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The primary gangues in the material are titanaugite and plagioclase.
The materials (50g per batch) were fully mixed at a solid concentration around 10% and evenly fed to the separator within 15-20 s.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51104076) and the Research Fund of Young Scholars for the Doctoral Program of Higher Education of China (20115314120006) and the major program of the National Natural Science Foundation of China (51090385).
Chen: International Journal of Mineral Processing. 54 (2), 111-127 (1998)
Wen: submitted to International Journal of Mineral Processing. (2012)

RS3 in beans is important raw material and has been widely used in food, textile, chemical and packaging materials and other fields [13, 14].
Materials and methods Materials Cowpea: commercially available; cowpea starch: self-product; heat-resistant α-amylase (20000 U/mL): Shandong Anke biotechnology limited; pullulanase (400 U/mL): Novozyme company in Denmark; pepsin (P7000): Sigma company in American; other reagents were analytical pure.
Jacobasch: Journal of Applied Microbiology Vol. 93 (2002), p. 157 [2] H.
Younes: British Journal of Nutrition Vol. 86 (2001), p. 479 [3] E.M.
Shimoni:Carbohydrate Polymers Vol. 54 (2003), p. 363 [10] Hua-dong Zhang, Miao Zhang, Xiaoping Shen, Xiaoli Lu: Food Science Vol. 28 (2007), p. 237 [11] Xiaoyan Hao, Jusong Zhang, Weihong Gu and Hao Ma: Journal of the Chinese Cereals and Oils Association Vol.24 (2009), p. 168 [12] Xiangdong Xu: Studies on the properties of starches and proteins in beans (small red bean, large red bean and scarlet runner bean).

The raw materials used in the study are from local sources.
Experimental Procedure 2.1 Raw materials for clay brick.
Result and Discussion 3.1 Characterization of raw materials.
The Chemistry and Physics of Clays and Allied Ceramic Materials.
Journal of Science Research. (2011) 24(2),168 – 180

[Proposed Methods] B. campestris ssp. pekinensis ‘Futian 50’ and B. campestris ssp. pekinensis ‘Changkuai’ were used as the experimental materials, then their microspores were cultured in NLN media.
Materials and methods Plant material for culture B. campestris ssp. pekinensis ‘Futian 50’ and B. campestris ssp. pekinensis ‘Changkuai’ were used as the experimental materials.
Zhao: Journal of Shanxi Agricultural Sciences, Vol. 36(8), p.26 (2008) [4] Y.H.
Zhang: Journal of Gansu Agricultural University, Vol. 44(3), p. 45 (2009) [6] S.X.
Zhang: Journal of Agricultural University of Hebei, Vol. (22): p. 65 (1999) [7] W.S.

Most modern microelectronic devices have benefited from the research and development of silicon materials, and further research on silicon materials will have great application value [4].For example, the research of field-effect transistors based on zero- and one-dimensional silicon materials has matured [5], however, there seems not enough research into two-dimensional silicon materials.
Studies have demonstrated that two-dimensional silicon materials have great advantages over one-dimensional silicon materials with respect to realizing field-effect transistors (FETs).
It would thus be instructive and useful to manufacture nanoscale materials.
Science China Information Sciences, Vol. 6 (2012) No. 55, p. 1469
Computational Materials Science, Vol. 1 (1996) No. 6, p. 15

Introduction The solid oxide fuel cell (SOFC) is a multilayered structure consisting of a porous cathode, dense electrolyte, porous anode and interconnecting materials.
Jiang, Journal of Materials Science, 38 (2003) 3775
Stover, Journal of Materials Science, 36 (2001) 147
Tietz, Journal of Materials Science, 40 (2005) 2471
Deevi, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 362 (2003) 228.

Modification of manganese ore is of great significance on the preparation of new materials as well as on the repair engineering of arsenic-polluted water.
[3] Jeon C S, Baek K, Park J K et al.: Journal of Hazardous Materials Vol. 163 (2009), p. 804-808
[4] Chen H M, Lei J, Wang D M: Science and Technology of Advanced Materials Vol. 8 (2007), p. 63-66,in Chinese
[6] Huifeng Liang, Zichuan Ma, Zhang Jie et al.: Journal of Safety and Environment Vol. 21 (2004), p. 966-969, in Chinese
[7] Huifeng Liang, Zhanniu Liu, Zichuan Ma: Journal of Hebei University Vol. 25 (2005), p. 315-319, in Chinese

Zhu, Simulation Study on the LPDC Process for Thin-Walled Aluminum Alloy Casting, Materials and Manufacturing Processes 24 (2009) 1349-1353
Djurdjevic, et al., On-line prediction of the melt hydrogen and casting porosity level in 319 aluminum alloy using thermal analysis, Materials Science and Engineering: A 428 (2006) 41-46
Cockcroft, Development of a 3-D thermal model of the low-pressure die-cast (LPDC) process of A356 aluminum alloy wheels, Materials Science and Engineering: A 464 (2007) 295-305
Jiang, et al., Low-pressure die casting of magnesium alloy AM50: Response to process parameters, Journal of Materials Processing Technology 205 (2008) 224-234
Ma, et al., Effect of cooling rate on solidified microstructure and mechanical properties of aluminium-A356 alloy, Journal of Materials Processing Technology 207 (2008) 107-111.

Kwon: Journal of Materials Processing Technology, Vol. 124 (2002), pp.49
Zhou: Journal of Materials Processing Technology, Vol. 79 (1998), pp.20
Taheri: Materials Letters, Vol. 21 (2007), pp.4110
Park: Materials Science and Engineering, Vol. 384 (2004), pp.70
Lim..: Materials Science Forum, Vol. 475-479 (2005), pp.967.

Introduction As the lightest metallic materials in engineering, magnesium alloy is known as the “21st Century Green Engineering Materials” [1].
Hunan: Materials Processing Engineering, Central South University, 2011
Chinese Journal of Nonferrous Metals, 2011, 21(11):2710-2718
Ordnance Material Science and Engineering, 2013, 36(5):17-20
Chinese Journal of Nonferrous Metals, 2010, 20(5):807-812.