Lifecycle Impact Reduction and Energy Savings through Light Weight Eco-Design ofMachine Tools. Lifecycle Impact Reduction and Energy Savings through Light Weight Eco-Design ofMachine Tools.
The energy consumption of machine tools dominates their ecological impact andis a key component of the total energy required for the manufacturing ofproducts. In addition to building machines from efficient com-ponents, onepossible strategy to minimise energy consumption is to reduce the movingmasses to lower the peak and basic power demand. As light weight design takento the extreme leads to reduced stiffness and damping, we present a holisticconcept that comprises the mechanical and electrical systems, control andmanufacturing process to achieve energy savings through radical moving massreduction.
%0 Generic
%1 DietmairZulaikaSulitkaEtAl2010
%A Dietmair, A.
%A Zulaika, J.
%A Sulitka, M.
%A Bustillo, A.
%A Verl, A.
%D 2010
%K Energieeffizienz ISW Leichtbau, Werkzeugmaschinen,
%P --
%T Lifecycle Impact Reduction and Energy Savings through Light Weight Eco-Design ofMachine Tools. Lifecycle Impact Reduction and Energy Savings through Light Weight Eco-Design ofMachine Tools.
%X The energy consumption of machine tools dominates their ecological impact andis a key component of the total energy required for the manufacturing ofproducts. In addition to building machines from efficient com-ponents, onepossible strategy to minimise energy consumption is to reduce the movingmasses to lower the peak and basic power demand. As light weight design takento the extreme leads to reduced stiffness and damping, we present a holisticconcept that comprises the mechanical and electrical systems, control andmanufacturing process to achieve energy savings through radical moving massreduction.
@misc{DietmairZulaikaSulitkaEtAl2010,
__markedentry = {[xtl:6]},
abstract = {The energy consumption of machine tools dominates their ecological impact andis a key component of the total energy required for the manufacturing ofproducts. In addition to building machines from efficient com-ponents, onepossible strategy to minimise energy consumption is to reduce the movingmasses to lower the peak and basic power demand. As light weight design takento the extreme leads to reduced stiffness and damping, we present a holisticconcept that comprises the mechanical and electrical systems, control andmanufacturing process to achieve energy savings through radical moving massreduction.},
added-at = {2016-03-03T09:53:12.000+0100},
author = {Dietmair, A. and Zulaika, J. and Sulitka, M. and Bustillo, A. and Verl, A.},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/284ea81d9a0ec6ce49efb5c81800b9039/isw-bibliothek},
interhash = {f47142f75ef77c0e41f082ec7bcb0517},
intrahash = {84ea81d9a0ec6ce49efb5c81800b9039},
keywords = {Energieeffizienz ISW Leichtbau, Werkzeugmaschinen,},
pages = {--},
timestamp = {2016-03-03T09:18:35.000+0100},
title = {Lifecycle Impact Reduction and Energy Savings through Light Weight Eco-Design ofMachine Tools. Lifecycle Impact Reduction and Energy Savings through Light Weight Eco-Design ofMachine Tools.},
year = 2010
}
