Tool path generation for five-axis NC machining using adaptive space-filling curves
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Publication:5460556
DOI10.1080/00207540412331322948zbMath1068.90553OpenAlexW2059632588MaRDI QIDQ5460556
W. Anotaipaiboon, Stanislav S. Makhanov
Publication date: 18 July 2005
Published in: International Journal of Production Research (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/00207540412331322948
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Optimal grids for five-axis machining ⋮ Kinematics constrained five-axis tool path planning for high material removal rate ⋮ Tool path planning with confined scallop height error using optimal connected Fermat spirals ⋮ Manipulator motion planning for high-speed robotic laser cutting ⋮ Optimizing NC-tool paths for simultaneous five-axis milling based on multi-population multi-objective evolutionary algorithms ⋮ Space-filling curves in adaptive curvilinear coordinates for computer numerically controlled five-axis machining
Cites Work
- A machining potential field approach to tool path generation for multi-axis sculptured surface machining
- Intersection approach to multi-point machining of sculptured surfaces
- Space-filling curves in tool-path applications
- Efficient cutter-path planning for five-axis surface machining with a flat-end cutter.
- Multi-point tool positioning strategy for 5-axis mashining of sculptured surfaces
- Adaptive nonlinear tool path optimization for five-axis machining
- Surface interrogation and machining strip evaluation for 5-axis CNC die and mold machining
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