首页|New Findings on Robotics Described by Investigators at Harbin Engineering University (Five-axis Toolpath Re-scheduling for Facilitating Assisted Supporting Thin-walled Blade Machining By Decreasing Axis Sensitivity)
New Findings on Robotics Described by Investigators at Harbin Engineering University (Five-axis Toolpath Re-scheduling for Facilitating Assisted Supporting Thin-walled Blade Machining By Decreasing Axis Sensitivity)
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NETL
NSTL
Springer Nature
Data detailed on Robotics have been presented. According to news reporting originating from Harbin, People's Republic of China, by NewsRx correspondents, research stated, “Existing works in the optimization of five-axis machining mainly focus on the efficiency, precision, or dynamic performance of the machine tools, while the performance of other equipment which assists the machining process has not been considered. This paper takes the robot assisted supporting machining of thin-walled blades as the research objective and proposes an axial-sensitivity-reduction based five-axis toolpath re-scheduling method for facilitating the collaborative support machining with a machine-tool and a robot.” Financial support for this research came from National Natural Science Foundation of China (NSFC). Our news editors obtained a quote from the research from Harbin Engineering University, “The input of the method is lenient, merely including the original toolpath and the workpiece point-cloud model. The output of the method is the re-scheduled toolpath which requires lower motion ability of the assisted support equipment. This is realized by the following approaches. First, an axial sensitivity concept is defined, which quantificationally reflects the influence extent of the machine-tool axis motion on the assisted supporter motion, thus the most sensitive axis which affects the assisted process maximally can be identified. Then, an optimal-partition dual-domain-assisted-fitting method is provided to reconstruct the parameterized geometrical model of blades according to the point-cloud model, thus the multi-value property of the blades which troubles the surface construction is solved. After that, a sensitive-axis-calming bidirectional-tangent-bug-searching method is proposed to re-schedule the toolpath of five-axis machining, thus reducing the sensitivity of the most-sensitive axis. The whole method is universal, because a general cutter model is used and the cutter-contact point keeps invariant after re-scheduling.”
HarbinPeople's Republic of ChinaAsiaEmerging TechnologiesMachine LearningRobotRoboticsHarbin Engineering University
NETL
NSTL
Springer Nature
