AbstractThin-walled components, i.e. fuselage frames of airplanes, are prone to an unstable process behavior during milling. Therefore, tools with a chamfer between the cutting edge and the flank face are often used for such machining tasks. During milling, the chamfered area comes into contact with the just cut surface. This contact leads to process damping forces and the induced heat into the workpiece in this contact zone is increased. Furthermore, the amount of induced heat depends on the process parameters. At certain spots on the machined surface this may lead to a local overheating, which can reduce stiffness significantly. When this occurs during milling of a thin-walled component, the component is often regarded as reject. In this ...
62-65The paper presents a studyof the effect of operating variable parameter; cutting speed, feed r...
Metal cutting processes usually cause heat generation at the cutting zone (around the workpiece-tool...
Tool temperature variation in flank milling usually causes excessive tool wear, shortens tool life, ...
Thin-walled components, i.e. fuselage frames of airplanes, are prone to an unstable process behavior...
AbstractThin-walled components, i.e. fuselage frames of airplanes, are prone to an unstable process ...
AbstractDuring the finishing milling process of thin-walled workpieces, deformations occur due to th...
AbstractIn the machining of large structural components such as those used in the construction of ai...
In high-speed dry milling of thin-walled parts, the cutter-workpiece temperature rises asymptoticall...
AbstractThis paper presents a new procedure to evaluate the cutting temperature milling.in HSM. The ...
AbstractDuring roughing in NC milling, heat is introduced into the workpiece. For the manufacturing ...
In practice, different cutting processes are encountered, each process having different characterist...
AbstractThe trends of machining difficult-to-machine materials and of dry machining or MQL lead to h...
A thermal model has been developed that predicts machining induced workpiece temperatures for periph...
AbstractThe heat fluxes generated by cutting processes lead to thermal deformations in the tools. Pa...
Machining with minimum quantity lubrication (MQL) has been the focus of many scientific investigatio...
62-65The paper presents a studyof the effect of operating variable parameter; cutting speed, feed r...
Metal cutting processes usually cause heat generation at the cutting zone (around the workpiece-tool...
Tool temperature variation in flank milling usually causes excessive tool wear, shortens tool life, ...
Thin-walled components, i.e. fuselage frames of airplanes, are prone to an unstable process behavior...
AbstractThin-walled components, i.e. fuselage frames of airplanes, are prone to an unstable process ...
AbstractDuring the finishing milling process of thin-walled workpieces, deformations occur due to th...
AbstractIn the machining of large structural components such as those used in the construction of ai...
In high-speed dry milling of thin-walled parts, the cutter-workpiece temperature rises asymptoticall...
AbstractThis paper presents a new procedure to evaluate the cutting temperature milling.in HSM. The ...
AbstractDuring roughing in NC milling, heat is introduced into the workpiece. For the manufacturing ...
In practice, different cutting processes are encountered, each process having different characterist...
AbstractThe trends of machining difficult-to-machine materials and of dry machining or MQL lead to h...
A thermal model has been developed that predicts machining induced workpiece temperatures for periph...
AbstractThe heat fluxes generated by cutting processes lead to thermal deformations in the tools. Pa...
Machining with minimum quantity lubrication (MQL) has been the focus of many scientific investigatio...
62-65The paper presents a studyof the effect of operating variable parameter; cutting speed, feed r...
Metal cutting processes usually cause heat generation at the cutting zone (around the workpiece-tool...
Tool temperature variation in flank milling usually causes excessive tool wear, shortens tool life, ...