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Online since: December 2023
Authors: Raden Darmawan, Orchidea Rachmaniah, Nuniek Hendrianie, Sri Rachmania Juliastuti, Diva Veryna Widiantari, Erina Mega Ariyanto
The OPEFB passing 25-mesh screening was used as raw materials.
The raw materials mixed with 0.05 w/w NaOH pellets and water to achieve a concentration ratio of 3/50 (w/v) were pre-treated with either MP or PCP.
Experimental Materials Oil Palm Empty Bunches (OPEFB) fibers used in this research was 25 mesh (0.707 mm) in size.
Moreover, the materials used in this research were NaOH pellets that were used for assisting the physical treatment.
R., Pretreatment Technology of Lignocellulose Materials in Bioethanol Production Process, Industrial Biopropal, 2013, 4(1), 33–48
The raw materials mixed with 0.05 w/w NaOH pellets and water to achieve a concentration ratio of 3/50 (w/v) were pre-treated with either MP or PCP.
Experimental Materials Oil Palm Empty Bunches (OPEFB) fibers used in this research was 25 mesh (0.707 mm) in size.
Moreover, the materials used in this research were NaOH pellets that were used for assisting the physical treatment.
R., Pretreatment Technology of Lignocellulose Materials in Bioethanol Production Process, Industrial Biopropal, 2013, 4(1), 33–48
Online since: September 2011
Authors: Jun Liu, Rui Ping Tao, Jie Li, Wei Chen
The damping structure is inputted the AWE, the material parameters are set for the components of the damping structure, the material of the installation bracket and the MIMU is aluminum material, its elastic modulus value is, the Poisson's ratio value is 0.33, the density value is; the rubber absorber material properties are shown as: the elastic modulus value is, the Poisson ratio is 0.48, the density value is.
Liu: Journal of Chinese Inertial Technology.
[4] Y S Wang, C M Lee, and Y Xu: Journal of Sound and Vibration.
Zhang: Journal of Chinese Inertial Technology, Vol. 17 (2009), p.654
Zhang: Mechanical Science and Technology, Vol. 25 (2006), p.1114.
Liu: Journal of Chinese Inertial Technology.
[4] Y S Wang, C M Lee, and Y Xu: Journal of Sound and Vibration.
Zhang: Journal of Chinese Inertial Technology, Vol. 17 (2009), p.654
Zhang: Mechanical Science and Technology, Vol. 25 (2006), p.1114.
Online since: October 2011
Authors: Hai Feng Chen, Jian Hua Zhu, Ye Zhen Sun, Miao Gen Qian
China
2Huzhou Jintai Science and Technology Co.ltd, Huzhou 313000, P.
References [1] Z.G.Li, S.Miyake, M.Makino: Thin Solid Films Vol. 517 (2008), p. 699-703 [2] Anpo M, Takeuchi M.: Journal of Catalysis Vol. 216 (2003), p. 505-516 [3] Lindgren T, Mwabora JM, Avendano E, Jonsson J, Hoel A, Granqvist CG, Lindquist SE: Journal of Physical Chemistry B Vol. 107 (2003), p. 5709-5716 [4] Carcia PF, McLean RS, Reilly MH, Nunes G: Applied Physics Letters Vol. 82 (2003), p. 1117-1119 [5] Fortunato EMC, Barquinha PMC, Pimentel ACMBG, Goncalves AMF, Marques AJS, Pereira LMN, Martins RFP: Advanced Materials Vol. 17 (2005), p. 590 [8] Hawley M, Raistrick ID, Beery JG, Houlton RJ: Science Vol. 251 (1991), p. 1587-1589 [9] Eom CB, Sun JZ, Yamamoto K, Marshall AF, Luther KE, Geballe TH, Laderman SS: pplied Physics Letters Vol. 55 (1989), p. 595-597 [10] Paldey S, Deevi SC: Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing Vol. 342 (2003), p. 58-79 [11] Seo S, Lee MJ, Seo DH, Jeoung EJ, Suh DS, Joung YS, Yoo IK,
Hwang IR, Kim SH, Byun IS, Kim JS, Choi JS, Park BH: Applied Physics Letters Vol. 85 (2004), p. 5655-5657 [12] Fujimura N, Nishihara T, Goto S, Xu JF, Ito T: Journal of Crystal Growth Vol. 130 (1993), p. 269-279 [13] Hellgren N, Johansson MP, Broitman E, Hultman L, Sundgren JE: Physical Review B Vol. 59 (1999), p. 5162-5169
