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Online since: March 2013
Authors: Lan Chen, Yun Hui Xie, Chun Hua Lin, Song Du
All these factors shorten the drying time without damaging the materials, even the heat sensitive products [1].
Table 1 Composition of the Wet Granules Composition Content [Kg] Cornstarch 10.625 Malto Dextrin 0.625 Microcrystalline cellulose 1.250 Water 7.500 Materials and Methods Granules.
All the raw materials were obtained from approved suppliers and conformed to the National Standards of Peoples Republic of China and Chinese pharmacopoeia.
The increasing of water and material load decreases the resonance frequency and increases the frequency band width simultaneously due to the decrease of the wavelength and the losses of microwave energy inside the material.
Mann, Online measurement and control of solids moisture in fluidised bed dryers, Chemical Engineering Science. 64 (12) (2009) 2893-2902
Table 1 Composition of the Wet Granules Composition Content [Kg] Cornstarch 10.625 Malto Dextrin 0.625 Microcrystalline cellulose 1.250 Water 7.500 Materials and Methods Granules.
All the raw materials were obtained from approved suppliers and conformed to the National Standards of Peoples Republic of China and Chinese pharmacopoeia.
The increasing of water and material load decreases the resonance frequency and increases the frequency band width simultaneously due to the decrease of the wavelength and the losses of microwave energy inside the material.
Mann, Online measurement and control of solids moisture in fluidised bed dryers, Chemical Engineering Science. 64 (12) (2009) 2893-2902
Online since: October 2013
Authors: Jing Huai Li, Xiao Feng Zhang, Bin Lin, Zi Cai Jin, Shuang Qiu
Fig.6 The local split position Fig.7 Physical graph of local segmentation position
The porous materials whose average porosity is 2 µ without processed and the average porosity is
5 µ with initial grinding are selected to divided into 10mm × 10mm × 10mm small cube with EDM.
Therefore, milling and initial grinding make the distributed of porous materials permeability very unevenly.
Acknowledge This work is supported by the National Natural Science Foundation of China (No.51205285).
This work is supported by the National Science and Technology Major Project (2011ZX04016-011) References [1] Kwan Y B P, Corbett J: Wear Vol.222 (1998), p. 69 [2] J.H.
Sheinberg: Machine and Tooling Vol.31(1960), p. 24 [5] Mori H, Yab H, Shibayama T: Journal of Basic Engineering Vol.87 (1965), p. 622
Therefore, milling and initial grinding make the distributed of porous materials permeability very unevenly.
Acknowledge This work is supported by the National Natural Science Foundation of China (No.51205285).
This work is supported by the National Science and Technology Major Project (2011ZX04016-011) References [1] Kwan Y B P, Corbett J: Wear Vol.222 (1998), p. 69 [2] J.H.
Sheinberg: Machine and Tooling Vol.31(1960), p. 24 [5] Mori H, Yab H, Shibayama T: Journal of Basic Engineering Vol.87 (1965), p. 622
Online since: November 2011
Authors: Chang Hu Xue, Lai Hao Li, Xian Qing Yang, Sheng Jun Chen, Yan Yan Wu, Shu Xian Hao, Jian Wei Cen, Bo Qi
Materials and methods
Materials
Deep-frozen tilapia fillets were purchased from a company in Guangzhou, Guangdong Province, China, with an average weight of 105g/fillet.
:Journal of the Science of Food and Agriculture, Vol.85(2005): p.2054-2060
[8] Leroi F., Arbey N., Joffraud J. & Chevalier F.: International Journal of Food Science and Technology, Vol. 31(1996), p.497-504
A.: Journal of Food Science, Vol. 49(1984), p. 734-736
W. : Journal of Food Safety, Vol.20(2000),p.251-268
:Journal of the Science of Food and Agriculture, Vol.85(2005): p.2054-2060
[8] Leroi F., Arbey N., Joffraud J. & Chevalier F.: International Journal of Food Science and Technology, Vol. 31(1996), p.497-504
A.: Journal of Food Science, Vol. 49(1984), p. 734-736
W. : Journal of Food Safety, Vol.20(2000),p.251-268
Online since: January 2014
Authors: Yong Tao Gao, Ai Ping Cheng, Chao Liu, Jin Fei Chai
The rock material property parameters are shown in table 1.
In Chinese [5] P Q Li, H Y Bai, J Ma, et al.: Coal Science and Technology, Vol. 40(2012), p. 35.
In Chinese [6] R Zhang, Z Q Jiang, X H Li, et al.: Journal of China Coal Society, Vol. 38(2013), p. 67.
In Chinese [7] F X Jiang, C W Wang, S H Yang.: Coal Science and Technology, Vol. 35(2007), p. 2667.
In Chinese [10] X Y Wei, Q Wu, S X Zhao.: Journal of China Coal Society, Vol. 29(2004), p. 704.
