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Wire electrical discharge machining (WEDM) is a widespread technique used in manufacturing industry for high precision machining of all types of conductive materials such as metals and its alloys of any hardness which are difficult to machine with traditional techniques.
The experiment material is SKD-11 steel.
Introduction Wire electrical discharge machining (WEDM), an electrothermal metal removal process, has been widely used in mold and die industries, complex and irregular shapes in various difficult-to-machine electrically conductive materials [1].
Boonmung, An investigation on effects of wire- EDM machining parameters on surface roughness of newly developed DC53 die steel, Journal of Materials Processing Technology, vol.187- 188, 2007, pp. 26-29
Satyanarayan, 2010, A Prediction of Material removal rate for Aluminum BIS-24345 Alloy in wire-cut EDM, International Journal of Engineering Science and Technology, Vol. 2 (12), 7729-7739

Wire electrical discharge machining (WEDM) is a material removal process of electrically conductive materials by the thermo-electric source of energy .This kind of machining extensively used in machining of materials with highly precision productivity.
In order to optimize machining conditions for materials with different thermal properties or advanced materials, experimental investigations are still essential.
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The rubber was selected as the flexible material while the steel plate is selected as the rigid material.
A series of research shows the composite materials or structures can be the right answer to the challenge [5-7].
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Materials and Methods Materials The sediments used in this study were evacuated from the discharge area of ​​the of Fergoug dam which is located in the region Perregaux (Western Algeria).
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LCA is a process of evaluating the environmental impacts associated with a product, process, or activity by: identifying and quantifying the energy and materials used and the wastes released to the environment; assessing the impacts of those energy and material uses and releases to the environment; and identifying and evaluating opportunities for environmental improvements [9].
All emissions, energy consumption, materials and cost are based on this functional unit.
Acknowledgment This research was supported financially by the Key Project (No.71033005) from National Natural Science Foundation of China.
Hu, et al., To evaluate the environmental impact of copper slag as raw material of copper concentration using life cycle assessment method, Chinese Journal of Environmental Engineering 3 (2009) 349-353
Graduate University of Chinese Academy of Sciences, Beijing, China, 2007

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Experimental Part Materials.
PMMA is one of the known insulating polymer materials.
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This research is supported by National Natural Science Foundation of China (Grant NO.2012Z0606).
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