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Online since: February 2018
Authors: Ai Min Zhao, Qi Wei Wu, Shun Yao, Zhen Li
Experiment
The DP590 galvanized sheet produced by a hot galvanizing production line is shown in Table 1 as follows:
Table 1 Chemical composition of the experimental DP590 steel(wt%).
Fig. 1 Hot galvanizing production process.
The following conclusions can be obtained: 1.
References [1] Liu H, Li F, Shi W, et al.
Surface & Coatings Technology, 306 (2016) 473-479
Fig. 1 Hot galvanizing production process.
The following conclusions can be obtained: 1.
References [1] Liu H, Li F, Shi W, et al.
Surface & Coatings Technology, 306 (2016) 473-479
Online since: September 2018
Authors: Elammaran Jayamani, Muhammad Khusairy bin Bakri, Akshay Kakar
Fig.1.
References [1] L.L.
Vol. 49 (1996), pp. 1–14
Vol. 2011 (2011), 1–7
Part B Vol. 55 (2013), pp. 479-485
References [1] L.L.
Vol. 49 (1996), pp. 1–14
Vol. 2011 (2011), 1–7
Part B Vol. 55 (2013), pp. 479-485
Online since: July 2020
Authors: Takeshi Ohshima, Mitsuo Okamoto, Shinsuke Harada, Takahide Umeda, Yuta Abe, Yuichi Yamazaki
Fig. 1.
Their average values and standard deviation are summarized in Table 1.
Table 1.
References [1] I Aharonovich, S Castelletto, D A Simpson, C-H Su, A D Greentree1 and S Prawer, Rep.
Awschalom, Nature 479, 84 (2011).
Their average values and standard deviation are summarized in Table 1.
Table 1.
References [1] I Aharonovich, S Castelletto, D A Simpson, C-H Su, A D Greentree1 and S Prawer, Rep.
Awschalom, Nature 479, 84 (2011).
Online since: June 2011
Authors: Xi Peng Xu, Shu You Zheng
In that case, the velocity of the abrasives in the machining zone comes to be the resultant velocity of the instantaneous vibration and circumferential linear velocity.
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In the present work, the red granite is selected as the workpiece, whose properties are listed in table 1.
References [1] V.K.
Wang: Material Science and Engineering A-Structural Materials Properties Microstructure and Processing, Vol.479 (2008), pp:373-379
Reddy: Wear, Vol.161 (1993), pp:1-10
In the present work, the red granite is selected as the workpiece, whose properties are listed in table 1.
References [1] V.K.
Wang: Material Science and Engineering A-Structural Materials Properties Microstructure and Processing, Vol.479 (2008), pp:373-379
Reddy: Wear, Vol.161 (1993), pp:1-10
Online since: January 2013
Authors: Jian Zhong Zhou, Xiao Fan Zeng, Na Zhao
Climate projections by Global Climate Models (Abbreviated as GCMs) are the effective way to predict future climate now[1,9].
Since the changes of projected river discharge by the ANNs has the same trend as it by the EFs during this period, only changes of projected river discharge by the ANNs are given in Figure 1.
References: [1] IPCC (Intergovernmental Panel on Climate Change) (2007) Summary for Policymakers.
Hydrological Sciences Journal Vol 50(3):479-492 [3] Jiang T, Su BD, Hartmann H (2007) Temporal and spatial trends of precipitation and river flow in the Yangtze River Basin, 1961-2000.
Journal of Hydrology 379(1-2):172-180 [10] Roeckner E, Bäuml G, Bonaventura L et al (2003) The atmospheric general circulation model ECHAM5.
Since the changes of projected river discharge by the ANNs has the same trend as it by the EFs during this period, only changes of projected river discharge by the ANNs are given in Figure 1.
References: [1] IPCC (Intergovernmental Panel on Climate Change) (2007) Summary for Policymakers.
Hydrological Sciences Journal Vol 50(3):479-492 [3] Jiang T, Su BD, Hartmann H (2007) Temporal and spatial trends of precipitation and river flow in the Yangtze River Basin, 1961-2000.
Journal of Hydrology 379(1-2):172-180 [10] Roeckner E, Bäuml G, Bonaventura L et al (2003) The atmospheric general circulation model ECHAM5.
Online since: October 2020
Authors: Berend Denkena, Marc André Dittrich, Florian Schaper, Sebastian Worpenberg, Jonas Matthies, Alexander Krödel
The composition of the workpiece material is given in Table 1.
References [1] B.
