[[abstract]]In this paper, a theoretical approach was used to analyze the stability of single-point cutting process. This approach utilized the Lapalace transform to identify the characteristic equation of the examined machining system. The stability of the machining system can then be determined by examining the locations of the roots of the characteristic equation. The stability curve for any specific structural dynamics can also be derived. In this paper, the effects of changing machining parameters on the stability of the machining system were also investigated. The results well explain some chatter phenomenon observed by other researchers.[[fileno]]2020213010022[[department]]動機
Chatter is one of the main problems in machining resulting in poor surface finish and low productivi...
Stability lobe diagram can be used for selecting proper milling parameters to perform chatter-free o...
Excessive vibration of the machine-tool system has various adverse effects. Self-excited vibration i...
grantor: University of TorontoChatter of a machine tool system consisting of a flexible wo...
AbstractIn this paper, the stability of the machine tool is analysed based on the locus of the dynam...
Machine tool chatter is essentially a statistical phenomenon. The dynamic characteristics of the mac...
The problem of undesired self-excited chatter vibrations in milling is very common. However, only in...
In the paper a cutting stability in the milling process of nickel based alloy Inconel 625 is analyse...
Unstable cutting due to chatter vibrations is one of the most important problems during metal cuttin...
The calculations of machining stability limit currently known do not provide a precise prediction of...
Machine tool chatter causes machining instability, surface roughness, and tool wear in metal cutting...
This paper reviews the dynamics of machining and chatter stability research since the first stabilit...
The paper focuses on the chatter stability prediction for a flexible tool-workpiece system in a turn...
Chatter vibrations in cutting processes are studied in the present paper. A unified approach for the...
International audienceThe stability diagrams are one of the most useful process planning tools to im...
Chatter is one of the main problems in machining resulting in poor surface finish and low productivi...
Stability lobe diagram can be used for selecting proper milling parameters to perform chatter-free o...
Excessive vibration of the machine-tool system has various adverse effects. Self-excited vibration i...
grantor: University of TorontoChatter of a machine tool system consisting of a flexible wo...
AbstractIn this paper, the stability of the machine tool is analysed based on the locus of the dynam...
Machine tool chatter is essentially a statistical phenomenon. The dynamic characteristics of the mac...
The problem of undesired self-excited chatter vibrations in milling is very common. However, only in...
In the paper a cutting stability in the milling process of nickel based alloy Inconel 625 is analyse...
Unstable cutting due to chatter vibrations is one of the most important problems during metal cuttin...
The calculations of machining stability limit currently known do not provide a precise prediction of...
Machine tool chatter causes machining instability, surface roughness, and tool wear in metal cutting...
This paper reviews the dynamics of machining and chatter stability research since the first stabilit...
The paper focuses on the chatter stability prediction for a flexible tool-workpiece system in a turn...
Chatter vibrations in cutting processes are studied in the present paper. A unified approach for the...
International audienceThe stability diagrams are one of the most useful process planning tools to im...
Chatter is one of the main problems in machining resulting in poor surface finish and low productivi...
Stability lobe diagram can be used for selecting proper milling parameters to perform chatter-free o...
Excessive vibration of the machine-tool system has various adverse effects. Self-excited vibration i...