References [1] Z.G.Li, S.Miyake, M.Makino: Thin Solid Films Vol. 517 (2008), p. 699-703 [2] Anpo M, Takeuchi M.: Journal of Catalysis Vol. 216 (2003), p. 505-516 [3] Lindgren T, Mwabora JM, Avendano E, Jonsson J, Hoel A, Granqvist CG, Lindquist SE: Journal of Physical Chemistry B Vol. 107 (2003), p. 5709-5716 [4] Carcia PF, McLean RS, Reilly MH, Nunes G: Applied Physics Letters Vol. 82 (2003), p. 1117-1119 [5] Fortunato EMC, Barquinha PMC, Pimentel ACMBG, Goncalves AMF, Marques AJS, Pereira LMN, Martins RFP: Advanced Materials Vol. 17 (2005), p. 590 [8] Hawley M, Raistrick ID, Beery JG, Houlton RJ: Science Vol. 251 (1991), p. 1587-1589 [9] Eom CB, Sun JZ, Yamamoto K, Marshall AF, Luther KE, Geballe TH, Laderman SS: pplied Physics Letters Vol. 55 (1989), p. 595-597 [10] Paldey S, Deevi SC: Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing Vol. 342 (2003), p. 58-79 [11] Seo S, Lee MJ, Seo DH, Jeoung EJ, Suh DS, Joung YS, Yoo IK,
Hwang IR, Kim SH, Byun IS, Kim JS, Choi JS, Park BH: Applied Physics Letters Vol. 85 (2004), p. 5655-5657 [12] Fujimura N, Nishihara T, Goto S, Xu JF, Ito T: Journal of Crystal Growth Vol. 130 (1993), p. 269-279 [13] Hellgren N, Johansson MP, Broitman E, Hultman L, Sundgren JE: Physical Review B Vol. 59 (1999), p. 5162-5169
Online since: December 2006
Authors: Hong Yuan Jiang, Hu Kun Yang, Tao Jiang, Yang Wang
For examples,
it needed special materials and high electric field.
Weekamp: Science, Vol.291 (2001), pp.277-280
Dertinger and Ajdari: Science, Vol.295 (2002), pp.647-651
Fang: Microfluidics Control Analysis Chip (Science Press, 2003)
Shi: Chinese Journal of Analytical Chemistry, Vol.32 (2004) No.9, pp. 998-992
Weekamp: Science, Vol.291 (2001), pp.277-280
Dertinger and Ajdari: Science, Vol.295 (2002), pp.647-651
Fang: Microfluidics Control Analysis Chip (Science Press, 2003)
Shi: Chinese Journal of Analytical Chemistry, Vol.32 (2004) No.9, pp. 998-992
Online since: April 2015
Authors: Artur Rękas, Tomasz Latos, Łukasz Brodawka, Robert Budzyn, Marcin Fijałkowski
Schaeffer, Analysis of the manufacturing process of beverage cans using aluminum alloy, Journal of materials processing technology. 205 (2008) 347-352
Korhonen, On the Work-Hardening of AA 3104-H19 Aluminum Alloy, Journal of Materials Engineering and Performance. 22 (2013) 505-511
Duval, Strain hardening of aluminium alloy 3004 in the deep drawing and ironing processes, Journal de Physique IV. 3 (Novembre 1993) 247-250
Živković, Investigation of ironing process depending on applied tool materials and coatings, RMZ – Materials and Geoenvironment. 59 (2012) 27-40
[13] Der-Form Chang, JyhwenE.Wang, Influence of Process Parameters on the Ironing of Deep-Drawn Cups, Journal of Manufacturing Science and Engineering. 119 (1997) 699-705
Korhonen, On the Work-Hardening of AA 3104-H19 Aluminum Alloy, Journal of Materials Engineering and Performance. 22 (2013) 505-511
Duval, Strain hardening of aluminium alloy 3004 in the deep drawing and ironing processes, Journal de Physique IV. 3 (Novembre 1993) 247-250
Živković, Investigation of ironing process depending on applied tool materials and coatings, RMZ – Materials and Geoenvironment. 59 (2012) 27-40
[13] Der-Form Chang, JyhwenE.Wang, Influence of Process Parameters on the Ironing of Deep-Drawn Cups, Journal of Manufacturing Science and Engineering. 119 (1997) 699-705
Online since: February 2013
Authors: Ming Wang, Yong Jie Dou, Leng Nie, Yang Yu, Tao Song, Xiao Li Zhao, Jian Sheng Xu, Cong Liang Deng
Automated Extraction of Plant Viral RNA Using the Nucleic Acid Instrument Based on Magnetic Nanobeads
Yongjie Dou1-2,a , Xiaoli Zhao3 , Jiansheng Xu1, Congliang Deng3 , Leng Nie1, Yang Yu1, Ming Wang1,b and Tao Song1
1 Beijing Key Laboratory of Bioelectromagnetism, Institute of Electrical Engineering, Chinese Academy of Sciences, Beijing 100190, China
2 University of Chinese Academy of Sciences, Beijing 100190, China
3 Plant Laboratory of Beijing Inspection and Quarantine Center, Beijing 101300, China
addouyongjie@163.com, bwangming@mail.iee.ac.cn
Keywords: Magnetic Nanobeads; Nucleic acid extraction; Magnetic bead separation; Plant viral RNA
Abstract.
