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All above of these provide the theoretical basis for further research of the cylinder mechanism, especially for the improvement of the structure and the subsequent optimization as well as the heat treatment of the materials.
Defining the Material Properties.
The material of roller is HT200; the material of the shaft and bearings is 45 steel and the other material properties are listed in table 1.
Table 1 Material properties Material attribute names Spindle and bearing set value Roller material set value density 7800 7200 modulus of elasticity 2.0×105 1.1×105 Poisson's ratio 0.3 0.28 Meshing.
The solid model can be meshed after defining the material properties.

Experimental Materials.
Energy absorption of structures and materials.
Journal of Achievements in Materials and Manufacturing Engineering 24 (1) (2007) 36 - 42
Materials and Design 30 (2009) 2393 - 2403
International Journal of Mechanical Sciences 43 (2001) 153 - 76

Experimental Preparation of alloys The (Fe-Ni) alloy has been formed from high purity materials ≥ 99.95% of Fe, Ni.
Materials Letters, 60(8), 1068-1070. https://doi.org/10.1016/j.matlet.2005.10.078 [4] Iwase, A., Hamatani, Y., Mukumoto, Y., Ishikawa, N., Chimi, Y., Kambara, T., & Ono, F. (2003).
Progress in Materials Science, 56(2), 175-287. https://doi.org/10.1016/j.pmatsci.2010.10.001 [16] Suresh, S. (2013).
International Journal of Physical Sciences, 8(21), 1121-1127
International Journal of Electrochemical Sciences, (7), 1288-1302.

Advanced Materials Research 79-82 (2009), 1791-1794
Journal of Materials Engineering & Performance 23 (2014), 1585-1592
Journal of Materials Science Materials in Electronics 28 (2016), 1-10
Journal of Electronic Materials 40 (2011), 1533-1541
Materials Characterization 60 (2009), 519-524

Experiment Materials.
Journal of Macromolecular Science, Part B, 10(2013) 1355-1371
Advanced Materials Research, 488-489(2012) 648-653
Materials & Design, 8-9(2011) 4493-4501
Journal of Applied Polymer Science, 2(2012) 536-543

For materials whose static strength is small or zero, e.g., sand or water, the depth of penetration is no larger than 100 times the size.
Journal of Physics and Thermophysics, 2002, V.75, #3, P. 753-770
Proceedings of USSR Academy of Sciences, Mechanics, 1987, V. 292, # 6, P.1319-1322
Engineering Physics, National Academy of Science, Belarus, Minsk, 2002, V. 75, #4
Journal of South-Ural State University, Mathematics, Physics, Chemistry Series, 2006, Is.7, P.157-163 [6] 7.

The Mechanism Investigation on Propagation and Coalescence Pattern of Three Internal Plane Flaws in Brittle Materials Yanshuang Guo1 , Weishen Zhu1, a , R.H.C Wong 2 ,Shucai Li1 and Chunjin Lin1 1 Geotechnical & Structural Engineering Research Centre, Shandong University, China 2Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Hong Kong a Zhuw@sdu.edu.cn Keywords: pre-existing flaw; coalescence; wrapping crack; fracture mechanism Abstracts: Under the action of compressive load, the growth and coalescence containing flaws in brittle materials (rock and rocklike materials e.g.) will result in the local buckling and global fracture of rockmass.
It is a typical mechanism of fracture in brittle rocks and heterogeneous brittle materials under uniaxial compression consists in propagation of pre-existing flaws and interaction of wing cracks.
In 2-D case, the wing cracks propagation from the inclined flaws are studied with different materials by many researchers, such as Horii, Nemat-Nasser, Peng, et al [2].
So the resin after freezing can be taken as rock-like material.
Yin Experimental Study of 3-D Surface Flaw in Brittle Materials, Chinese Journal of Geophysics, Vol. 30 (1987), P.371- 378

Kopp et al: Journal of Materials Processing Technology Vol. 60 (1996), p. 369-376 [7] Jack Xuan, Chung Shih Pan.
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Grevey, Grooving by Nd:YAG laser treatment, Journal of Materials Processing Technology, 2000, 99: 32-37 [17] Yang M.
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Yasin: Materials Science and Engineering A.

The number of techniques used for stress measurement is very large: however, none of these techniques is perfect when applied to the materials encountered in microelectronics.
Conf. on Solid State Devices and Materials (SSDM) (Tokyo, Japan) (Japan Journal of Applied Physics, 22 553-6) [2] Takami Y, Isomae S, Sagara K and Kure T: Journal of the Electrochemical Society, 135 (1988) 726-30 [3] Stiffler S R, Lasky J B, Koburger C W and Berry W S: IEEE Transactions on Electron Devices, 37 (1990) 1253-8 [4] Isomae S and Aoki S: 1986 Extended Abstracts of the 18 th Int.
Conf. on Solid State Devices and Materials (SSDM) (Tokyo, Japan) pp 517-20 [5] Matsuda S, Yoshino C, Nakajima H, Inou K, Yoshitomi S, Katsumata Y and Iwai H: 1994 Proc. 1994 Int.
Conf. on Solid State Devices and Materials (SSDM) (Tokyo, Japan) pp 327-30 [14] Flinn P A and Waychunas G A: Journal of.
Conf. on Solid State Devices and Materials (SSDM) (Tokyo, Japan) pp 221-4, C-2-2 [18] Armigliato A, Balboni R, De Wolf I, Frabboni S, Janssens K G F and Vanhellemont J: 1993 Inst.

:Journal of Hazardous Materials Vol.47(1996),p.43 [2] Huang B.
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