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Online since: October 2013
Authors: Quan Yuan, Yu Yang He
(1) Beam conversion layer.
The similarity between the model according to the prototype is 1/6.
As shown in Fig. 1, the test model was 5 layers comprising two bottom layers and three upper floors, plane size is 1.78m×1.10m.
References [1] L.
Yao, Dynamic reliability of structures: the example of multi-grid composite walls, Structural Engineering and Mechanics, 4 (2010) 463-479
The similarity between the model according to the prototype is 1/6.
As shown in Fig. 1, the test model was 5 layers comprising two bottom layers and three upper floors, plane size is 1.78m×1.10m.
References [1] L.
Yao, Dynamic reliability of structures: the example of multi-grid composite walls, Structural Engineering and Mechanics, 4 (2010) 463-479
Theoretical and Numerical Analysis on the Static-Loaded Contact Pressure of Mechanical Elastic Wheel
Online since: August 2014
Authors: You Qun Zhao, Xiao Long Li, Ming Jie Zhang
Considering the structure and force symmetry, 1/2 finite element model of MEW was built.
The 1/2 simplified finite element model of MEW is shown in Fig. 5.
References [1] N.
He: Advanced Materials Research, Vol. 479-481 (2012), p. 2033-2036
Baldi: Tire Science and Technology, Vol. 36 (2008) No. 1, p.43
The 1/2 simplified finite element model of MEW is shown in Fig. 5.
References [1] N.
He: Advanced Materials Research, Vol. 479-481 (2012), p. 2033-2036
Baldi: Tire Science and Technology, Vol. 36 (2008) No. 1, p.43
Online since: September 2013
Authors: Guo Yin Zu, Ping Wang, Xiao Bing Li
The increase of bending load is ascribed to the interfacial improvement.
1.
Fig. 1 Illustration of three-point bending test for laminated composite 3.
There is an interlayer with thickness of ~1 μm between copper and aluminum layer.
Mater. 67 (2012) 479-482
Mater. 9 (2008) 1-11
Fig. 1 Illustration of three-point bending test for laminated composite 3.
There is an interlayer with thickness of ~1 μm between copper and aluminum layer.
Mater. 67 (2012) 479-482
Mater. 9 (2008) 1-11
Online since: June 2008
Authors: R. Khanzadeh, Seiyed Ali Asghar Akbari Mousavi, Ayyub Halvaee
Experimental Investigations of Explosive Welding of Three-Layer
Cylinder Composites-Part 1
S.A.A.
Akbari Mousavi 1,a , A.
Introduction The first attempt at explosive bonding of duplex tubes was made by [1].
Experimental tests of the explosive welding process Experimental tests were performed using the explosive system (see Figure 1 and Table 1).
tan β = (3Dσy/ρVc 2)1/2
Akbari Mousavi 1,a , A.
Introduction The first attempt at explosive bonding of duplex tubes was made by [1].
Experimental tests of the explosive welding process Experimental tests were performed using the explosive system (see Figure 1 and Table 1).
tan β = (3Dσy/ρVc 2)1/2
Online since: May 2014
Authors: Shuichi Miyazaki, Hideki Hosoda, Tomonari Inamura, Masaki Tahara, Tomoya Sasaki, Katsunori Hiramatsu
Effect of Heat Treatment Condition on Texture in Ti-Mo-Al-Zr
Shape Memory Alloy
Tomoya Sasaki 1*, a, Katsunori Hiramatsu 1*, b, Masaki Tahara 1, c,
Hideki Hosoda 1, d, Shuichi Miyazaki 2, e, Tomonari Inamura1, f
1 Precision and Intelligence Laboratory, Tokyo Institute of Technology 4259 Nagatsuta, Midori-ku, Yokohama, 226-8503, Japan (*Graduate student, Tokyo Institute of Technology)
2 Division of Materials Science, University of Tsukuba
Tennodai 1-1-1, Tsukuba, 305-8573, Japan
asasaki.t.aq@m.titech.ac.jp, bhiramatsu.k@gmail.com ctahara.m.a@m.titech.ac.jp, dhosoda.h.aa@m.titech.ac.jp, emiyazaki@ims.tsukuba.ac.jp, fInamura.t.aa@m.titech.ac.jp
Keywords: texture; recrystallization; titanium
Abstract.
Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Intensity (a.u.)
The major textures in CW were {295}α’’<211>α’’ and {3 15 1}α’’<413>α’’.
References [1] T.
A, 479, 2008, 236-247 [11] F.
Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Fig.1 XRD profile of (a) CW, (b) ST973K and (c) ST1173K Intensity (a.u.)
The major textures in CW were {295}α’’<211>α’’ and {3 15 1}α’’<413>α’’.
References [1] T.
A, 479, 2008, 236-247 [11] F.
Online since: December 2012
Authors: Sheng Rong Li, Yu Tong Yan, Na Zhang, Li Na Yan, Xiu Yun Tong
The entire and each divided areas composition of clay minerals are listed in table 1.
