/ ECOEFICIENCIA Figura 6. Diseño definitivo del carnero aligerado y modular. [1] J. Zulaika, F.J. Campa, L.N. Lopez de Lacalle, “Light machine tools for productive machining”, 80 pp, ISBN 978-1-61324-644-3, Nova Publishers, New York, 2011 [2] J. Zulaika, F.J. Campa, J.A. Altamira, L.N. Lopez de Laca- lle, G. Urbikain, “Using Stability Lobe Diagrams for the Redesign of a Machine-Tool based on Productivity and Ecoefficiency Criteria” 12th CIRP Conf. on Modelling of Machining Operations, San Sebastian, 2009 [3] J. Tlusty, M. Polacek, The stability of machine tool against self-excited vibrations in machining, International Rese- arch in Production Engineering (1963) 465–474. [4] J. Zulaika, F.J. Campa, New Concepts for Structural Components, in: L.N. Lopez de Lacalle, A. Lamikiz (Eds.), Machine Tools for High Performance Machining, Springer Verlag, 2008, pp. 47-73. [5] A. Dietmair, J. Zulaika, M. Sulitka, A. Bustillo and A. Verl, “Lifecycle Impact Reduction and Energy Savings through Light Weight Eco-Design of Machine Tools”, 17th CIRP International Conference on LCE, Anhui, China, May 2010. Referencias [6] J. Zulaika, F.J. Campa, L.N. Lopez de Lacalle, “An inte- grated process–machine approach for designing productive and lightweight milling machines”, Interna- tional Journal of Machine Tools and Manufacture, Volume 51, Issues 7–8, July–August 2011, Pages 591- 604, ISSN 0890-6955 [7] A. Ganguli, A. Deraemaeker, M. Horodinca, A. Preu- mont, 2005, “Active damping of chatter in machine tools - demonstration with a 'hardware-in-the-loop' simula- tor”, Journal of Systems & Control Engineering 15: 359-369. [8] L.N. López de Lacalle, A. Lamikiz, “Machine Tools for High Performance Machining”. ISBN: 978-1-84800- 379-8. Springer-Verlag, Londres, 2010. [9] www.micromega-dynamics.com / 34 /