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Online since: July 2017
Authors: Edson Pereira Soares, Lia Maria Carlotti Zarpelon, R.N. Faria
Table 1.
x C [mAhg-1] Mw [gmol-1] n [H/f.u.]
y C [mAhg-1] Mw [gmol-1] n [H/f.u.]
References [1] F.
Costa: Journal of Alloys and Compounds Vol. 479 (2009), p. 342
x C [mAhg-1] Mw [gmol-1] n [H/f.u.]
y C [mAhg-1] Mw [gmol-1] n [H/f.u.]
References [1] F.
Costa: Journal of Alloys and Compounds Vol. 479 (2009), p. 342
Online since: July 2013
Authors: Arvind Prasad, David H. St. John, Lang Yuan, Peter D. Lee
Fig. 1.
Table 1.
References [1] A.L.
A 361 (2003) 479-495
A 486(1-2) (2008) 8-12
Table 1.
References [1] A.L.
A 361 (2003) 479-495
A 486(1-2) (2008) 8-12
Online since: February 2013
Authors: Guo Qing Zhang, Wen Yong Xu, Na Liu, Yue Wang, Shi Fan Tian, Zhou Li, Zheng Jiang Gao, Hua Yuan
When remains constant, and 1/T exhibits a linear relationship as well.
The values of Z at different hot work conditions can be derived by Eq. (1).
a) b) c) d) Fig.5 Optical microstructrues under different hot work conditions: a) 1000℃, 0.13s-1; b) 1100℃, 0.13s-1; c) 1200℃, 0.13s-1; d) 1200℃, 6.5s-1 Fig.5 (a) shows the microstructures of the specimen deformed at 1000℃ and 0.13s-1.
References [1] K.
Liu,et al., Spray forming and thermal processing for high performance superalloys, Materials Science Forum. 475-479 (2005) 2773-2778
The values of Z at different hot work conditions can be derived by Eq. (1).
a) b) c) d) Fig.5 Optical microstructrues under different hot work conditions: a) 1000℃, 0.13s-1; b) 1100℃, 0.13s-1; c) 1200℃, 0.13s-1; d) 1200℃, 6.5s-1 Fig.5 (a) shows the microstructures of the specimen deformed at 1000℃ and 0.13s-1.
References [1] K.
Liu,et al., Spray forming and thermal processing for high performance superalloys, Materials Science Forum. 475-479 (2005) 2773-2778
Online since: April 2013
Authors: Guo Zhi Nan, Wei Yu Fan, Hui Luo, Yang Li
The fatty acids and alcohols were mixed with molar ratio of 1:1 and dissolved in toluene.
The dosage of the catalysts was 1 wt%.
Literature References [1] K.
Technol. 70 (1999) 1-15
Masjuki, Biodiesel from palmoil - an analysis of its properties and potential, Biomass and Bioenerg. 23 (2002) 471-479
The dosage of the catalysts was 1 wt%.
Literature References [1] K.
Technol. 70 (1999) 1-15
Masjuki, Biodiesel from palmoil - an analysis of its properties and potential, Biomass and Bioenerg. 23 (2002) 471-479
Online since: May 2004
Authors: Elvira Fortunato, Isabel Ferreira, Pere Roca i Cabarrocas, Hugo Águas, Rodrigo Martins, Leandro Raniero
Martins
1, H.
Fortunato 1, L.
A reverse behaviour is observed for the FWHM centred on 2000 cm-1.
Comparison of the shift of the maximum of <�2> for pm-Si:H films produced at 13.56 MHz (#14 and #19) and 27.12 MHz. 52 53 54 55 56 #40 2.5Å/s #41 3.1Å/s #19 < 2Å/s std a-Si:H #43 2.8Å/s #42 2.9Å/s FHMW (cm-1) 478 479 480 481 482 483 484 485 Position (cm -1) Fig. 5.
References [1] P.
Fortunato 1, L.
A reverse behaviour is observed for the FWHM centred on 2000 cm-1.