References Cited [1] Rowan ,K.
Tropical ocean,1983, 2(1):20-27.
Marine Journal, 1990, 12(4):470-479.
Marine and Petroleum Geology, 2008,25:500-513. [1] Boyle R. (1979).
References Cited [1] Rowan ,K.
Tropical ocean,1983, 2(1):20-27.
Marine Journal, 1990, 12(4):470-479.
Marine and Petroleum Geology, 2008,25:500-513. [1] Boyle R. (1979).
Online since: March 2016
Authors: Norlaily Mohd Saiden, Noruzaman Daud, Ra'ba'ah Syahidah Azis, Mansor Hashim, Nuraine Mariana Mohd Shahrani, Jumiah Hassan, Khamirul Amin Matori
Daud 1,a*, R.S.
Table 1 shown starting raw material strontium carbonate, Fe2O3 (steel waste) and neodymium oxide in the required proportion for the final product were prepared according equation 1
(1-x)SrCO3 + 6Fe2O3 + (x/2) Nd2O3 Sr(1-x)NdxFe12O19 +(1-x)CO2 +(x/4)O2 Eq. (1) Table 1: Detail of weight fraction of chemical used in synthesis Sr1−xNdxFe12O19 ferrite.
References [1] R.S.
Journal of Alloys and Compounds, 479 (2009) 638-641
Table 1 shown starting raw material strontium carbonate, Fe2O3 (steel waste) and neodymium oxide in the required proportion for the final product were prepared according equation 1
(1-x)SrCO3 + 6Fe2O3 + (x/2) Nd2O3 Sr(1-x)NdxFe12O19 +(1-x)CO2 +(x/4)O2 Eq. (1) Table 1: Detail of weight fraction of chemical used in synthesis Sr1−xNdxFe12O19 ferrite.
References [1] R.S.
Journal of Alloys and Compounds, 479 (2009) 638-641
Online since: July 2011
Authors: Cheng Chang Jia, Jun Cai Zhang
More importantly, linear expansion coefficient of Ti3SiC2 amounts to 9.2×106˚C-1, slightly higher than that of MoSi2, 7.1×106˚C-1.
Results and Discussion The result of XRD of SPS sintering is shown in Fig.1.
References [1] Guo Shuqi, Toshiyuki Nishimura, Takashi Mizuguchi, et al.
Materials Science and Engineering A 2008, (479): 23–30
Acta Materiae Compositae Sinica, 1998, 15(3):1-6
Results and Discussion The result of XRD of SPS sintering is shown in Fig.1.
References [1] Guo Shuqi, Toshiyuki Nishimura, Takashi Mizuguchi, et al.
Materials Science and Engineering A 2008, (479): 23–30
Acta Materiae Compositae Sinica, 1998, 15(3):1-6
Online since: September 2011
Authors: Xin Hu Xu, Feng Lin, Qing Guo, Xin Cai, Gui Qin Li
This paper will give a solution of measurement and control system based on FPGA embedded system for the Plastic Material Dynamic High-speed Tensile Machine (PMDHTM) with 1-100s-1 strain rate range.
Recently the mechanical performance of plastic material in the vehicle collision is taken as top priority at home and abroad [1-3].
At present, material test technique quite mature in the strain rate above 0.01 s-1 and strain rate below 1000 s-1, but the strain rate range from 1 s-1 to 100 s-1 is difficult to realize by materials tensile equipment using current technology.
There are watchdog program and time refresh program to resolve the problem of middle bar 1 ms collision oscillation when in the dynamic tensile testing experiment.
SAE Paper: 2007-26-065 [8] Li E.B.Optics and Lasers in Engineering, 2003, 39(4):479~488
Recently the mechanical performance of plastic material in the vehicle collision is taken as top priority at home and abroad [1-3].
At present, material test technique quite mature in the strain rate above 0.01 s-1 and strain rate below 1000 s-1, but the strain rate range from 1 s-1 to 100 s-1 is difficult to realize by materials tensile equipment using current technology.
There are watchdog program and time refresh program to resolve the problem of middle bar 1 ms collision oscillation when in the dynamic tensile testing experiment.
SAE Paper: 2007-26-065 [8] Li E.B.Optics and Lasers in Engineering, 2003, 39(4):479~488
Online since: July 2014
Authors: Zi Zhi Lin, Si Hui Shu
According to the above analysis, methods of representing planar curve in [1-11] contain two steps: 1.Sample data points from the planar curve 2.
The procedure is as follow 1.
Example Fig.1.
References [1] Piegl L,Tiller W.
Computer Aided Geometric Design 2004;Vol 21,pp 479–97
The procedure is as follow 1.
Example Fig.1.
References [1] Piegl L,Tiller W.
Computer Aided Geometric Design 2004;Vol 21,pp 479–97