In Chinese [5] P Q Li, H Y Bai, J Ma, et al.: Coal Science and Technology, Vol. 40(2012), p. 35.
In Chinese [6] R Zhang, Z Q Jiang, X H Li, et al.: Journal of China Coal Society, Vol. 38(2013), p. 67.
In Chinese [7] F X Jiang, C W Wang, S H Yang.: Coal Science and Technology, Vol. 35(2007), p. 2667.
In Chinese [10] X Y Wei, Q Wu, S X Zhao.: Journal of China Coal Society, Vol. 29(2004), p. 704.
Online since: May 2011
Authors: Ji Shou Niu, Pei Ming Wang, Hu Xing Chen, Xian Wei Ma
Journal of Wuhan University of Technology (Materials Science Edition), 2010, 25(5): 838-844
[3]Xianwei Ma, Huxing Chen, Peiming Wang.
Journal of Wuhan University of Technology (Materials Science Edition), 2009, 24(5):830-833 [4]Xianwei Ma, HuXing Chen.
Materials Characterization, 60(2009),749 -755
Beijing: China Building Materials Academy.2005.
Revista Romana de Material-Romanian Journal of Materials, 38(2008), 193-202
Journal of Wuhan University of Technology (Materials Science Edition), 2009, 24(5):830-833 [4]Xianwei Ma, HuXing Chen.
Materials Characterization, 60(2009),749 -755
Beijing: China Building Materials Academy.2005.
Revista Romana de Material-Romanian Journal of Materials, 38(2008), 193-202
Online since: September 2013
Authors: Tong Zhang
The current research and development of intelligent textile fibers brings more conveniences to human life, with the popularization and promotion of high-tech life, in the use and development of textile fibers people also enter the intelligent phase, the development of science and technology provide a reliable technical support for the fiber material development.
The concept of "Intelligent materials" was first proposed by Dr.
Currently, there are a variety of materials can be used for fiber’s intelligent processing by coating method.
Generation and development of intelligent temperature-controlled fiber, Shanghai Wool & Jute Journal.2012 (1):29~32 [2]Han Na, Zhang Rong, etc.
Textile Research Journal, 1986, 56(12) [7]Shi Haifeng, Zhang Xingxiang.
The concept of "Intelligent materials" was first proposed by Dr.
Currently, there are a variety of materials can be used for fiber’s intelligent processing by coating method.
Generation and development of intelligent temperature-controlled fiber, Shanghai Wool & Jute Journal.2012 (1):29~32 [2]Han Na, Zhang Rong, etc.
Textile Research Journal, 1986, 56(12) [7]Shi Haifeng, Zhang Xingxiang.
Online since: February 2009
Authors: Pai Shan Pa
Acknowledgement
The current study is supported by National Science Council, contract 97-2410-H-152-016.
Ahujab: Indian journal of engineering & materials sciences, Vol.11(2004), No. 5, pp. 391-396
Hassan: Journal of Materials Processing Technology, Vol.72 (1997), pp. 385-391
Chu: Journal of Micromechanics and Microengineering, Vol.15 (2005), pp.124-129
Pa: Key Engineering Materials, Vol. 329 (2006), pp. 231-236
Ahujab: Indian journal of engineering & materials sciences, Vol.11(2004), No. 5, pp. 391-396
Hassan: Journal of Materials Processing Technology, Vol.72 (1997), pp. 385-391
Chu: Journal of Micromechanics and Microengineering, Vol.15 (2005), pp.124-129
Pa: Key Engineering Materials, Vol. 329 (2006), pp. 231-236
Online since: July 2011
Authors: Cheol Woo Park, Sang Ryong Lee, Geun Sub Heo, Oh Hyun Kang, Choon Young Lee
Table 2 and table 3 show characteristic of materials which were used.
Thus, the thickness of the material can be changed further.
Table 4 shows simulation result for 2.0mm, 1.7mm, 1.4mm and 1mm thickness of the material.
Acknowledgements This work was supported by ‘the Grant of the Korean ministry of Education, Science and Technology’ (The Regional Core Research Program/Anti-aging and Well-being Research Center) and Priority Research Centers Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (2010-0020089).
Tanner : The effect of plastic deformation and residual stress on the permeability and magnetostriction of steels, Journal of Magnetism and Magnetic Materials 222 (2000) 291-304 [9] Hidehiko Numasato , Masayoshi Tomizuka : Settling control and performance of a dual-actuator system for hard disk drives, IEEE/ASME TRANSACTIONS ON MECHATRONICS, VOL. 8, NO. 4, DECEMBER 2003, pp. 431-438 [10] MP Norton, DG Karczub : Fundamentals of noise and vibration analysis for engineers, Cambridge University Press 2003
Thus, the thickness of the material can be changed further.
