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Microstructure of Co-Cr alloy products with three-dimensional geometry fabricated by laser beam sintering Ai Serizawa 1, a, Tomoki Tanaka 1, b, and Takayoshi Nakano 1, c, 1 Division of Materials and Manufacturing Science, Graduate School of Engineering Osaka University, 2-1 Yamada-oka, Suita, Osaka 565-0871, Japan a serizawa@mat.eng.osaka-u.ac.jp, b tomoki.tanaka@mat.eng.osaka-u.ac.jp, c nakano@mat.eng.osaka-u.ac.jp Keywords: Laser beam sintering (LBS); Biomaterial; Young’s modulus; Self-organized function; Martensitic transformation; Co-Cr alloy Abstract.
Results and discussion Figure 1 XRD pattern of the lattice structure fabricated by LBS.
The phase of as-build lattice structure was identified at γ–fcc single phase by XRD patters as shown in Fig. 1.
References [1] N.A.
Umakoshi, Bone, 31 (2002) 479–487

Fig. 1 Schematic illustration of the modified C2S2.
Fig. 1 shows the finite element model for the modified C2S2 process.
The parameters used in the present study are summarized in Table 1.
References [1] R.
Kang: Materials Science Forum, Vol. 475-479 (2005), p. 3231 [15] V.

Fig. 1.
References [1] J.
Awshalom, Nature 479 (2011) 84-87
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Lett. 109 (2012), 187603-1-5

Their chemical compositions are listed in Table 1.
At first, the magnesium alloy Table 1 Chemical composition of three magnesium alloys (mass%).
ZA146 alloy foam consisted of small pores less than 1 mm.
References [1] J.
Forum Vol. 475-479 (2005), p. 501.

Bearing binary classification intelligent diagnosis by combined Improved EEMD with SVM Meijun Zhang 1, a,Jie Huang 1, b,Kai Chai1, c, Hao Chen1, d 1College of Field Engineering,PLA University of Science and Technology, Nanjing, China adingdf0365@sina.com, b805382270@qq.com, c450984980@qq.com, d525686022@qq.com Keywords: EEMD, SVM, classification and identification, Intelligent diagnosis Abstract.
(1)Improve EEMD decomposed 9d normalized energy is for characteristic vector that is 8 d IMF component C1 ~ C8 and 1d surplus R.
References [1] Hwi Li,Xiaofeng Liu and Lin Bo.
Advances in Adaptive Data Analysis，Vol.1(2009),p1-41 [6] Meijun Zhang,Sichen Han,Chuang Wang and Shuguang Li.
Vol. 479-481(2012) , p1180-1185 [7] Meijun Zhang,Hao Chen,qin Cao and Chuang Wang.

Figure.1 shows the schematic diagram of ECAP process.
References [1].
And Tech. 6 (2012) no. 1 1067-1070
Alloys Compd. 479(2009) no. 1–2 334-341
A. 462 (2007) no. 1–2 3-11

Fig. 1.
Then, we obtain: Nel=11+P1+ql-1ηThlα3ql-12ql-1
(10) Neh=P1+P1+qh-1ηα3qh-12qh-1
References [1] A.
Phys. 52 (1988) 479-487

The changing rules are as followed in Eq. 1
References [1] Y.C.
Vol. 1 (2004) No.17, p. 90 [2] X.Y.
Vol. 45 (2014) No.1, p. 229 [6] C.Pan.
Vol. 33 (2008) No.1, p. 208 [7] L.Q.

All this work laid a sound foundation for next entironmental influence prediction and appraisal. 1.
The technical processes and equipment doesn’t belong to restricted and abandoned lists in coal mine [1].
Classifications of soil fertility are showed in Table 1.
From total N, 15 kinds on level 1 and occupy 56% and the same 4 kinds on level 2 and 3 and occupy 15% respectively.
Advanced Materials Research, 2012, 479-481: 366-369

The creep constants for the base metal and weld metal are presented in Table 1.
Fig. 2 Finite element mesh for (a) global mesh and (b) local crack tip grids Table 1 Creep constant used in this paper AB(MPa-n·h-1) AW(MPa-n·h-1) m n 2.64E-16 2.64E-14 0.41 5 2.64E-16 7.92E-16 0.81 5 2.64E-16 2.64E-16 1.00 5 2.64E-16 2.64E-17 1.55 5 2.64E-16 2.64E-18 2.41 5 Elastic mixity factor and creep mixity factor According to Eq. , the elastic mixity factor in this paper is kept as 0.254.
References [1] Kim Y-J, Schwalbe K-H.
The Journal of Strain Analysis for Engineering Design. 2003;38:1-27
International Journal of Solids and Structures. 1981;17:479-92