Plant viral RNA extraction experiments and results The experimental materials.
References [1] Sonja Berensmeier 2006 Magnetic particles for the separation and purification of nucleic acids Appl Microbiol Biotechnol. 73 495–504 [2] Hawkins TL, McKernan KJ, Jacotot LB, et al 1997 A magnetic attraction to high-throughput genomics Science. 276(5320) 1887 ~ 1889 [3] Stefano R, Vago L 1999 Use of magnetic beads for tissue DNA extraction and IS6110 Mycobacterium tuberculosis PCR Mol Pathol. 52 (3) 158-160 [4] Flagstad O, Roed K, Stacy JE, et al 1999 Reliable noninvasive genoty—ping based on excremental PCR of nuclear DNA purified with a magnetic bead protocol Mol Ecol. 8(5) 879-883 [5] Jürgen Oster, Jeffrey Parker, Lotharà Brassard 2001 Polyvinyl-alcohol-based magnetic beads for rapid and efficient separation of specific or unspecific nucleic acid sequences Journal of Magnetism and Magnetic Materials. 225 145-150 [6] Melanie Störmer, Knut Kleesiek, Jens Dreier 2007 High-Volume Extraction of Nucleic Acids by Magnetic Bead Technology for Ultrasensitive Detection of
Roewer 2005 Optimization and validation of a fully automated silica-coated magnetic beads purification technology in forensics Forensic Science International. 152 13-22 [12] Hayato Miyachi, Atsuko Masukawa, Toshio Ohshima, Toru Hirose, Chaka Impraim and Yasuhiko Ando 2000 Automated Specific Capture of Hepatitis C Virus RNA with Probes and Paramagnetic Particle Separation J.
Journal of Molecular Endocrinology. 25, 169-193
Plant viral RNA extraction experiments and results The experimental materials.
References [1] Sonja Berensmeier 2006 Magnetic particles for the separation and purification of nucleic acids Appl Microbiol Biotechnol. 73 495–504 [2] Hawkins TL, McKernan KJ, Jacotot LB, et al 1997 A magnetic attraction to high-throughput genomics Science. 276(5320) 1887 ~ 1889 [3] Stefano R, Vago L 1999 Use of magnetic beads for tissue DNA extraction and IS6110 Mycobacterium tuberculosis PCR Mol Pathol. 52 (3) 158-160 [4] Flagstad O, Roed K, Stacy JE, et al 1999 Reliable noninvasive genoty—ping based on excremental PCR of nuclear DNA purified with a magnetic bead protocol Mol Ecol. 8(5) 879-883 [5] Jürgen Oster, Jeffrey Parker, Lotharà Brassard 2001 Polyvinyl-alcohol-based magnetic beads for rapid and efficient separation of specific or unspecific nucleic acid sequences Journal of Magnetism and Magnetic Materials. 225 145-150 [6] Melanie Störmer, Knut Kleesiek, Jens Dreier 2007 High-Volume Extraction of Nucleic Acids by Magnetic Bead Technology for Ultrasensitive Detection of
Roewer 2005 Optimization and validation of a fully automated silica-coated magnetic beads purification technology in forensics Forensic Science International. 152 13-22 [12] Hayato Miyachi, Atsuko Masukawa, Toshio Ohshima, Toru Hirose, Chaka Impraim and Yasuhiko Ando 2000 Automated Specific Capture of Hepatitis C Virus RNA with Probes and Paramagnetic Particle Separation J.
Journal of Molecular Endocrinology. 25, 169-193
Online since: May 2013
Authors: Guang Xian Zhang, Feng Xiu Zhang, Cheng Chen, Hui Zheng, Xi Min Ji
Experimental
Materials and chemicals.
The powdered material was extracted with distilled water (material to liquor ratio of 1:15) in thermostatted shaker bath at 60°C for 10h.The extract solution was filtered to give a dioscorea cirrhosa extract.
