Kinematics and geometric features of the s-cone test piece: identifying the performance of five-axis machine tools using a new test piece
The design of machine parts of different sizes and shapes has become relevant in the manufacturing industry which requires five-axis machine tools of high dynamic performance; different machining test pieces have been used to test and reflect the machine tool’s performance. The S-shaped is still und...
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| Veröffentlicht in: | International journal of advanced manufacturing technology 2023-06, Vol.126 (11-12), p.5089-5105 |
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| creator | Osei, Seth Wang, Wei Ding, Qicheng |
| description | The design of machine parts of different sizes and shapes has become relevant in the manufacturing industry which requires five-axis machine tools of high dynamic performance; different machining test pieces have been used to test and reflect the machine tool’s performance. The S-shaped is still under development and consideration of which a new test piece better than the S-shaped part has been recommended to be put forward making the NAS979 the only standardized test piece; however, it has some limitations. Hence, this study proposes a new test piece to objectively satisfy the demand for machine tools with higher dynamic performance, which shows much improvement over the standard NAS979 and is the best alternative to the S-shaped test piece, and it combines the geometric and kinematic features of both test pieces. Geometrically, it has non-uniform surface continuity, variable twist angle, and variable curvature; and the cutting tool moves in close and opened angles along the tool path; there is sudden rise and fall of axes’ velocity, acceleration, and jerk with much impact during machining which makes the S-cone test piece be machined by only five-axis machine tools with high dynamic performance, and has a better dynamic performance identification effect than the S-shaped test piece based on the trajectory test. Detailed work on the validation of the machine tool’s dynamic performance using the S-cone part will be captured next part of this study. |
| doi_str_mv | 10.1007/s00170-023-11368-3 |
| format | Article |
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Geometrically, it has non-uniform surface continuity, variable twist angle, and variable curvature; and the cutting tool moves in close and opened angles along the tool path; there is sudden rise and fall of axes’ velocity, acceleration, and jerk with much impact during machining which makes the S-cone test piece be machined by only five-axis machine tools with high dynamic performance, and has a better dynamic performance identification effect than the S-shaped test piece based on the trajectory test. 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| subjects | Acceleration Accuracy Advanced manufacturing technologies Aircraft Angles (geometry) CAE) and Design Computer-Aided Engineering (CAD Continuity (mathematics) Cutting tools Engineering Five axis Industrial and Production Engineering Kinematics Machine tool industry Machine tools Machining Manufacturing Mathematical analysis Mechanical Engineering Media Management Original Original Article |
| title | Kinematics and geometric features of the s-cone test piece: identifying the performance of five-axis machine tools using a new test piece |
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