Averchenkov et al., 2021 - Google Patents
Development and optimization of control programs for 2.5-coordinate milling of three-dimensional workpieces on CNC machinesAverchenkov et al., 2021
View PDF- Document ID
- 1802010880608725608
- Author
- Averchenkov A
- Koloshkina I
- Sheptunov S
- Publication year
- Publication venue
- MATEC Web of Conferences
External Links
Snippet
The paper presents new methods for optimizing milling operations on CNC machines when programming in CAM-systems, in particular, a method for improving the efficiency of processing three-dimensional workpieces by 2.5-coordinate milling on CNC machines for …
- 238000003801 milling 0 title abstract description 82
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Toh | Design, evaluation and optimisation of cutter path strategies when high speed machining hardened mould and die materials | |
Erdim et al. | Feedrate scheduling strategies for free-form surfaces | |
Daniyan et al. | Design and optimization of machining parameters for effective AISI P20 removal rate during milling operation | |
Guzel et al. | Increasing productivity in sculpture surface machining via off-line piecewise variable feedrate scheduling based on the force system model | |
Fomin et al. | Geometrical errors of surfaces milled with convex and concave profile tools | |
Bagci et al. | The Effects of Milling Strategies on Forces, Material Removal Rate, Tool Deflection, and Surface Errors for the Rough Machining of Complex Surfaces. | |
Mikó et al. | Experimental verification of cusp heights when 3D milling rounded surfaces | |
Felhő et al. | Comparison of theoretical and real surface roughness in face milling with octagonal and circular inserts | |
Berenji et al. | Effects of turn-milling conditions on chip formation and surface finish | |
Ghorbani et al. | Extraction of surface curvatures from tool path data and prediction of cutting forces in the finish milling of sculptured surfaces | |
Krimpenis et al. | Assessment of sculptured surface milling strategies using design of experiments | |
Wang et al. | An integrated optimization of cutting parameters and tool path generation in ultraprecision raster milling | |
Kundrak et al. | Topography of the machined surface in high performance face milling | |
Averchenkov et al. | Development and optimization of control programs for 2.5-coordinate milling of three-dimensional workpieces on CNC machines | |
Lim et al. | Integrated planning for precision machining of complex surfaces—III. Compensation of dimensionai errors | |
Liu et al. | Improved dynamic cutting force model in ball-end milling. Part I: theoretical modelling and experimental calibration | |
Kalchenko et al. | Development of the single-setup milling process model of the shaft support necks and cams | |
Lim et al. | Integrated planning for precision machining of complex surfaces. Part 2: Application to the machining of a turbine blade die | |
Pesice et al. | Identifying the lead angle limit to achieve required surface roughness in ball-end milling | |
Osan et al. | Milling convex surfaces with toroidal cutting edge | |
Wang et al. | A parametric and accurate CAD model of flat end mills based on its grinding operations | |
Felho et al. | A method for the determination of theoretical roughness in face milling considering the run-out of the inserts | |
CN113887023A (en) | Weak rigidity characteristic inclined milling surface quality optimization method based on analytic force model | |
Matlygin et al. | The Impact of Cutting Modes on the Output Turn-Milling Parameters for High-Speed Steel | |
Kluonis et al. | Manufacturing technology of small-sized profile parts |