Add to ORKGInternational audiencePassive magnetic gravity compensation may be a very feasible alternative to commonly used mechanical or pneumatic solutions for vibration isolation systems. The final paper discusses a study on the optimal design of a magnetic spring with passive gravity compensation. For vibration isolation systems it is often preferred to combine a certain force level with very low spring stiffness to achieve a low resonance frequency. Several optimization methods are used in the paper to optimize the dimensions of planar magnet structures to exhibit a certain vertical force with low stiffness and the optimized results are compared. The results from this study give insight in the influence of topology choice on the achievable vibrati...
In contrast with the vibration isolation regime, which requires active elements, the gravity compens...
© 2005 IEEE.This paper presents research on a magnetic spring concept, which has application to the ...
© 2019 by the authors. Magnetic springs are a fatigue-free alternative to mechanical springs that co...
Passive magnetic gravity compensation may be a very feasible alternative to commonly used mechanical...
Passive magnetic gravity compensation may be a very feasible alternative to the more commonly used m...
Vibration isolation systems incorporating linear mechanical springs exhibit the undesirable characte...
This paper presents an analysis of a magnetic levitation system for vibration isolation. A non-dimen...
This paper presents a novel concept for the isolation of vibrations using magnetically adjusted spri...
In this paper a non-contact magnetic spring design is presented that uses inclined magnets to produc...
The use of permanent magnets has been investigated in recent years to provide load bearing forces fo...
Vibration disturbance has a consistent negative impact on equipment and processes. The central theme...
The development of sophisticated advanced vibration isolation is important because even the minutest...
The performance of conventional vibration isolation systems are limited by the stiffness of the moun...
Magnetic springs are a fatigue-free alternative to mechanical springs that could enable compliant ac...
This paper studies design constraints for a highmass, low-stroke suspension device based on permanen...
In contrast with the vibration isolation regime, which requires active elements, the gravity compens...
© 2005 IEEE.This paper presents research on a magnetic spring concept, which has application to the ...
© 2019 by the authors. Magnetic springs are a fatigue-free alternative to mechanical springs that co...
Passive magnetic gravity compensation may be a very feasible alternative to commonly used mechanical...
Passive magnetic gravity compensation may be a very feasible alternative to the more commonly used m...
Vibration isolation systems incorporating linear mechanical springs exhibit the undesirable characte...
This paper presents an analysis of a magnetic levitation system for vibration isolation. A non-dimen...
This paper presents a novel concept for the isolation of vibrations using magnetically adjusted spri...
In this paper a non-contact magnetic spring design is presented that uses inclined magnets to produc...
The use of permanent magnets has been investigated in recent years to provide load bearing forces fo...
Vibration disturbance has a consistent negative impact on equipment and processes. The central theme...
The development of sophisticated advanced vibration isolation is important because even the minutest...
The performance of conventional vibration isolation systems are limited by the stiffness of the moun...
Magnetic springs are a fatigue-free alternative to mechanical springs that could enable compliant ac...
This paper studies design constraints for a highmass, low-stroke suspension device based on permanen...
In contrast with the vibration isolation regime, which requires active elements, the gravity compens...
© 2005 IEEE.This paper presents research on a magnetic spring concept, which has application to the ...
© 2019 by the authors. Magnetic springs are a fatigue-free alternative to mechanical springs that co...