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Recycling, recovery and improvement of properties of ceramic tile manufacturing by adding two types of glass in clay mixtures CHEMANI Halima1,a. 1Department of Materials Engineering, Faculty of Engineering Sciences, University M'Hamed Bougara, Boumerdes, 35000 – Algeria.
It should be noted that glass and ceramic are materials interrelated, because of their origin in particular.
Thus, number of industries uses it in the manufacture of various materials.
The grinding of materials was carried out in ball mills - grinding media: sea pebbles.
Kornmann, Clay Building Materials, Manufacture and Properties @ Septima.

Acknowledgement: This work was supported by the Special Science Research Project of Shandong Province (2007GG10003030), and the Science Foundation of Shandong University of Technology (305003).
Isogawa, etal.: Polymer Engineering & Science Vol.8(1994),p.680-690. 2.
Xue dong Li, Hao Pang, Guo Lin, etal.: Polymer Materials Science and Engineering Vol.16(2000), p.127-129,in Chinese. 3.
Takaki,Akira Yasui,Hideo Narisawa,etal: Polymer Science & Technology General Vol.37(1997),p.105-119. 5.
Zhao C Z, Wu G F, Zhang H X.: Journal of Polymer Science Part B: Polymer Physics Vol.4(2006), p. 696-702. 6.

Introduction With the development of science and technology, the exploration, relief, and other dangerous places of work the explosive-handling robot, and automation production in the use of robots are also increasingly widely [1].
According to the principle of people and the arm movement of material, it is most promising to three application manipulator arm rod manipulator of the freedom of six working device.
Acknowledgment This research has been sponsored by National Natural Science Foundation China (No. 51075217).
Journal of Field Robotics.
Journal of Mechanical Design, Transactions of the ASME.

Investigation of the mechanism of polar excitations on frog sciatic nerve by optical stimulation Yuya Hirayama1,a, Satoru Ishizuka1,b, Zimin Lev Grigorievich1,c, Takeshi Yamakawa1,2,d, and Toshitaka Yamakawa2,3,e 1Department of BrainScience and Engineering, Graduate School of Life Science and Systems Engineering, Kyushu Institute of Technology, 2-4, Hibikino, Wakamatsu-ku, Kitakyushu-shi, Fukuoka, Japan 2Fuzzy Logic System Institute, 680-41, kawazu, iizuka-shi, Fukuoka, Japan 3Department of Electrical and Electronics Engineering, Faculty of Engineering, Shizuoka University, 3-5-1, Jyohoku, Naka-ku, Hamamatsu-shi, Shizuoka, Japan {ahirayama-yuya@edu., bishizuka@, czimin@, dyamakawa@}brain.kyutech.ac.jp ettyamak@ipc.shizuoka.ac.jp Keywords: Optical stimulation, Holumium YAG laser, Frog sciatic nerve Abstract.
Material and Methods All experiments were performed under appropriate conditions in accordance with the Declaration of Helsinki and the Bioethical Standards of Animal Experiments in KIT.
Acknowledgments This work was supported by a Grant-in-Aid for Specially Promoted Research (Project No.20001008) granted in 2008 to Kyushu Institute of Technology, Yamaguchi University and Shizuoka University by Japan Ministry of Education, Culture, Sports, Science and Technology.
Yamakawa: Irreversible Blocking of Polar Excitations on Frog Sciatic Nerve Using Semiconductor Pulse Laser Irradiation, Journal of Automation, Mobile Robotics and Intelligent Systems, Vol. 3, No. 4, (2009), p. 210-212
M-Jansen: Pulsed laser versus electrical energy for peripheral nerve stimulation, Journal of Neuroscience Methods, Vol. 163, (2007), p. 326-337

The Synthesis and Ion-exchange Property of Li+ Memorized Spinel Li2.5Ti1.375O4 Jinhe Jiang MicroScale Science Institute , Department of Chemistry and Chemical Engineering ,Weifang University, Weifang, 261061,China Corresponding author.
References [1] Z.S.Peng: Synthesis and electrochemical studies on spinel phase LiMn2O4 cathode material prepared by different proceses, J.
Rare Metal. 1999,18(2),143 [2] Z.S.Peng, Y.S.Yan, C.Y.Jiang, C.R.Wan, H.C.Gao: Advance on extraction lithium from salt lake, J.Chemistry Online. 1997,(12),11 [3] Y.F.Liu, Q.Feng, Kenta Ool: Li extraction/insertion reaction with LiAlMnO4 and LiFeMnO4 spinels in the Aqueous phase, J.Journal of Colloid and Interface Science. 1994,163(1),130 [4] H.Zhong: Prpperty of H2TiO3 type ion-exchangers and extraction of lithium from brine of natural gas wells, J.Chinese Journal of Applied Chemistry. 2000,17(3),307