Journal of Donghua University (natural science) 2008; 34(4):396-400, in Chinese
Journal of Xi’an Polytechnic University 2009; 23(2):298-302
Journal of Guangxi University for Nationalities (Natural Science Edition) 2009; 15(7):38-42, in Chinese.
The powdered material was extracted with distilled water (material to liquor ratio of 1:15) in thermostatted shaker bath at 60°C for 10h.The extract solution was filtered to give a dioscorea cirrhosa extract.
Journal of Donghua University (natural science) 2008; 34(4):396-400, in Chinese
Journal of Xi’an Polytechnic University 2009; 23(2):298-302
Journal of Guangxi University for Nationalities (Natural Science Edition) 2009; 15(7):38-42, in Chinese.
Online since: November 2012
Authors: Lan Yan, Y.M. Xing, Ji Jun Li
Experimental program
2.1 Experimental materials.
Advanced Cement Based Materials, 1996, 3(3-4), P.107-123
Journal of Materials in Civil Engineering.February, 1998, P.58~64
ACI Materials Journal, 2000, 97(3), P.351-359
Journal of Southeast University, P.Natural Science Edition, 2010, 40(3), P.619-623
Advanced Cement Based Materials, 1996, 3(3-4), P.107-123
Journal of Materials in Civil Engineering.February, 1998, P.58~64
ACI Materials Journal, 2000, 97(3), P.351-359
Journal of Southeast University, P.Natural Science Edition, 2010, 40(3), P.619-623
Online since: March 2010
Authors: Xiu Li Zhang, Yi Ming Mi, Tao Ji, Hong Xia Xu, Yan Ting Xie, Ying Shen
This conclusion will serve as an
important reference for developing and applying materials.
The relationship between the SHPB test and the simulation shows as well the model parameters of materials under high strain rate.
Experience constitutive equations model and physics based constitutive model are the two main constitutive models presently that can describe strain rate dynamic response behavior of metal materials.
The "virtual" experiments save money and time, and the method of the determination of parameters can also be used in the research of other metallic materials.
References [1] Kichida K, Akisue O: Tetsu-To-Hagane (铁と钢), Vol. 76 (1990), p.759 [2] SHA Guiying, HAN Enhou: Chinese Journal of Materials Research, Vol. 19(6) (2005), p.561( In Chinese) [3] ZHANG Xiuli, LIU Changli: Journal of Materials Engineering, Vol. 9 (2006), p.53 (In Chinese) [4] G.
The relationship between the SHPB test and the simulation shows as well the model parameters of materials under high strain rate.
Experience constitutive equations model and physics based constitutive model are the two main constitutive models presently that can describe strain rate dynamic response behavior of metal materials.
The "virtual" experiments save money and time, and the method of the determination of parameters can also be used in the research of other metallic materials.
References [1] Kichida K, Akisue O: Tetsu-To-Hagane (铁と钢), Vol. 76 (1990), p.759 [2] SHA Guiying, HAN Enhou: Chinese Journal of Materials Research, Vol. 19(6) (2005), p.561( In Chinese) [3] ZHANG Xiuli, LIU Changli: Journal of Materials Engineering, Vol. 9 (2006), p.53 (In Chinese) [4] G.
Online since: August 2018
Authors: Sang Woo Lim
The integration of III-V and Ge materials on Si surface causes many issues with complexity such as lattice mismatch with silicon.
However, the integration of III-V and Ge materials on Si surface causes many issues related to the process/material complexity such as lattice mismatch with silicon.
Lim, “Behavior of GaSb (100) Surface in the Presence of H2O2 in Wet-Etching Solutions”, Journal of Physical Chemistry C 119 (2015), 24774-24780
Lim, “Oxidation and etching behaviors of the InAs surface in various acidic and basic chemical solutions”, Surface Science 658 (2017), 22-30
Lim, “Elemental behaviors of the InGaAs surface after treatment in aqueous solutions”, Applied Surface Science (submitted).
However, the integration of III-V and Ge materials on Si surface causes many issues related to the process/material complexity such as lattice mismatch with silicon.
Lim, “Behavior of GaSb (100) Surface in the Presence of H2O2 in Wet-Etching Solutions”, Journal of Physical Chemistry C 119 (2015), 24774-24780
Lim, “Oxidation and etching behaviors of the InAs surface in various acidic and basic chemical solutions”, Surface Science 658 (2017), 22-30
Lim, “Elemental behaviors of the InGaAs surface after treatment in aqueous solutions”, Applied Surface Science (submitted).