首页|Data from Northeastern University Advance Knowledge in Robotics(Theoretical Inv estigation of Anisotropic Material Removal Mechanism In Robotic Belt Grinding Si ngle Crystal Superalloy Process)
Data from Northeastern University Advance Knowledge in Robotics(Theoretical Inv estigation of Anisotropic Material Removal Mechanism In Robotic Belt Grinding Si ngle Crystal Superalloy Process)
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By a News Reporter-Staff News Editor at Robotics & Machine Learning DailyNews Daily News – Current study results on Robotics have been published. According to news reportingfrom Shenyang, People’s Republic of China, by NewsRx journalists, research stated, “Being the finalprocedure in th e blade shape processing, the material removal depth of abrasive belt grinding u ltimatelyaffects the blades’ final shape precision and their servicing performa nce. The advanced blade material,single crystal superalloy, exhibits anisotropi c mechanical characteristics, which adds complexity in bladematerial removal me chanism.”
ShenyangPeople’s Republic of ChinaAs iaEmerging TechnologiesMachine LearningRoboticsRobotsNortheastern Univ ersity
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