Fig.1 Connection configuration (unit: mm) Fig.2 Typical loading history Fig.3 Test setup and measurement Table.1 Measured mechanical properties of cross shaped steel and reinforcement Material Yield strength fsy (MPa) Ultimate strength fu (MPa) 6 mm dia. reinforcement 382 551 8 mm dia. reinforcement 470 661 14 mm dia. reinforcement 357 469 16 mm dia. reinforcement 391 571 I140×80×5.5×9.1 254 368 Table.2 Comparison between calculation values and test values Specimen Test parameters Calculation values in the connection core region Vcr1/ kN Test values in the connection core region Vcr2/ kN Vcr1/ Vcr2 ρv (%) nt CSS-RC-1 1.0 0.40 449.45 481.46 0.934 CSS-RC-2 1.6 0.35 457.63 446.29 1.025 CSS-RC-3 1.6 0.40 457.14 487.22 0.938 CSS-RC-4 1.6 0.45 494.33 512.77 0.964 CSS-RC-5 2.2 0.40 444.03 495.17 0.897 CSS-RC-6 2.2 0.45 489.19 539.57 0.907 Calculation methods Fig.4 Seismic actions in equilibrium Fig.5
Acknowledgements The research reported in the paper is a part of the Project 50878037 supported by National Natural Science Foundation of China, Project LP1015 supported by Open Foundation of State Key Laboratory of Coastal and Offshore Engineering and Project 20100471445 supported by China Postdoctoral Science Foundation.
Journal of Building Structures, Vol.11(1990). p.28 [3] H.
Journal of Shenyang Architecture and Civil Engineering University, Vol.19(2003). p.178 [4] C.

Fig.1 Joint configuration (unit: mm) Fig.2 Typical loading history Fig.3 Arrangement of test setup and measurement Table 1 Measured mechanical properties of structural steel and reinforcement Material Yield strength fsy [MPa] Ultimate strength fu [MPa] 6 382 551 8 470 661 14 357 469 16 391 571 I14 254 368 Experimental results At approximately 64% of peak load, the primary cracks in the specimens’ joint core region started and spread in diagonal direction.
Acknowledgements The research reported in the paper is a part of the Project 50878037 supported by National Natural Science Foundation of China, Project LP1015 supported by Open Foundation of State Key Laboratory of Coastal and Offshore Engineering and Project 20100471445 supported by China Postdoctoral Science Foundation.
Journal of Building Structures, Vol.11(1990), p.28 (in Chinese) [3] H.
Journal of Shenyang Architecture and Civil Engineering University, Vol.19(2003), p.178 (in Chinese)

The structure parameters of self-cleaning plate shell heat exchanger material heat transfer area (m2) corrugated form corrugated angle (o) clearance between plates (mm) plate thickness (mm) 317L 100 Chevron Shape 60 6 0.75 Results and Discussion The experimental data of the heating system using the waste heat of washing BFS water are shown in the Table 2.
Acknowledgements This work is financially supported by the Natural Science Foundation of China and the Key Project of Iron and Steel Joint Fund (50934010).
[3] Nishimura T, Ohori Y, Kawamura Y: Journal of Chemical Engineering of Japan, Vol. 17(1984), p. 466-471
[4] Zhiming Xu, Jinxian Deng, Junsheng Guo: Journal of Thermal Science and Technology, Vol. 17(2010), p. 11-14.

A variety of software of materials forming simulation has emerged, such as：DYNAFORM, DEFORM, ITAS-3D and so on.
It can also forecast the process of molding material rupture, wrinkling, thinning, springback, and evaluate the formability of the board material.
Therefore, it provides technical support for materials forming process and mold design.
Suppose the tube material is ST16, and the material parameters are given as follows: material density =7.85, Young's modulus =207000Pa, Poisson’s ratio =0.28, Static friction coefficient = 0.125.
[4] Jin-ping Luo: Journal of Suzhou Vocational University in Chinese, Vol.16 (1) (2005), p77

Weld brazing of the galvanized sheet The materials used in experiments was S235 steel sheet (EN 10025:1993), having thickness of 1 mm, which was Zn galvanized.
Also using these filler materials based on copper the anticorrosive protection is unaffected.
They were obtained by setting the appropriate input data regarding the base material, additional materials and shielding gas Table 1.
Journal of Environmental Protection and Ecology, vol. 12, no.2A, (2012) pp. 1038-1046 [2] J.Bruckner, H.
Materials Science and Engineering, Vol. 499, (2009) pp.111-114 [4] A.