Accurate knowledge of machine dynamics is required for predicting stability and precision in a machining process. Frequency response function (FRF) measurements need to be performed to identify the dynamics of the systems experimentally. This can be very time consuming considering the number of tool-tool holder combinations in a production facility. In this paper, methods for modelling dynamics of milling tool is presented. Static and dynamic analysis of tools with different geometry and material are carried out by Finite Element Analysis (FEA). Some practical equations are developed to predict the static and dynamic properties of tools. Receptance coupling and substructuring analyses are used to combine the dynamics of individual component...
Prediction of process stability in milling is usually based on experimental frequency response funct...
Prediction of process stability in milling is usually based on experimental frequency response funct...
ABSTRACT In this paper, a three-dimensional dynamic model for the prediction of the stability lobes ...
This study aims to investigate the dynamic characteristics of a milling machine with different head ...
Machining is adversely affected by chatter. To identify chatter-free operating zones, the frequency ...
Regenerative chatter has a fatal influence on machine performance in high-speed milling process. Bas...
The prediction of chatter stability diagrams in milling requires accurate frequency response functio...
AbstractMicro-milling applications require high precision and dimensional accuracy. Chatter vibratio...
The paper studies a comparative evaluation method for the modular cutting tools dynamic properties u...
Machining vibrations or chatter is an unwanted phenomenon during machining processes due to unwanted...
Machine tool vibrations have great impact on machining process. Modal testing is a form of vibration...
Micro-milling applications require high precision and dimensional accuracy. Chatter vibrations arisi...
The most important information required for chatter stability analysis is the dynamics of the involv...
Vibration monitoring and control are central topics for machine tools, since high vibration levels r...
The reliable determination of modal mass, damping and stiffness coefficient (modal parameters) for t...
Prediction of process stability in milling is usually based on experimental frequency response funct...
Prediction of process stability in milling is usually based on experimental frequency response funct...
ABSTRACT In this paper, a three-dimensional dynamic model for the prediction of the stability lobes ...
This study aims to investigate the dynamic characteristics of a milling machine with different head ...
Machining is adversely affected by chatter. To identify chatter-free operating zones, the frequency ...
Regenerative chatter has a fatal influence on machine performance in high-speed milling process. Bas...
The prediction of chatter stability diagrams in milling requires accurate frequency response functio...
AbstractMicro-milling applications require high precision and dimensional accuracy. Chatter vibratio...
The paper studies a comparative evaluation method for the modular cutting tools dynamic properties u...
Machining vibrations or chatter is an unwanted phenomenon during machining processes due to unwanted...
Machine tool vibrations have great impact on machining process. Modal testing is a form of vibration...
Micro-milling applications require high precision and dimensional accuracy. Chatter vibrations arisi...
The most important information required for chatter stability analysis is the dynamics of the involv...
Vibration monitoring and control are central topics for machine tools, since high vibration levels r...
The reliable determination of modal mass, damping and stiffness coefficient (modal parameters) for t...
Prediction of process stability in milling is usually based on experimental frequency response funct...
Prediction of process stability in milling is usually based on experimental frequency response funct...
ABSTRACT In this paper, a three-dimensional dynamic model for the prediction of the stability lobes ...