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Online since: February 2019
Authors: Hussam L. Alwan, N.V. Lezhnin, Yury Korobov
Table 1.
Fig. 1.
References [1] J.R.
Part 1.
Fluid Mech., 170 (1986) 479–497
Fig. 1.
References [1] J.R.
Part 1.
Fluid Mech., 170 (1986) 479–497
Online since: January 2012
Authors: Qiang Li, Zhi Yun Zhou
The specific parameter values is showed in Table 1.
References [1] John J.
Journal of the Chinese Ceramic Society: 2007,35(1):96-100.
Mechanism of Salt Scaling[J], Materials and Structures 2005,38 :479-488
The American Ceramic Society,1982,(65): 1–5
References [1] John J.
Journal of the Chinese Ceramic Society: 2007,35(1):96-100.
Mechanism of Salt Scaling[J], Materials and Structures 2005,38 :479-488
The American Ceramic Society,1982,(65): 1–5
Online since: December 2013
Authors: Ming Chung Ho, Chin Fei Huang, Chia Yi Chou, Ming Chi Lu, Yung Yi Chang, Chia Ju Liu
The magnitude of ERPCOH varied between 0 (absence of synchronization) and 1 (perfect synchronization).
Time-frequency representations of the ERPCOH data were used in the theta, alpha-1, alpha-2, beta-1 (13–20 Hz), beta-2, and gamma bands.
For the early component (see Fig. 1(A)), both the 7-year-old children and 11-year-old children had lower ERPCOH values in alpha-1 and alpha-2 bands than the adults.
References [1] E.
Molnár: Neuroscience Letters 479 (2010) 79-84
Time-frequency representations of the ERPCOH data were used in the theta, alpha-1, alpha-2, beta-1 (13–20 Hz), beta-2, and gamma bands.
For the early component (see Fig. 1(A)), both the 7-year-old children and 11-year-old children had lower ERPCOH values in alpha-1 and alpha-2 bands than the adults.
References [1] E.
Molnár: Neuroscience Letters 479 (2010) 79-84
Online since: February 2018
Authors: Federico M. Mazzolani, Beatrice Faggiano, Antonio Formisano, Generoso Vaiano
The refined Finite Element structural models of the study systems are developed through the software ABAQUS (v6.13-1).
Figure 1 shows the geometric features of MRF and the used cross-sections of members.
References [1] Mazzolani F.M., Piluso V.
S. da Silva, Influence of seismic design rules on the robustness of steel moment resisting frames, Steel and Composite Structures, 21: 3 (2016) 479-500
Disaster Prevention Research Institute, Kyoto Univ., 24: 216 (1974) 1–23
Figure 1 shows the geometric features of MRF and the used cross-sections of members.
References [1] Mazzolani F.M., Piluso V.
S. da Silva, Influence of seismic design rules on the robustness of steel moment resisting frames, Steel and Composite Structures, 21: 3 (2016) 479-500
Disaster Prevention Research Institute, Kyoto Univ., 24: 216 (1974) 1–23
Online since: October 2020
Authors: P. Kirana Kumara
The geometry is a block of 1 mm by 1 mm cross section and 3 mm length.
Whenever Mesh 3 is used, element numbers 29, 30, 31, 32, 33, 39, 63, 64, 65, 66, 80, 81, 122, 123, 142, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 248, 292, 293, 294, 295, 296, 297, 298, 299, 300, 301, 302, 303, 343, 344, 345, 346, 476, 477, 478, 479, 480, 481, 482, 483, 484, 485, 486, 487, 488, 489, and 490 are subjected to the boundary condition of zero displacement along all the three axes.
Table 1.
Solution of problem A with mesh 1.
Solution of problem B with mesh 1.
Whenever Mesh 3 is used, element numbers 29, 30, 31, 32, 33, 39, 63, 64, 65, 66, 80, 81, 122, 123, 142, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 248, 292, 293, 294, 295, 296, 297, 298, 299, 300, 301, 302, 303, 343, 344, 345, 346, 476, 477, 478, 479, 480, 481, 482, 483, 484, 485, 486, 487, 488, 489, and 490 are subjected to the boundary condition of zero displacement along all the three axes.
Table 1.
Solution of problem A with mesh 1.
Solution of problem B with mesh 1.
Online since: January 2019
Authors: Jun Li, Chao Wang, Hao Dong Chen, Hai Long Jiang, Kai Ren, Tao Huang
The results showed that, (1) Before and after washout occur, the pressure distribution inside and outside the drill string changed significantly.
The specific input parameters are shown in Table 1, in which the nozzle is simplified as a circular hole with a diameter of 20mm.
Conclusions 1.
References [1] Ming C.
Journal Article, 43 (2007) 476-479
The specific input parameters are shown in Table 1, in which the nozzle is simplified as a circular hole with a diameter of 20mm.
Conclusions 1.
References [1] Ming C.
Journal Article, 43 (2007) 476-479
Online since: October 2022
Authors: Aigars Paze, Daniela Godina, Janis Rizhikovs, Rudolfs Berzins, Raimonds Makars, Arturs Teresko, Sanita Vitolina
Table 1.
Fig. 1.
References [1] J.
