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The research of this topic provides a method from the theoretical calculations for in search of new fiber-optic sensing materials.
The simulation of the semiconductor materials' properties in theory by using computer has some inadequacies.
In this alloy materials, the lattice distortion, caused for that atomic In is replaced by Ga, can be compensated appropriately for the replacement of P by As.
Further, based on calculation program of molecular dynamics, a series of optical properties of materials have been studied.
Sichuan university journal, 2005,(S1)

Introduction Functionally Graded Materials (FGMs) were initially designed for thermal barrier materials in aerospace structural applications and fusion reactors.
FGMs consist of a ceramic and a metal at which the volume fraction of the two materials is varied, according to a power-law distribution.
The material in top surface ( ) and in bottom surface () is Full-Ceramic and Full-Metal respectively, and between these two pure materials, power law distribution of material is applied.
Journal of Sound and Vibration 319 (2009) 918-939
Australian Journal of Basic and Applied Sciences 3 (2009)

The paper shows that due to the progress of science and technology, housing industrialization has led to the development of steel structure housing, and vice versa the development of steel structure housing has promoted the housing industrialization.
As a branch of buildings, steel structure housing is boned as steel beam and steel column from factory production, along with the new light, insulation, heat insulation and high strength of wall materials as retaining structure[2,3].
The wall material can be used in energy saving and environmental protection which attributes to green building and renewable recycling material.
The figure shows that under the factory production the garbage will be reduced by 83%, material loss reduced by 60%, recyclable materials accounting for more than 66%, saving energy more than 50%, error rate reduced to 0.01%, the exterior wall leakage rate less than 0.01%, precision bias less than 0.1% in mm.
[5] G.S.Wu,L.HUA,and J.XU,in:Application and development of light steel structure housing system,Journal of Shanghai Institute of Technology(Natural Science ), 04(2003)

Introduction Barium titanate (BaTiO3) is a prototypical ferroelectric material with a characteristic tetragonal distortion of cubic perovskite structure.
The starting materials were mixed powders BaCO3 (99.5% purity, May & Baker LTD., UK) and TiO2 (Ajax Finechem).
Acknowledgments The authors thank the Advanced Materials Physics Laboratory (Amp.), School of Physics, Institute of Science, Suranaree University of Technology, NakhonRatchasima and the division of Science, Faculty of Science and Technology, Rajamangala University of Technology Phra Nakhon (RMUTP).
Que, Barium titanate derived from mechanochemically activated powders, Journal of Alloys and Compounds. 337 (2002) 226-230
Niepce, Synthesis reaction of metatinate BaTiO3 Part 1 Effect of the gaseous atmosphere upon the thermal evolution of the system BaCO3-TiO2, Journal of Materials Science. 18 (1983) 3041-3046

Introduction The term material handling refers to the sum of operations related primarily to the relocation, storage, regulation, positioning, weighing, dosing and packaging of materials (e.g. things, raw materials, products or goods) in the sphere of production and distribution.
Dragomir, Kinematic Study of Industrial Robots, In: Applied Mechanics and Materials, Vol. 762 (2015) 267-270
Schonstein, Energies of Accelerations in Advanced Robotics Dynamics, In: Applied Mechanics and Materials, Vol. 762 (2015) 67-73
Ying, Motion Generation of Planar Six- and Eight-Bar Slider Mechanisms as Constrained Robotic Systems, In: Journal of Mechanisms and Robotics, Vol. 7, No. 3 (2015) 1-8
Kubasakova, Identification of Appropriate Methods for Allocation Tasks of Logistics Objects in a Certain Area, In: Our Sea, International Journal of Maritime Science & Technology, Vol.61, No.1-2 (2014) 1-6

PVA and CDEA can enhance the removal of the electrode material when they enhance the removal of the workpiece material, so the REWR changes a little.
Acknowledgement The authors gratefully acknowledge the financially support by the National Natural Science Foundation of China (Grant No. 50675225) and Department of Science & Technology of Shandong Province (Grant No. 2006GG2204001).)
Chen: International Journal of Advanced Manufacturing Technology, Vol. 34(2007), No. 1-2, pp. 104-110
Chu: Journal of Micromechanics and Microengineering, Vol. 17(2007), No. 5, pp. 867-874
Singh: Journal of the Institution of Engineers (India), Part PR: Production Engineering Division, Vol. 87(2007), pp. 3-8

Experimental Preparation of Materials.
Table 2 The mechanical performances of materials for space docking Materials Density (g/cm3) Porosity Apparent hardness Friction material 5.58 3.7% 58 HRF Counterpart material — — 37~42 HRC The Running-in Characteristics of Materials for Space Docking.
This process is defined as the running-in of materials.
Junkins: Journal of guidance, control, and dynamics Vol.29 No.4 (2006), p. 892
Deng: Advanced Materials Research No.284-286 (2011), p. 479

In India manufacturing industries must look to leverage its advantages, good conditions in terms of raw materials, its large domestic market and skilled labour with quality focus.
Kumar, Cycle time reduction of a truck body assembly in an automobile industry by lean principles, Procedia Materials Science, 5 (2014) 1853-1862
Jain, A literature review of lean manufacturing, International Journal of Management Science and Engineering Management, 8(4) (2013) 241-249
Journal of Management Science and Engineering Management, 5(5) (2010) 362-375
Venkataraman, Ramnath, Kumar and Elanchezhian, Application of value stream mapping for reduction of cycle time in a machining process, Procedia Materials Science, 6 (2014) 1187-1196

Research on Welding Deformation of Thick Plate Duralumin Alloy under A-TIG Yan Wang Material Engineering Institute , College of Mechanical & Material Engineering,China Three Gorges Univ.
Acknowledgements This work is supported by the Hubei Yichang Science and Technology Key Projeot（A08303-06） References [1] E.Cicala, G.
Andrzejewski: submitted to Journal of Materials Science and Engineering (2005) [2] A.F.
Prangnell: submitted to Journal of Materials Science and Engineering (1999) [3] T.Senthil Kumar, V.Balasubramanian and M.Y.Sanavullah: submitted to Journal of Materials and Design (2007) [4] Lucas W and Howes D S: submitted to Journal of Welding and Metal Fabrication (1996)

Experimental Materials. 1.67dtex×38mm soybean protein-PVA fibers; wool .
The index to denote the combustibility of the textile material is limiting oxygen index that is the lowest volume percent of oxygen to maintain the materials burning in the air.The larger the limiting oxygen index the higher the percent of oxygen to maintain burning[1].This shows that the materials are difficult to burn.Tab.5 shows the limiting oxygen index of soybean protein fiber, wool and silk.
References [1] Xu-W. , Thermal analysis of ultrafine wool powder [J], Journal of applied polymer science, vol .87(2003), p.2372-2376
[2] Zhang-H: Thermal properties of bombyx mori silk fibers[J].Journal of applied polymer science,vol.86(2002),p.1817-1820
[3] De-Clerck-K，Rahier-H and Van-Mele-B，et al., Thermal properties relevant to the processing of PET fibers [J], Journal of Applied Polymer Science，vol.89(2003)，p. 3840-3849