Among the available micromachining processes, micro mechanical machining is well appreciated for its versatility, which has let to its application in a wide range of industrial fields. However, basic research is still needed to investigate the tool-material interaction and the chip formation at the microscale. The so-called quick-stop experiments can be exploited to carry out this kind of studies since they allow to freeze the cutting action and to study the ongoing phenomena. A new micro quick-stop device (QSD) has been designed to fit the typical microscale cutting requirements and to be equipped with systems and sensors suitable to certify each quick-stop experiment. This device
Design and characterization of a micro quick-stop device
Lara Rebaioli;
2011
Abstract
Among the available micromachining processes, micro mechanical machining is well appreciated for its versatility, which has let to its application in a wide range of industrial fields. However, basic research is still needed to investigate the tool-material interaction and the chip formation at the microscale. The so-called quick-stop experiments can be exploited to carry out this kind of studies since they allow to freeze the cutting action and to study the ongoing phenomena. A new micro quick-stop device (QSD) has been designed to fit the typical microscale cutting requirements and to be equipped with systems and sensors suitable to certify each quick-stop experiment. This deviceI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