Comparison of the shift of the maximum of <�2> for pm-Si:H films produced at 13.56 MHz (#14 and #19) and 27.12 MHz. 52 53 54 55 56 #40 2.5Å/s #41 3.1Å/s #19 < 2Å/s std a-Si:H #43 2.8Å/s #42 2.9Å/s FHMW (cm-1) 478 479 480 481 482 483 484 485 Position (cm -1) Fig. 5.
References [1] P.
Online since: December 2013
Authors: C.H. Ko, M.J. Twu, P.C. Juan, H. Sekiguchi, C.H. Chou, K.C. Lin
Results and discussions
Use Taguchi to analysis MFIS structure gate leakage current features.When the voltage is +3V, factor changes its standards of SNR calculation results shown in Table 1.According to Table 1, optimal factor level changes with each factor level selected SNR maximum, and leakage current quality characteristics is desired smaller shown in Figure 1, the higher data and the smaller leakage current are the better quality characteristics.First, in terms of the annealing temperature, when changing the Level 1 (500 °C) -> Level 2 (600 °C) -> Level 3 (700 °C), the s/n ratio continuing to increasewhich means significantly the leakage current reduced with annealing temperature increasing from 500 °C to 700 °C.
BiFeO3Thin Films Grown on Pt Electrodes”, Journal of Alloys and Compounds, Vol. 479, pp. 274-279, 2009
Dong, “Enhanced Multiferroic Properties of The High-valence Pr Doped BiFeO3 Thin Film”, Applied Physics Letters, Vol. 93, pp. 182909-1-3, 2008
Driscoll, “Greatly Reduced Leakage Current and Conduction Mechanism in Aliovalent-ion-doped BiFeO3”, Applied Physics Letters, Vol. 86, pp. 062903-1-3, 2005
Ozawa, “Improved Ferroelectric Properties in Multiferroic BiFeO3 Thin Films Through La and Nb Codoping”, Physical Review B, Vol. 77, pp. 092101-1-4, 2008
BiFeO3Thin Films Grown on Pt Electrodes”, Journal of Alloys and Compounds, Vol. 479, pp. 274-279, 2009
Dong, “Enhanced Multiferroic Properties of The High-valence Pr Doped BiFeO3 Thin Film”, Applied Physics Letters, Vol. 93, pp. 182909-1-3, 2008
Driscoll, “Greatly Reduced Leakage Current and Conduction Mechanism in Aliovalent-ion-doped BiFeO3”, Applied Physics Letters, Vol. 86, pp. 062903-1-3, 2005
Ozawa, “Improved Ferroelectric Properties in Multiferroic BiFeO3 Thin Films Through La and Nb Codoping”, Physical Review B, Vol. 77, pp. 092101-1-4, 2008
Online since: February 2018
Authors: Andris Ozols, Elmars Zarins, Edvins Letko, Dmitry Saharov, Peteris Augustovs, Valdis Kokars
Fig. 1.
This quantity changes from – 1 to + 1.
Table 1.
References [1] F.
Phys. 21 (1919) 479-483
This quantity changes from – 1 to + 1.
Table 1.
References [1] F.
Phys. 21 (1919) 479-483
Online since: December 2011
Authors: Buo Lei Zuo, Fei Zhang, Feng Xiang You
There is introduction of dimensionless natural frequencies, the results are shown in Table 1 to Table 5.
Table 1 four simply supported antisymmetric angle-ply laminated square plate natural frequency Table 1: the inherent frequency of the antisymmetric angle 4-ply laminated rectangular plates with simple supports at the four sides.
Longitudinal wave number horizontal wave number Bert and Chen(6) Literature[7] Literature[8] context classical theory[9] 1 1 18.46 18.31 17.778 18.887 23.53 1 2 34.87 34.70 33.179 34.417 53.74 2 2 50.52 50.14 47.735 49.077 94.11 1 3 54.27 54.65 52.477 49.681 98.87 2 3 67.17 67.29 64.083 69.662 147.65 2 4 75.58 76.90 79.540 89.510 160.35 3 3 82.84 82.80 — 94.187 211.75 1 5 97.56 98.45 — 94.572 238.72 Table 2: The base frequency of the antisymmetric angle 6-ply laminated rectangular plates with simple supports at the four sides subject to the laminating angle changes.