Adv. 38 (2020) 1–39
Ge, Preparation and Characterization of Betulin Nanoparticles for Oral Hypoglycemic Drug by Antisolvent Precipitation, Drug Deliv. 21 (6) (2014) 467–479
Fig. 1.
References [1] J.
Adv. 38 (2020) 1–39
Ge, Preparation and Characterization of Betulin Nanoparticles for Oral Hypoglycemic Drug by Antisolvent Precipitation, Drug Deliv. 21 (6) (2014) 467–479
Online since: November 2012
Authors: Eiji Kondo, Yuya Kobaru, Ryuichi Iwamoto
Experimental conditions are shown in Table 1.
It can be seen in Fig. 11 that the thrust forces keep constant by the cutting distance of about 1.25km.
Figure 12 shows the average of the cutting forces within the cutting distance of 1.25km.
References [1] H.
Materials Science and Engneering A. 479, 1-2 (2008) 373-379 [2] W.K.
It can be seen in Fig. 11 that the thrust forces keep constant by the cutting distance of about 1.25km.
Figure 12 shows the average of the cutting forces within the cutting distance of 1.25km.
References [1] H.
Materials Science and Engneering A. 479, 1-2 (2008) 373-379 [2] W.K.
Online since: March 2007
Authors: Hirotaka Imaeda, Akio Hirose, Kojiro F. Kobayashi, Miki Kondo
B2 0.6 1 0.18 - - 0.07 0.02 Bal.
D2 1 1 0.18 - - 0.07 0.02 Bal.
E2 1 0.6 0.18 - - 0.07 0.02 Bal.
References [1] V.
Forum, 475-479(2005), p. 349 [4] N.V.Agreeva and L.A.Petrovoi, Diagrammy sostoyaniya metallicheskikhsistem, p. 164 [5] A.K.Kurakin, Phys.
D2 1 1 0.18 - - 0.07 0.02 Bal.
E2 1 0.6 0.18 - - 0.07 0.02 Bal.
References [1] V.
Forum, 475-479(2005), p. 349 [4] N.V.Agreeva and L.A.Petrovoi, Diagrammy sostoyaniya metallicheskikhsistem, p. 164 [5] A.K.Kurakin, Phys.
Online since: March 2020
Authors: Abulmaali M.Y. Taher, Hala M. Gnedi, Khawla T. Snoussi, Thoria G. Sharef, Yousef Arebi
The chemical composition of this steel is given Table 1.
The V shape design is shown in Fig. 1(a).
Table 2 The welding parameters Travel Speed (cm/s) Gap Distance (mm) Bevel Angle Ampere (A) Voltage (V) Specimen # G0-1 16 150 60o 0 18 -20 G0-2 16 150 60o 0 18 -20 G0-3 16 150 60o 0 18 -20 G0-4 16 150 60o 0 18 -20 G1-1 16 150 60o 1 18 -20 G1-2 16 150 60o 1 18 -20 G1-3 16 150 60o 1 18 -20 G1-4 16 150 60o 1 18 -20 G2-1 16 150 60o 2 18 -20 G2-2 16 150 60o 2 18 -20 G2-3 16 150 60o 2 18 -20 G2-4 16 150 60o 2 18 -20 G3-1 16 150 60o 3 18 -20 G3-2 16 150 60o 3 18 -20 G3-3 16 150 60o 3 18 -20 G3-4 16 150 60o 3 18 -20 Evaluation of Welded Joints.
References [1] 316/316L Stainless Steel, AK Steel Corporation, www.aksteel.com, 2007
[8] Cheng-HsienKuo, Kuang-Hung Tseng, Chang-Pin Chou, “Effect of Activated TIG Flux on Performance of DissimilarWelds between Mild Steel and Stainless Steel, Key Engineering Materials, 479, 2011, pp. 74-80
The V shape design is shown in Fig. 1(a).
Table 2 The welding parameters Travel Speed (cm/s) Gap Distance (mm) Bevel Angle Ampere (A) Voltage (V) Specimen # G0-1 16 150 60o 0 18 -20 G0-2 16 150 60o 0 18 -20 G0-3 16 150 60o 0 18 -20 G0-4 16 150 60o 0 18 -20 G1-1 16 150 60o 1 18 -20 G1-2 16 150 60o 1 18 -20 G1-3 16 150 60o 1 18 -20 G1-4 16 150 60o 1 18 -20 G2-1 16 150 60o 2 18 -20 G2-2 16 150 60o 2 18 -20 G2-3 16 150 60o 2 18 -20 G2-4 16 150 60o 2 18 -20 G3-1 16 150 60o 3 18 -20 G3-2 16 150 60o 3 18 -20 G3-3 16 150 60o 3 18 -20 G3-4 16 150 60o 3 18 -20 Evaluation of Welded Joints.
References [1] 316/316L Stainless Steel, AK Steel Corporation, www.aksteel.com, 2007
[8] Cheng-HsienKuo, Kuang-Hung Tseng, Chang-Pin Chou, “Effect of Activated TIG Flux on Performance of DissimilarWelds between Mild Steel and Stainless Steel, Key Engineering Materials, 479, 2011, pp. 74-80