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Online since: January 2015
Authors: Joanna Mystkowska
Table 1.
The highest viscosity was noted for preparations based on xanthan gum (K1, η ≈ 0.225 Pas for ε = 5 s-1 to η ≈ 0.024 Pas for ε = 200 s-1 and K2, η ≈ 0.036 Pas for ε = 5 s-1 to η ≈ 0.0064 Pas for ε = 200 s-1).
The lowest viscosity was noted for the carob bean gum solution (K4, η ≈ 0.0006 Pas for ε = 5 s-1 to η ≈ 0.001 Pas for ε = 200 s-1) and guar gum (K5, η ≈ 0.00086 Pas for ε = 5 s-1 to η ≈ 0.00095 Pas for ε = 200 s-1).
References [1] M.
Liggieri, Effect of tea polyphenols on the dilational rheology of human whole saliva (HWS): part 2, polyphenols-HWS interaction, Colloids and Surfaces B: Biointerfarces 110 (2013) 474–479
The highest viscosity was noted for preparations based on xanthan gum (K1, η ≈ 0.225 Pas for ε = 5 s-1 to η ≈ 0.024 Pas for ε = 200 s-1 and K2, η ≈ 0.036 Pas for ε = 5 s-1 to η ≈ 0.0064 Pas for ε = 200 s-1).
The lowest viscosity was noted for the carob bean gum solution (K4, η ≈ 0.0006 Pas for ε = 5 s-1 to η ≈ 0.001 Pas for ε = 200 s-1) and guar gum (K5, η ≈ 0.00086 Pas for ε = 5 s-1 to η ≈ 0.00095 Pas for ε = 200 s-1).
References [1] M.
Liggieri, Effect of tea polyphenols on the dilational rheology of human whole saliva (HWS): part 2, polyphenols-HWS interaction, Colloids and Surfaces B: Biointerfarces 110 (2013) 474–479
Online since: February 2019
Authors: O.S. Anishchenko, A.V. Grushko, E.Yu. Balalayeva, Inna V. Vishtak, Andrii H. Prysiazhnyi, Volodymyr V. Kukhar
Fig. 1.
Table 1.
Metallurgist. 58(1-2) (2014) 141-148
International Journal of Mechanical Science. 12 (6) (1970) 479-490
Metallurgical and Mining Industry. 5(1) (2013) 11-16.
Table 1.
Metallurgist. 58(1-2) (2014) 141-148
International Journal of Mechanical Science. 12 (6) (1970) 479-490
Metallurgical and Mining Industry. 5(1) (2013) 11-16.
Online since: December 2013
Authors: He Ming Cheng, Xing Guo Hu
All material of the structure is divided into 1~mn numbers of grades.
When rg=1, the ESO-MEG and Das Raj’s method can be substituted for each other.
The optimization parameters are mn=100, and rg=1.
References [1] Y.M.Xie, G.P.
Design studies, 2005, Vol. 26(1), p. 55-72
When rg=1, the ESO-MEG and Das Raj’s method can be substituted for each other.
The optimization parameters are mn=100, and rg=1.
References [1] Y.M.Xie, G.P.
Design studies, 2005, Vol. 26(1), p. 55-72
Online since: August 2018
Authors: Yan Yan Wang, Chang Ling Zhou, Fang Hong Yang, Kai Jiang, Lu Ping Yang, Rui Xiang Liu
After that, the CVI deposition experiment of carbon fiber prefabricated body was carried out in different time, and the samples of C/C composite materials with different density were obtained (sample1-1, 1-2, …,1-9), as shown in table 1.
Fig.1 shows the trend of volume density of the C/C composite material with CVI deposition time.
Table 1 Series of C/C composites with gradient ascent densities Sample Type of preforms Time of CVI process (h) Volume Density (g/cm3) 1 T700 6K 0 0.47 1-1 T700 6K 48 0.71 1-2 T700 6K 84 0.80 1-3 T700 6K 108 0.91 1-4 T700 6K 120 1.01 1-5 T700 6K 148 1.12 1-6 T700 6K 184 1.34 1-7 T700 6K 220 1.50 1-8 T700 6K 256 1.61 1-9 T700 6K 278 1.67 Fig.1 Variation of the volume density of the C/C composites with the extension of reaction time The micromorphology and mechanical properties of C/C composites.
References [1] Y.
Mater. 730(2017) 479-485
Fig.1 shows the trend of volume density of the C/C composite material with CVI deposition time.
Table 1 Series of C/C composites with gradient ascent densities Sample Type of preforms Time of CVI process (h) Volume Density (g/cm3) 1 T700 6K 0 0.47 1-1 T700 6K 48 0.71 1-2 T700 6K 84 0.80 1-3 T700 6K 108 0.91 1-4 T700 6K 120 1.01 1-5 T700 6K 148 1.12 1-6 T700 6K 184 1.34 1-7 T700 6K 220 1.50 1-8 T700 6K 256 1.61 1-9 T700 6K 278 1.67 Fig.1 Variation of the volume density of the C/C composites with the extension of reaction time The micromorphology and mechanical properties of C/C composites.
References [1] Y.
Mater. 730(2017) 479-485
Online since: November 2016
Authors: Hong Yu Zhou, Yi Bo Chen, Cong Kun Yang, Jun Chang Ci
Table 1.
