000002417 001__ 2417
000002417 005__ 20181220113754.0
000002417 022__ $$a2212-8271
000002417 0247_ $$2DOI$$a10.1016/j.procir.2017.12.161
000002417 037__ $$aCONFERENCE
000002417 245__ $$aSmart generator for micro-EDM-milling
000002417 260__ $$c2018$$b23-27 April 2017$$aBilbao, Spain
000002417 269__ $$a2018-04
000002417 300__ $$a6 p.
000002417 506__ $$avisible
000002417 520__ $$aMicro-EDM-Milling has a strong innovation potential because it can perform accurate and detailed cavies with a high aspect ratio. In this technology, the electrode wear and material removal produced by every discharge is determined by the effective power delivered by the generator during every pulse cycle. High speed electronics make now possible the statistical analysis of sparks distributions in real time during the machining but also the measurement and modulation of the characteristics of every spark-discharge. It is now possible to measure and control in real-time the electrode wear and the material removal with extreme accuracy. Our “Smart EDM Generator” has the functions of voltage measurement, spark analysis and process control. It can count the sparks and classified them, control the electro-erosion process and calculate the wear of the electrode. The statistical distribution of the sparks and other parameters can be acquired by the CNC-PC from a direct Ethernet link and be visualized on a specific HMI.$$9eng
000002417 592__ $$aHEPIA - Genève
000002417 592__ $$binSTI - Institut des Sciences et Technologies industrielles
000002417 592__ $$cIngénierie et Architecture
000002417 65017 $$aIngénierie
000002417 6531_ $$aMicro-EDM-Milling$$9eng
000002417 6531_ $$aSmart EDM generator$$9eng
000002417 6531_ $$aEDM linear current$$9eng
000002417 6531_ $$aMicro-machining$$9eng
000002417 6531_ $$aHigh aspect ratio$$9eng
000002417 6531_ $$aReal time sparks analysis$$9eng
000002417 6531_ $$aFrequency EDM process control$$9eng
000002417 655_7 $$afull paper
000002417 700__ $$uSchool of Engineering, Architecture and Landscape (hepia), HES-SO // University of Applied Sciences Western Switzerland$$aGiandomenico, Nicola
000002417 700__ $$uSchool of Engineering, Architecture and Landscape (hepia), HES-SO // University of Applied Sciences Western Switzerland$$aRichard, Jacques
000002417 700__ $$uSchool of Engineering, Architecture and Landscape (hepia), HES-SO // University of Applied Sciences Western Switzerland$$aGorgerat, Florian-Henri
000002417 700__ $$aRobert, Arnaud$$uSchool of Engineering, Architecture and Landscape (hepia), HES-SO // University of Applied Sciences Western Switzerland
000002417 711__ $$a19th CIRP Cpnference on Electro Physical and Chemical Machining$$cBilbao, Spain {48080}$$d23/04/2017 / 27/04/2017
000002417 773__ $$g2018, 68, pp. 813-818$$tProceedings of the 19th CIRP Conference on Electro Physical and Chemical Machining, 23-27 April 2017, Bilbao, Spain
000002417 8564_ $$uhttps://hesso.tind.io/record/2417/files/Giandomenico_2018_SmartGenerator.pdf$$s897755
000002417 906__ $$aGREEN
000002417 909CO $$pGLOBAL_SET$$ooai:hesso.tind.io:2417
000002417 950__ $$aI1
000002417 980__ $$aconference