Jacob, Energy Efficiency in Machining of Aircraft Components, Procedia CIRP 48 (2016) 479-482
Kiese, Energieeffiziente Titanzerspanung durch Spänerecycling, Productivity Management 21 (1) (2016) 25-28
Klocke, Fertigungsverfahren 1, 9.
References [1] B.
Jacob, Energy Efficiency in Machining of Aircraft Components, Procedia CIRP 48 (2016) 479-482
Kiese, Energieeffiziente Titanzerspanung durch Spänerecycling, Productivity Management 21 (1) (2016) 25-28
Klocke, Fertigungsverfahren 1, 9.
Online since: November 2005
Authors: Seong Sick Choen, Am Kee Kim, Md Anwarul Hasan, Hak Joo Lee
The Constitutive Behavior of Metallic Foams
Using Nanoindentation Technique and FE Modeling
Amkee Kim
1, MD Anwarul Hasan
1, Seong Sick Choen
1 and Hak Joo Lee
2
1
Division of Mechanical Engineering, Kongju National University, Kongju, Chungnam, Korea
2
Structural Mechanics Laboratory, Korea Institute of Machinery & Materials, Daejeon, Korea
Keywords: Nanoindentation, Contact stiffness, Al-alloy foams, FE modeling, Simulation
Abstract.
Hucko and Faria [1], for example, used a simple visco-elastic FE model to represent the cellular materials.
The FE simulation of load-indentation curve was performed by FE code ABAQUS using a two-dimensional axisymmetric model with a semi-angle α = 70.3 o , as shown in Fig. 1.
References [1] B.
Forum Vol. 475-479 (2005), p. 4199 [7] A.
Hucko and Faria [1], for example, used a simple visco-elastic FE model to represent the cellular materials.
The FE simulation of load-indentation curve was performed by FE code ABAQUS using a two-dimensional axisymmetric model with a semi-angle α = 70.3 o , as shown in Fig. 1.
References [1] B.
Forum Vol. 475-479 (2005), p. 4199 [7] A.
Online since: November 2013
Authors: Wei Liu, Rui Qi Shen, Xiao Xia Sun, Ying Hua Ye
The system consists of gas gun, striker, incident bar and other measuring devices, as schematically shown in Fig.1.
(2) As a result, substituting Eq.2 into Eq.1, the particle velocity can be expressed as v=2c0ei
The grids around the incident bar-specimen interface were refined locally with level 1 in order to obtain more accurate calculation, as shown in Fig.3.
References [1] H.
Hickerson, Penetration of Concrete Targets with Deceleration-time Measurements, International Journal Of Impact Engineering. 28 (2003), 479-497
(2) As a result, substituting Eq.2 into Eq.1, the particle velocity can be expressed as v=2c0ei
The grids around the incident bar-specimen interface were refined locally with level 1 in order to obtain more accurate calculation, as shown in Fig.3.
References [1] H.
Hickerson, Penetration of Concrete Targets with Deceleration-time Measurements, International Journal Of Impact Engineering. 28 (2003), 479-497
Online since: June 2014
Authors: H.M.A. Hussein, U. Umer, R.K. Abdel-Magied, J. Abu Qudeiri
Umer 1,c and R.K.
The schematic 2D drawing of the NASCO die-sets is shown in Fig. 1, while the 3D shown in Fig. 2.
Table 1, shows the IF-then rules of the optimum and automated selection of the die set based on the die holder dimensions.
Table 1.
Shank database References [1] J.A.W.
The schematic 2D drawing of the NASCO die-sets is shown in Fig. 1, while the 3D shown in Fig. 2.
Table 1, shows the IF-then rules of the optimum and automated selection of the die set based on the die holder dimensions.
Table 1.
Shank database References [1] J.A.W.
Online since: March 2007
Authors: Kouichi Maruyama, Han Liang Zhu, Peter Au, Dongyi Seo
Introduction
The creep resistance of TiAl alloys strongly depends on their microstructure [1].
Creep curves for the unaged and aged specimens tested at 760o C and an initial engineering stress of 207 MPa are presented in Fig.1.
Fig.1 Creep behavior of XD TiAl alloys at 760 oC and 207 MPa.
References [1] H.Y.
Forum Vol.475-479 (2005), p. 581
Creep curves for the unaged and aged specimens tested at 760o C and an initial engineering stress of 207 MPa are presented in Fig.1.
Fig.1 Creep behavior of XD TiAl alloys at 760 oC and 207 MPa.
References [1] H.Y.
Forum Vol.475-479 (2005), p. 581