Fig. 1.
References [1] D.
Jpn. 77 (1962) 1-6
Mater. 2 (1974) 479-486
Fig. 1.
References [1] D.
Jpn. 77 (1962) 1-6
Mater. 2 (1974) 479-486
Online since: September 2015
Authors: Marayati Marsadek, N. Aminudin, N.M. Ramli, T.K.A. Rahman, N.M.M. Razali, M.I. Yassin
For the rain, the weather block is chosen from the scale of 1 to 17.
Fig. 1 shows the structure of online risk prediction.
Table 1 depicts the results for each set obtained from this approach.
References [1] K.
Mohamed, "Risk based security assessment of power system using generalized regression neural network with feature extraction," Journal Central South University Press and Springer-Verlag Berlin Heidelberg, vol. (2013) 20, pp. 466-479, 2013
Fig. 1 shows the structure of online risk prediction.
Table 1 depicts the results for each set obtained from this approach.
References [1] K.
Mohamed, "Risk based security assessment of power system using generalized regression neural network with feature extraction," Journal Central South University Press and Springer-Verlag Berlin Heidelberg, vol. (2013) 20, pp. 466-479, 2013
Online since: December 2011
Authors: Yu Quan Leng, Hong Guang Wang, Yu Wang Liu, Wei Jia Zhou
In this paper, we just studied 1) and 2).
The length and joint angle of every knuckle of each finger are listed in Table 1 and shown in Fig. 1.
References [1] MASON.
Int .J. of Robotics Research. 2006 ,19 (5) : 467-479
IEEE Transactions on Robots and Automation, 1996 ,12 (1) : 31-46
The length and joint angle of every knuckle of each finger are listed in Table 1 and shown in Fig. 1.
References [1] MASON.
Int .J. of Robotics Research. 2006 ,19 (5) : 467-479
IEEE Transactions on Robots and Automation, 1996 ,12 (1) : 31-46
Online since: July 2012
Authors: L. Hua, L. Zhang
Introduction
Due to RoHS directive and market pressures [1], Pb is being removed from electronic product.
Furthermore, when both In-Zn doping was up to 1 wt.%, it can be seen that the passivation current density (Ip) was 3.605 mA/cm2, 6.361 mA/cm2 with both 3 wt.% doping and 7.433 mA/cm2 with both 5 wt.% doping, respectively, as shown in Table 1.
References [1] Directive 2002/95/EC of the European Parliament and of the Council.
Yang, Effects of Bi doping on electrochemical corrosion and dendrite growth suppression of lead-free Sn-3.0Ag-0.5Cu solder, The Chinese Journal of Nonferrous Metals, 2012, 22(1): 1-7
%Zn solder alloy, Journal of Alloys and Compounds, 2009, 479: 844-850
Furthermore, when both In-Zn doping was up to 1 wt.%, it can be seen that the passivation current density (Ip) was 3.605 mA/cm2, 6.361 mA/cm2 with both 3 wt.% doping and 7.433 mA/cm2 with both 5 wt.% doping, respectively, as shown in Table 1.
References [1] Directive 2002/95/EC of the European Parliament and of the Council.
Yang, Effects of Bi doping on electrochemical corrosion and dendrite growth suppression of lead-free Sn-3.0Ag-0.5Cu solder, The Chinese Journal of Nonferrous Metals, 2012, 22(1): 1-7
%Zn solder alloy, Journal of Alloys and Compounds, 2009, 479: 844-850
Online since: January 2013
Authors: Rui Yang, Svetlana E. Kulkova, Alexander V. Bakulin, Q. M. Hu
Since the concentration of oxygen on the TiNi(110)-(1×1) surface is quite high, we repeated the calculations for the (2×2) surface.
References [1] S.A.
Rev. 46 (2001) 1-18
B 65 (2002) 085410-1-7
A 438 (2006) 476-479
References [1] S.A.
Rev. 46 (2001) 1-18
B 65 (2002) 085410-1-7
A 438 (2006) 476-479
Online since: September 2020
Authors: Natalia Vyacheslavovna Saienko, Dmitriy Vasilevich Demidov, Yuri Viktorovich Popov, Roman Aleksandrovich Bikov, Basheer Younis
Table 1.
Fig. 1.a shows the curves of changes in the contact angle q depending on the content of aluminosilicate microspheres (10, 20, 30 wt.%) and AEROSIL (0.5, 1.0, 1.5 wt.%) and with their compatible introduction to the coating composition (Fig. 1.b).
References [1] Yu.S.
Voliuvach, University Publishing House, (2010) 475-479
IOP Publishing, 708 (2019) 012103 p. doi:10.1088/1757-899X/708/1/012103 [15] K.
Fig. 1.a shows the curves of changes in the contact angle q depending on the content of aluminosilicate microspheres (10, 20, 30 wt.%) and AEROSIL (0.5, 1.0, 1.5 wt.%) and with their compatible introduction to the coating composition (Fig. 1.b).
References [1] Yu.S.
Voliuvach, University Publishing House, (2010) 475-479
IOP Publishing, 708 (2019) 012103 p. doi:10.1088/1757-899X/708/1/012103 [15] K.