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[4] PK Jha and SP Sanyal, Lattice vibrations in Yb-pnictide compounds, Physical Review B 52 (1995), 15898 [5] PK Jha and P Sanyal,Lattice vibrations in intermediate valence compounds SmS and TmSe Indian Journal of Pure and Applied Physics 31 (1993), 469-473
[7] SD Gupta, SK Gupta and PK Jha, First-principles lattice dynamical study of lanthanum nitride under pseudopotential approximation, Computational Materials Science 49 (2010), 910-915
[8] PK Jha and SP Sanyal, High pressure behavior of NpSe and NpTe, Journal of Physics and Chemistry of Solids 64 (2003), 127-131
Vogt, Magnetic and electronic properties of neptunium and plutonium compounds, Journal De Physique Colloque C8 12, (1988) 469-474

., Experimental Investigation of Explosive Welding of Cp-Ti AISI 304 S.Steel, Material & Design , Vol 30, Issue 3, 2008, pp 459-467 [2] Cowan, G.R. and Holtzman, A.H., Flow Configuration in Colliding Plates: Explosive Bonding, Journal of Applied Physics, Vol 34, 1963, pp 928 [3] Brikhoff,G.
,Pugh,E.M., With Lined Cavaties, Journal of Applied Physics,Vol 19, 1948, pp 563 [4] Carpenter, S. & Wittman R.H.
Annual Review of Material Science,Vol 5, pp177-179 [5] Colin,M., Journal American Welding Society,Vol 85, 2006, pp 27-29 [6] Raghu,N. & Sanjay, IGCAR-Kalpakam, India, National Symposium, 2004 [7] Baker, J.G. & Runeke, E.G.

One of the basic groups of materials, which allows the realisation of the mentioned tasks are the magnesium and aluminium alloys.
Deposition of hard layers of nitrides, carbides or oxides on surface of the engineering materials in the PVD processes features the most intensely developing direction of extending the functional elements’ life.
Labisz, Investigation of microstructure and dislocations of cast magnesium alloys, Journal of Achievements in Materials and Manufacturing Engineering 42 (2010) 94-102
Janicki, Characteristic of Mg-Al-Zn alloys after laser treatment, Archives of Materials Science and Engineering 34/2 (2008) 69-74
Langdon, Microstructural processes in creep of an AZ91 magnesium-based composite and its matrix alloy, Materials Science and Engineering A 319-321 (2001) 741-745.

Liu, Analysis and Research on the Mechanics of Human Body Exoskeleton Movement, Applied Mechanics and Materials, vol. 687-691 (2014) 191-194
Journal of Theoretical and Applied Mechanics. vol. 44/4 (2014) 3–14
Mikolajczyk, Model of human hand controlled using pneumatic muscles, Applied Mechanics and Materials, Trans Tech Publishing, Switzerland, vol. 555 (2014) 155-162
Matuszewski, Example of tool with two numerical controlled axes, Applied Mechanics and Materials, Trans Tech Publishing, Switzerland, vol. 772 (2015) 224-229
Mihai, Proper smart method of the inverse kinematics problem, Applied Mechanics and Materials, Trans Tech Publishing, Switzerland, vol. 772 (2015) 455-460

Tailoring dynamic recrystallization in Ni- and Fe-base high temperature alloys Pedro Rivera-Diaz-del-Castillo1,a , Enrique Galindo-Nava1,2,b 1Department of Materials Science and Metallurgy, University of Cambridge, United Kingdom 2Department of Materials Science and Engineering, Delft University of Technology, Netherlands apejr2@cam.ac.uk, beg375@cam.ac.uk Keywords: Dynamic recrystallization; dislocation theory; plasticity; hot deformation; statistical thermodynamics.
The energy barrier to ignite grain growth is expressed as a function of the strain energy stored in the material and a statistical entropy contribution due to the degrees of freedom available to a dislocation for annihilation.
Rivera-Diaz-del-Castillo: Materials Science and Technology.
Rivera-Diaz-del-Castillo: submitted to International Journal of Plasticity

