinability of materials.
Abrasive particles are made ​​of various materials, sizes and shapes, depending on the application.
Wang, Optimizing the AWJ cutting process of ductile materials using nozzle oscillation technique, International Journal of Machine Tools and Manufacture. 42 (2002) 781–789
Journal of Materials Processing Technology. 147 (2004) 389-396

For residential architecture, life cycle is the whole process of the residence preliminary planning, design, production of construction materials and components, project construction, use and repair and scrap treatment and recycling.
In the framework of life cycle, sustainable housing construction project requires that residence products from mining, the producing until reusing after being removed of building materials fully ought to consider the influence on the environment and cost management, its goal is to minimize the whole life period's impact on the environment and the cost[5].
He must also have the knowledge of sustainable development, knowing what works and knowing all kinds of materials, equipment and system.
We will set a target that is higher but can to be reached for sustainable development, but we must obtain reliable information about engineering materials, equipment, system innovation and innovation of science and technology.
References [1] Gao Y.B, Sustainable Residential Theory Construction and Its Evaluation, Journal of North University of China (natural science edition), (2008), pp. 473-478

The materials were loaded in a graphite crucible which was placed in a vacuum induction furnace.
Before the materials were heated, the furnace was pumped to vacuum and then was filled with pure argon gas.
After the materials were melted, the melt was poured in a permanent mould to form as-cast specimens.
Kubota, Journal of Materials Science 37,51 (2002) [9] R.
Materials Letters .62, 1846, (2008) [18] R.

Cai:Materials Letters Vol. 65 (2011), p. 497 [3] Q.
Pang: Molecular Sieve and Porous Materials Chemistry (in Chinese), (Science Press, Beijing 2004) [5] X.Y.
Xin: Transactions of Materials and Heat Treatment Vol. 27 (2006), p. 41 [7] M.
Xin: Materials Research Innovations Vol. 12 (2008), p. 84 [9] A.Tuel, Y.
Guo, et al: Chinese Journal of Catalysis (in Chinese) Vol. 24 (2003), p. 132 [11] N.R.Yang: Testing Technique of Inorganic Metalloid Materials (in Chinese), (Wuhan Univeristy of Technology Press, Wuhan 1994) [12] T.

These materials can be obtained through emulsion polymerization[3].
Materials and methods Materials.
All materials were produced with high solid contents (43 wt%).
Journal of Applied Polymer Science, 1997. 65(12): p. 2343-2355
Journal of Applied Polymer Science, 2003. 89(10): p. 2749-2756.

Ibragimov1,e 1National Research Tomsk Polytechnic University, Tomsk, Russia 2Institute of Strength Physics and Materials Science SB RAS asapraa@tpu.ru, bsharkeev@ispms.tsc.ru, csaprikina@tpu.ru, dkhimich@ispms.tsc.ru, eegor83@list.ru Keywords: alloy, structure, property, melting, additive technologies, selective laser melting, metal powder material.
Powder materials were melted in a pre-vacuumed argon-filled chamber.
Babakova, Phase Composition and Microstructure of Ti-Nb Alloy Produced by Selective Laser Melting, IOP Conference Series: Materials Science and Engineering, 2016, 140(1), 012020
Suryanarayana, Mechanical alloying and Milling, Progress in Materials Science, 2001, vol. 46, pp. 1-184
Ping Huang, Lopez Strain induced ε-martensite in a Co–Cr–Mo alloy: grain size effects, Materials Letters, 39, 1999, pp. 244-248.

Dunand: Advanced Engineering Materials Vol 6 (6) (2004), p. 369
Caram: Materials Science and Engineering C (2007) in press
Oksiuta: Materials Characterization Vol 46 (2001), p. 221
Wang: International Journal of Mechanical Sciences Vol 47 (2005), p. 744
Zhao: Materials Letters Vol 60 (2006), p. 1665

Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 233 (2019) 3487-3511
Journal of Mechanical Science and Technology 32 (2018) 5421-5432
Journal of Manufacturing and Materials Processing 4 (2020), 24
Applied Mechanics and Materials 162 (2012) 403-412
Applied Mechanics and Materials 906 (2022) 41–58.

Mechanical and thermal properties of kaolin/Natural rubber nanocomposites prepared by the conventional two-roll mill method Qian zhang1, a, Yude zhang1 and Yan Wang2 1 School of Materials Science and Engineering, Henan Polytechnic University, Jiaozuo 454000, China 2 Center of quality inspection and testing, Jiaozuo Bureau of quality and technical supervision, Jiaozuo 454002 azhangqian361@hotmail.coml Keywords: Kaolinite, Natural rubber, Reinforcement, Mechanical property.
Experimental 2.1 Materials.
Qammar: Materials Science and Engineering Vol. 30 (2010), p. 590
Haydn: Applied Clay Science Vol.17 (2000), p. 207
Wu: European Polymer Journal Vol. 41 (2005a), p. 2776

The Cr and Ni content of these materials are high, while the carbon content is controlled within the range of ultra-low.
These materials have better corrosion resistance, but they are of low hardness, which results in poor wear resistance [5-7].
These traditional materials can no longer meet the needs of production development.
[2] Lianping Cheng, Qilong Yong and Guoliang Zhang: Journal of Kunming University of Science and Technology (Science and Technology Edition). 2002. 27 (2): 36-39,42,In Chinese
[7] Youping Ma,Xiulan Li and Yugao Liu et al.: Bulletin of Materials Science, 2013, Vol.36 (5), pp.839-844 [8] Hanguang Fu, Xiaojun Wu and Xueyi Li, et al.: Materials Engineering and Performance, 2009, Vol.18 (8), pp.1109-1115 [9] Yuncheng Hou, You Wang and Zhaoyi Pan,et al.