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Frost: Journal of colloid and interface Science Vol. 296 (2006), p. 572
Bartlett: Journal of colloid and interface Science Vol. 247 (2002), p. 132
Lu: Applied Materials & Interfaces Vol. 6 (1) (2014), p. 655
Souza Santos: Materials Chemistry and Physics Vol. 76 (2002), p. 267
Moselhey: Natural Science Vol. 4 (1) (2012), p. 57.

Journal of Material Engineering.
Journal of Science of Sintering.
Journal of Materials Science and Applications.
Journal of Materials.
Journal of Biomedical Materials Research.

Study on performance of 8YSZ thick gradient TBC Jin Qin1, a, Gang Chen2, b, Zhi-ming Du3, c*, Yu-hui Jin4, a 1,3,4School of Material Science and Engineering, Harbin Institute of Technology, Harbin, China 2School of Material Science and Engineering, Harbin Institute of Technology, Weihai, China aqinjin@hit.edu.cn, bgangchen@hit.edu.cn, cduzm@263.net * corresponding author.
NiCoCrAlY alloy powder was used as bottom bonding materials, 8YSZ (8mol% yttrium stabilized zirconia) was used as top layer materials and the different proportions mixed powder of 8YSZ and NiCoCrAlY was used as gradient layers materials.
Bonding layer materials is NiCoCrA1Y and thickness of bonding layer is 120μm.
Journal of the European Ceramic Society. 2000, 20:2779-2787
Journal of the European Ceramic Society, 2004, 24: 1095-1099.

Investigation of High Strength Steel for Automotive Roll-Forming Parts Peijie Yan1, a, Jingtao Han1, b, Zhengyi Jiang2, c, Heijie Li1, 2, d and Lixian Liu1, e 1School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, P.R.
In principle, all conductive materials and semiconductor materials can be induction heated.
Journal of Materials Processing Technology Vol. 186 (2007), p. 77
Journal of Materials Processing Technology Vol. 210 (2010), p. 2103
Journal of Materials Processing Technology Vol. 210 (2010), p. 2103

Study on the Energy-efficient Production of Fuel Ethanol by Cassava Absorbent Jia Song1, a, Yuelin Zhu2,b, Si Zhang3,c 1School of Material Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China 2School of Material Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China 3School of Material Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China asongjiacat@sina.cn, bylzhu@buaa.edu.cn, cgatx8686@163.com Keywords: fuel ethanol, cassava adsorption, ethanol dehydration, fixed-bed Abstract.
Low concentrations of ethanol is produced by cassava fermentation, high concentrations of ethanol is produced by low concentrations of ethanol distillation, then, ethanol is produced by cassava adsorbent from high concentrations of ethanol, at last, the failure of cassava adsorbent return to the fermentation process as the raw materials.
Materials and instruments Materials. 95% ethanol (V/V , C.P. ), ethanol( ≥99.7%, M/M C.P.), cassava powder(It was made by cassava planted in Guangxi and Fujian province, used as adsorbent, at a certain size, dried in oven at 105℃ for 8h and saved in dry box ) Instruments.
If the particle size is too large, the contact area between fluid and materials will descend, this will reduce adsorption capacity of water.
Poizat: submitted to Joumal of Zeolites (1997) [6] Grażyna Lewandowicz, Wojciech Białas, Bartłomiej Marczewski and Daria Szymanowska: submitted to Journal of Membrane Science (2011) [7] Xiuli Han, Xiaojian Ma, Jindun Liu and Hongping Li: submitted to Journal of Carbohydrate Polymers (2009) [8] Jarkko Helminen, Mika Leppämäki, Erkki Paatero and Pentti Minkkinen: Chemometrics and Intelligent Laboratory Systems (1998) [9] Hu-Ping Luo and Wen-De Xiao: submitted to Journal of Chemical Engineering Science (2011)

Le Saunier, Laser shock peening of Ti-17 titanium alloy: Influence of process parameters, Materials Science and Engineering: A, 532 (2012) 362-372
Jones, Development of ultrasonic fatigue for rapid high temperature fatigue studies in turbine engine materials, Materials Damage Prognosis, (2005) 247-252
Jones, Ultrasonic fatigue of a single crystal Ni-base superalloy at 1000°C, Materials Science and Engineering: A, 443 (2007) 142-149
Stanzl-Tschegg, Influence of loading frequency on the high cycle fatigue properties of AlZnMgCu1.5 aluminium alloy, Materials Science and Engineering A, 314 (2001) 48 - 54
Stanzl-Tschegg, Influence of loading frequency on high cycle fatigue properties of b.c.c. and h.c.p. metals, Materials Science and Engineering: A, 308 (2001) 143-152

A material can become dry if the air has a lower water vapor content than the dried material [10].
Materials and Method The material used in this research was teak wood powder.
This indicates that a drying temperature of 100 °C, a drying time of 12 hours, a carbonization temperature of 450 °C, and a carbonization time of 60 minutes produce the most volatile materials.
Chinyere, The International Journal Of Science & Technoledge An Evaluation of Briquettes from Sawdust and Corn Starch Binder Abstract, vol. 2, 7 (2014) 149–157
Musabbikhah, Optimizing the Pyrolysis Process and Modelling the Calorific Value of Sawdust Charcoal as Composing Materials of Quality Briquettes, (2019)263–267

Swain, An experimental investigation of hot machining to predict tool life, Journal of Materials Processing Technology, vol. 198, (2008) 344–349
Maekawa, Plasma hot machining for new engineering materials, Wear, vol. 139, (1990) 251-267,
Ahmed, Hot machining process for improved Metal Removal Rates in turning operations, Journal of Materials Processing Technology, vol. 44, (1994) 199-206
Mehta, Machinability studies in hot machining of Ti-6Al-4V, Advanced Materials Research. vols. 622-623 (2013) 361-365
Senthilvelan, Optimizing the process parameters on tool wear of WC insert when hot turning of AISI 316 stainless steel, ARPN Journal of Engineering and Applied Sciences, (2010) [12] S.

Over the years, a large amount of studies have been done in mechanics, materials science and physics fields [1, 2] to form a new cross-subject.
Various analytical and numerical approaches have been proposed for the analysis of the advanced smart materials.
Kuo: Journal of Applied Physics, Vol. 81(1997), p. 1378
Ni: Journal of Magnetism and Magnetic Materials, Vol. 321(2009), p. 1867
Shen: International Journal of Engineering Science, Vol. 41(2003), p. 85

Experimental Materials and specimens.
Tensile properties, Materials Science and Engineering A 367 (2004) 96-110
Rettenmayr, Effect of cooling rate on the solidification behaviour of Al–Fe–Si alloys, Materials Science and Engineering A 283 (2000) 218–224
Kaufman, The effects of Mn additions on the microstructure and mechanical properties of Al–Si–Cu casting alloys, Materials Science and Engineering A 488 (2008) 496–504
Kattamis, Tribological properties of SiCp-reinforced Al-4.5%Cu-1.5%Mg alloy composites, Materials Science and Engineering A 163 (1993) 107-113