References [1] Hendrics M, Oomens C, Janssen J.
Beijing:Tsinghua Univer-sity Press,2003: 476-479(In Chinese)
Table 1 four simply supported antisymmetric angle-ply laminated square plate natural frequency Table 1: the inherent frequency of the antisymmetric angle 4-ply laminated rectangular plates with simple supports at the four sides.
Longitudinal wave number horizontal wave number Bert and Chen(6) Literature[7] Literature[8] context classical theory[9] 1 1 18.46 18.31 17.778 18.887 23.53 1 2 34.87 34.70 33.179 34.417 53.74 2 2 50.52 50.14 47.735 49.077 94.11 1 3 54.27 54.65 52.477 49.681 98.87 2 3 67.17 67.29 64.083 69.662 147.65 2 4 75.58 76.90 79.540 89.510 160.35 3 3 82.84 82.80 — 94.187 211.75 1 5 97.56 98.45 — 94.572 238.72 Table 2: The base frequency of the antisymmetric angle 6-ply laminated rectangular plates with simple supports at the four sides subject to the laminating angle changes.
References [1] Hendrics M, Oomens C, Janssen J.
Beijing:Tsinghua Univer-sity Press,2003: 476-479(In Chinese)
Online since: June 2014
Authors: Atsushi Nakahira, Masataka Kamitani, Toru Tagami, Takashi Fukaya, Mitsunori Kondo, Tomonori Hiki
Synthesis of A-type Zeolite from Flat Glass Recycle by Hydrothermal Treatments and Its Evaluation
Masataka Kamitani1,2,a, Toru Tagami1,b, Takashi Fukaya3,c,
Mitsunori Kondo2,d, Tomonori Hiki2,e, and Atsushi Nakahira1,4,f
1Osaka Prefecture University, 1-1, Gakuen-cho, Sakaishi, Osaka, 599-8531, Japan,
2Makino Corporation, 3-1 Oso-cho, Tokoname, Aichi, 479-8623, Japan
3Recycle Tech Japan Corporation, 1-46-1 Saiwaicho, Minato-ku Nagoya-shi, Aichi, 455-0041, Japan
4IMR, Kansai-center, Tohoku University, 1-1, Gakuen-cho, Sakaishi, Osaka 599-8531, Japan
amasataka.kamitani@makino-co.co.jp, bss110020@edu.osakafu-u.ac.jp, cfukaya@r-t-j.co.jp, dmitsunori.kondo@makino-co.co.jp, etomonori.hiki@makino-co.co.jp, fnakahira@mtr.osakafu-u.ac.jp
Keywords: zeolite, synthesis, flat glass, recycle, microstructure.
NaAlO2 was added into this sodium silicate solution with Si/Al ratio of 1.
Fig. 1 The flow chart of synthesis zeolite from flat glass.
References [1] V.W.Y.
Process 64 (2002) 1–17
NaAlO2 was added into this sodium silicate solution with Si/Al ratio of 1.
Fig. 1 The flow chart of synthesis zeolite from flat glass.
References [1] V.W.Y.
Process 64 (2002) 1–17
Online since: August 2011
Authors: David John Smith, Christopher E. Truman, Sayeed Hossain, Ed J. Kingston
Residual stress simulation
Fig. 1 Quenched cylinder.
References [1] George D., Kingston E., Smith D.J., J.
Smith, Materials Science and Engineering A 373 (1–2): 339–349, 2004
Dennis, FNC 32567/32000R Issue 1, December 2006
[9] Elcoate C.D., Dennis R.J., Bouchard P.J., Smith M.C., PVP-Vol. 479, San Diego, PVP2004-2643, 2004
References [1] George D., Kingston E., Smith D.J., J.
Smith, Materials Science and Engineering A 373 (1–2): 339–349, 2004
Dennis, FNC 32567/32000R Issue 1, December 2006
[9] Elcoate C.D., Dennis R.J., Bouchard P.J., Smith M.C., PVP-Vol. 479, San Diego, PVP2004-2643, 2004