Table 4 shows simulation result for 2.0mm, 1.7mm, 1.4mm and 1mm thickness of the material.
Acknowledgements This work was supported by ‘the Grant of the Korean ministry of Education, Science and Technology’ (The Regional Core Research Program/Anti-aging and Well-being Research Center) and Priority Research Centers Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education, Science and Technology (2010-0020089).
Tanner : The effect of plastic deformation and residual stress on the permeability and magnetostriction of steels, Journal of Magnetism and Magnetic Materials 222 (2000) 291-304 [9] Hidehiko Numasato , Masayoshi Tomizuka : Settling control and performance of a dual-actuator system for hard disk drives, IEEE/ASME TRANSACTIONS ON MECHATRONICS, VOL. 8, NO. 4, DECEMBER 2003, pp. 431-438 [10] MP Norton, DG Karczub : Fundamentals of noise and vibration analysis for engineers, Cambridge University Press 2003
Online since: June 2022
Authors: Hung Le Xuan, Duy M.P. Vo, Chokri Cherif, Andreas Nocke, Cornelia Sennewald, Anke Golla, Michael Vorhof, Gerald Hoffmann
M.: Concrete: Microstructure, properties, and materials. 4th Edition.
In: Journal of Sustainable Cement-Based Materials 2 (2013) 1, pp. 1–12. – DOI. 10.1080/21650373.2012.757831 [12] Sasi, E.
In: Materials Science and Engineering: A 539 (2012), pp. 185–193. – DOI. 10.1016/j.msea.2012.01.079 [31] Hammetter, C.
In: Journal of Mechanics of Materials and Structures 2 (2007) 2, pp. 347–358. – DOI. 10.2140/jomms.2007.2.347 [34] Whitman, Z.; La Saponara, V.: Bistable structures for energy absorption, II: Composite structures under tension.
In: Journal of Mechanics of Materials and Structures 2 (2007) 2, pp. 359–375. – DOI. 10.2140/jomms.2007.2.359 [35] Gong, T.; Heravi, A.
In: Journal of Sustainable Cement-Based Materials 2 (2013) 1, pp. 1–12. – DOI. 10.1080/21650373.2012.757831 [12] Sasi, E.
In: Materials Science and Engineering: A 539 (2012), pp. 185–193. – DOI. 10.1016/j.msea.2012.01.079 [31] Hammetter, C.
In: Journal of Mechanics of Materials and Structures 2 (2007) 2, pp. 347–358. – DOI. 10.2140/jomms.2007.2.347 [34] Whitman, Z.; La Saponara, V.: Bistable structures for energy absorption, II: Composite structures under tension.
In: Journal of Mechanics of Materials and Structures 2 (2007) 2, pp. 359–375. – DOI. 10.2140/jomms.2007.2.359 [35] Gong, T.; Heravi, A.
Online since: June 2019
Authors: Zheng Yang Hu, Qi Song, Shi Pan Yin, Hao Wang, Xian Yu Li, Zhao Hui Zhang
Krüger, Metal matrix composites based on Ti-6242 synthesized by Spark Plasma Sintering, Materials Science and Engineering: A, 732 (2018) 35-40
Wang, The influence of defect structures on the mechanical properties of Ti-6Al-4V alloys deformed by high-pressure torsion at ambient temperature, Materials Science and Engineering: A, 684 (2017) 1-13
Chen, Effects of direct rolling deformation on the microstructure and tensile properties of the 2.5vol% (TiBw+TiCp)/Ti composites, Materials Science and Engineering: A, 684 (2017) 645-651
Wang, The recrystallization behavior of surface deformation layer of (TiB+TiC)/Ti–6Al–4V composite during isothermal annealing, Materials Science and Engineering: A, 530 (2011) 239-243
Ji, Thermal relaxation of residual stresses in shot peened surface layer of (TiB+TiC)/Ti–6Al–4V composite at elevated temperatures, Materials Science and Engineering: A, 528 (2011) 6478-6483
Wang, The influence of defect structures on the mechanical properties of Ti-6Al-4V alloys deformed by high-pressure torsion at ambient temperature, Materials Science and Engineering: A, 684 (2017) 1-13
Chen, Effects of direct rolling deformation on the microstructure and tensile properties of the 2.5vol% (TiBw+TiCp)/Ti composites, Materials Science and Engineering: A, 684 (2017) 645-651
Wang, The recrystallization behavior of surface deformation layer of (TiB+TiC)/Ti–6Al–4V composite during isothermal annealing, Materials Science and Engineering: A, 530 (2011) 239-243
Ji, Thermal relaxation of residual stresses in shot peened surface layer of (TiB+TiC)/Ti–6Al–4V composite at elevated temperatures, Materials Science and Engineering: A, 528 (2011) 6478-6483