Add to ORKGProcess damping can be a significant source of enhanced stability in metal cutting operations especially at low cutting speeds. However, it is usually ignored in stability analysis since models and methods on prediction and identification of process damping are very limited. In this study, the effects of cutting conditions and tool geometry on process stability in turning and milling are investigated. The previously developed models by the authors are used in simulations to demonstrate conditions for increased process damping, and thus chatter stability. Some representative cases are presented and verified by experimental data and conclusions are derived
An increasing number of aerospace components are manufactured from titanium and nickel alloys that a...
Process damping is a nonlinear phenomenon significantly affecting dynamics and stability of machinin...
Titanium is a strong, lustrous, corrosion-resistant and transition metal with a silver color to prod...
AbstractRegenerative chatter has been identified as one of the major limitations on achieving higher...
The prediction of chatter instability in machining steel and thermal-resistant alloys at low cuttin...
The complex interaction between machining structural systems and the cutting process results in mach...
Process damping acts as a significant cause of increased stability in milling particularly at low cu...
The subject of this study is a new Process Damping Model approach for milling with flat end milling ...
This paper investigates how changes in chatter amplitude and frequency depend on process damping ef...
AbstractIn this study, a practical method for modeling of process damping in milling process is pres...
Flank face chamfers are an effective way to suppress vibrations and increase the productivity of mil...
This article focuses on determining the effects of cutting conditions and their interactions on the ...
This paper presents a chatter detection technique based on the stability of the measured Ra and Rz v...
In the previous study, by the same authors, titled ‘‘A new process damping model (PDM) for chatter ...
Abstract: The performance of milling operations is limited by the onset of unstable self-excited vib...
An increasing number of aerospace components are manufactured from titanium and nickel alloys that a...
Process damping is a nonlinear phenomenon significantly affecting dynamics and stability of machinin...
Titanium is a strong, lustrous, corrosion-resistant and transition metal with a silver color to prod...
AbstractRegenerative chatter has been identified as one of the major limitations on achieving higher...
The prediction of chatter instability in machining steel and thermal-resistant alloys at low cuttin...
The complex interaction between machining structural systems and the cutting process results in mach...
Process damping acts as a significant cause of increased stability in milling particularly at low cu...
The subject of this study is a new Process Damping Model approach for milling with flat end milling ...
This paper investigates how changes in chatter amplitude and frequency depend on process damping ef...
AbstractIn this study, a practical method for modeling of process damping in milling process is pres...
Flank face chamfers are an effective way to suppress vibrations and increase the productivity of mil...
This article focuses on determining the effects of cutting conditions and their interactions on the ...
This paper presents a chatter detection technique based on the stability of the measured Ra and Rz v...
In the previous study, by the same authors, titled ‘‘A new process damping model (PDM) for chatter ...
Abstract: The performance of milling operations is limited by the onset of unstable self-excited vib...
An increasing number of aerospace components are manufactured from titanium and nickel alloys that a...
Process damping is a nonlinear phenomenon significantly affecting dynamics and stability of machinin...
Titanium is a strong, lustrous, corrosion-resistant and transition metal with a silver color to prod...