Add to ORKGA novel method for trochoidal flank milling of 3D cavities bounded by free-form surfaces is proposed. Existing 3D trochoidal milling methods use on-market milling tools whose shape is typically cylindrical or conical, and is therefore not well-suited for meeting fine milling tolerances required for finishing of benchmark free-form surfaces like blades or blisks. In contrast, our variational framework incorporates the shape of the tool into the optimization cycle and looks not only for the trochoidal milling paths, but also for the shape of the tool itself. High precision quality is ensured by firstly designing flank milling paths for the side surfaces that delimit the motion space, in which the trochoidal milling paths are further computed....
The article presents a comparison of three trochoidal paths: written by G-Code, generated using the ...
Machining with 5-axis flank milling produces a doubly curved surface. However, given a doubly curved...
This paper applied the concept of “contact” in Differential Geometry into the machining of the sculp...
A new method for $5$-axis flank computer numerically controlled (CNC) machining using a predefined s...
We propose a path-planning algorithm for 5-axis flank CNC machining with general tools of varying cu...
A new category of 5-axis flank computer numerically controlled (CNC) machining, called \emph{double-...
We introduce a new method that approximates free-form surfaces by envelopes of one-parameter motions...
Trochoidal milling is a well-stablished machining strategy which still allows for the introduction o...
CNC machining is the leading subtractive manufacturing technology. Although it is in use since decad...
We investigate a recently introduced methodology for 5-axis flank computer numerically controlled (C...
Recently, a new methodology for 5-axis flank computer numerically controlled (CNC) machining, called...
A regional optimization of automatically generated machining toolpath for computer based freeform me...
Existing flank milling path-planning methods typically lead to tiny gaps or overlaps between neighbo...
Existing flank milling path-planning methods typically lead to tiny gaps or overlaps between neighbo...
International audiencePocket milling is an essential issue in rough milling. Although the technology...
The article presents a comparison of three trochoidal paths: written by G-Code, generated using the ...
Machining with 5-axis flank milling produces a doubly curved surface. However, given a doubly curved...
This paper applied the concept of “contact” in Differential Geometry into the machining of the sculp...
A new method for $5$-axis flank computer numerically controlled (CNC) machining using a predefined s...
We propose a path-planning algorithm for 5-axis flank CNC machining with general tools of varying cu...
A new category of 5-axis flank computer numerically controlled (CNC) machining, called \emph{double-...
We introduce a new method that approximates free-form surfaces by envelopes of one-parameter motions...
Trochoidal milling is a well-stablished machining strategy which still allows for the introduction o...
CNC machining is the leading subtractive manufacturing technology. Although it is in use since decad...
We investigate a recently introduced methodology for 5-axis flank computer numerically controlled (C...
Recently, a new methodology for 5-axis flank computer numerically controlled (CNC) machining, called...
A regional optimization of automatically generated machining toolpath for computer based freeform me...
Existing flank milling path-planning methods typically lead to tiny gaps or overlaps between neighbo...
Existing flank milling path-planning methods typically lead to tiny gaps or overlaps between neighbo...
International audiencePocket milling is an essential issue in rough milling. Although the technology...
The article presents a comparison of three trochoidal paths: written by G-Code, generated using the ...
Machining with 5-axis flank milling produces a doubly curved surface. However, given a doubly curved...
This paper applied the concept of “contact” in Differential Geometry into the machining of the sculp...