Fig.1 Three-dimensional calculation model Fig.2 The center section of model 2.2 Boundary conditions setting The boundary conditions of the cube and underside hypothesis is the fixed boundary, and the upper surface of the cube (surface of soil) hypothesis is the free boundary. 2.3 Constitutive model and parameters selecting 1) The constitutive model of soil Due to the soil materials for granular materials, the stress-strain characteristics is very difficult to use elastic constitutive model to describe, the Mohr-Coulomb constitutive model is used in order to be more realistic. 2) The initial expansion of hole radius determined In order to avoid the circumferential strain of infinite phenomenon which was caused by the initial radius is zero.
Tab.1 The material parameters of soil Soil name E（MPa） （°） c（kPa） Cu（kPa） μ Soft clay 3 10 10 14 0.45 K and G is two elastic constants, and it is commonly used to describe the material properties instead of elastic modulus E and Poisson’s ratio in FLAC3D.
Weak soil compaction effect of pile design and test [J], Sichuan Building Science, 2011, Vol. 37(5):103-106
Growth of Pile Bearing Capacity over Time Considering the Dissipating of Excess Pore Pressure [J], Journal of Engineering Geology, 2012,20(5):815-820
[16] ZHAO Ming-hua, ZHAN Xin-jie, ZOU Xin-jun, Numerical Simulation of Pile Installation and Subsequent Consolidation in Clay[J], Journal of Hunan University (Natural Sciences), 2013,40(2):1-8

Young's modulus is one of the basic mechanical properties of materials, so its accurate measurement has great engineering significance.
Introduction Young's modulus is one of the basic mechanical properties of materials. it represents the capability of solid material to resist the deformation, have high application and reference value for product design and material selection, development of new materials, product quality control and equipment safety assessment[1].
There are a variety of methods to measure the Young's modulus of metal materials. such as the static stretching method, the bending method and dynamic resonance method[2,3].
In the experiment of Electrometric method to measure the metal material Young's modulus, the workpiece which is shown in Figure 2 is used as the experimental subject, the material is Steel No.45 with Chinese standard (steel S45C).
Successive differential method is used to calculate the Young's modulus material.

PWBs consist of copper foil and insulation layers, which are composite materials composed of a glass cloth and epoxy resin.
Because materials with different physical properties are processed simultaneously, the processing phenomena become extremely complex.
[2] Arai, T., Yamamoto, K., Matsumura, K., and Kita, Y., PWB Manufacturing technology －trends of the latest PWB manufacturing technology to watch from history－, Journal of The Japan Institute of Electronics Packaging, Vol.17, No.6 (2001), pp. 38-43 (in Japanese)
[3] Kataoka, T., Challenge on New Process Using Ultra Thin Copper, Journal of The Japan Institute of Electronics Packaging, Vol.2 No.4 (2001), pp. 108-112 (in Japanese)
[4] Koji, K., Iozumi, M., Hirogaki, T., Aoyama, E. and Ogawa, K., Pulse laser irradiation control method for blind via-hole drilling of printed wiring boards based on high-speed camera monitoring, Materials Science Forum, Vol. 874 (2016), pp.285-290

Then the porosimetric properties of these materials as well as; their reactor behaviors assessed.
Also adsorption/desorption isotherms revealed that both materials were mesoporous.
Calcination did not affect basic texture of both materials and it was evidenced by adsorption/desorption isotherms of dual calcined materials, instead some pores were blocked out.
Dry: Fischer Tropsch Technology (Elsevier Science & Technology Books, 2004) [3] E.
Rashidi, Submitted to Journal of Nanoparticle Research [6] M.

Effect of Austempering Temperature on Microstructure and Properties of Carbidic Austempered Ductile Iron Jinhai Liu, a, Guolu Li,b Xuebo Zhao,c Xiaoyan Hao,d Jianjun Zhang,e School of Materials Science and Engineering, Hebei University of Technology,Tianjin, 300132, China aJhliugongda@gmail.com, bliguolu@hebut.edu.cn, c zhaoxuebo@126.com, dhxytj2010@126.com, ejjzhang567@gmail.com Keywords: Nodular iron; CADI; Austempering; Microstructure; Mechanical Properties; Abrasive Resistance; Abstract.
Consequently, the CADI is a promising new kind of abrasive material.
When the carburizing layer wears off, the inner microstructure has low abrasive resistance In addition, under the case of wet abrasion, the abrasive resistance depends on two aspects, the first is hardness of materials and the second is the corrosion resistance.
Foundry Trade Journal. 2004, Vol.178(3612) ：54-56 [2].
Lynn Postle, Furnace is a key to CADI Solution, Foundry Trade Journal. 2006, vol.180, (3632) [5].