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Introduction Robot [1] is a senior integration, containing cybernetics, mechanical electronics, computer, materials and bionics.
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A new material model is established in Deform and its type selected is 3- Parameter-Barlat, namely type 36.
Then input the parameters of material properties.
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That is, as the strain increases, the cohesion and friction angle of the material gradually reduce.
Acknowledgements This work was financially supported by the National Basic Research Program of China (2012CB724206), the National Natural Science Foundation of China (51104087), and the Natural Science Fund Project of Chongqing Science and Technology Commission (2010BB6118).
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Due to the effect of lighting, image grabbing equipment and steel material, the obtained images by inspection system contain noise.
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DE HOSSON ** *) Corus Research Development and Technology Department of Aluminium Metallurgy and Materials Characterization Address code: 3G14, P.O.
Box 10000, 1970 CA IJmuiden, The Netherlands Email: marc.de-haas@corusgroup.com **) Department of Applied Physics, Materials Science Centre and Netherlands Institute for Metals Research, University of Groningen Nijenborgh 4, 9747 AG Groningen, The Netherlands Email: j.t.m.de.hosson@rug.nl Keywords: Analytical transmission microscopy, grain boundary precipitation, segregation 1.
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Materials and methods Materials for Experiments and Objects to Be Processed The object to be processed is the wastewater of a galvanization factory, which contains the cadmium.
Acknowledgment The National Natural Science Foundation (50174014) and the science and technology plan item of Hebei Province (09275513D) provided the funding for this work References: [1] M.I.Ansari, Ab Malik: Bioresource Technology,Vol.98(2007),p.3149-3153 [2] P.Lodeiro,J.L.Barriada,and R.Herrero: Environmental Pollution, Vol.15(2005),p.110 [3] P.Lodeiro,B.Cordero,and J.L.Barriada:Journal of Hazardous Materials,Vol.126(2005),p.96-104 [4] S.J.Dai,D.Z.Wei,and Y.J.Wang: PROGRESS in Environment Science and Technology, Vol.I(2007),p.905-909 [5] S.J.Dai,D.Z.Wei,and Y.J.Wang : XXIV International Mineral Processing Congress,Vol.24(2008),p.2838-2845 [6] S.J.Dai,D.Z.Wei,And Y.J.Wang:Nonferrous Metals，Vol.60(2008),p. 120-124 [7] B.P.Xin, G.L.
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Acknowledgements The authors gratefully acknowledge the funding for this work from Project supported by the National Natural Science Foundation of China (Grant No.51005216) and the Natural Science Foundation of Zhejiang Province (Grant No.
Zhejiang province science and technology projects (Grant No.2011C21037).
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Microwave-material interaction in oxide ceramics with different additives.
Experimental Commercial available materials were employed, as shown in Table 1.
Part of the work is performed in the frame of the INTAS-project Nonthermal effects in the microwave processing of advanced materials.
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