Results 21 to 30 of about 3,060,710 (350)
Cutting Forces Simulation for End Milling
Journal of Engineering Sciences, 2023 The cutting force in end milling is the essential perturbation of the machining system that limits the productivity of the process. Therefore, forecasting the cutting force when assigning the processing mode and the geometry of the allowance layer to be cut is an urgent task that requires an operational tool for its solution.
Yuri Petrakov +3 more
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Side-Milling-Force Model Considering Tool Runout and Workpiece Deformation
Electronics, 2023 With the development of Industry 4.0, hard-cut materials such as titanium alloys have been widely used in the aerospace industry. However, due to the poor rigidity of titanium alloy parts, deformation and vibration easily occur during the cutting process,
M. Xie +4 more
semanticscholar +1 more source
A Cyclic Calibration Method of Milling Force Coefficients Considering Elastic Tool Deformation
Machines, 2023 In metal-cutting technology, milling plays an important role in the product development cycle. The accurate modeling and prediction of milling forces have always been research hotspots in this field.
Chang Yang, Rong Yu, Shanglei Jiang
doaj +1 more source
Upgraded Kalman Filtering of Cutting Forces in Milling [PDF]
Sensors, 2020 Advanced piezoelectric dynamometers with a wide frequency bandwidth are required for cutting force measurement in high-speed milling and micromilling applications. In many applications, the signal bandwidth is limited by the dynamic response of the mechanical system, thus compensation techniques are necessary. The most effective compensation techniques
Giovanni Totis +2 more
openaire +3 more sources
IEEE Access, 2021 With the development of artificial intelligence technologies, spine-surgery robots have gradually been applied in clinical practice, and they have exhibited favorable development prospects.
Hao Qu +6 more
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Research on Milling Characteristics of Titanium Alloy TC4 with Variable Helical End Milling Cutter
Machines, 2022 The application of variable helical end mills to the milling of titanium alloys can suppress the regeneration effect during the machining process and ensure the stability of milling.
Xiangming Hu +3 more
doaj +1 more source
A novel run-out model based on spatial tool position for micro-milling force prediction
Journal of Manufacturing Processes, 2021 The tool run-out significantly affects prediction of milling force, which is crucial for monitoring the micro-end-milling processes. For accurately predicting milling force, a novel tool run-out model is presented, which is based on spatial tool position
Xiubing Jing +5 more
semanticscholar +1 more source
The International Journal of Advanced Manufacturing Technology, 2021 When the characteristic structure size of the component is at the micron level, the internal crystal grains, grain boundaries, and pore defects of the component material with the same size at the micron level cannot be ignored, so the micro-sized ...
Yicong Du, Q. Song, Zhanqiang Liu
semanticscholar +1 more source
Applied Sciences, 2023 To explore the milling characteristics of Ni-based superalloy under minimal quantity lubrication (MQL), a single-factor experiment was adopted to investigate the milling machinability of GH4169 Ni-based superalloy.
Yihan Jiang +4 more
doaj +1 more source
Digital force prediction for milling
Procedia Manufacturing, 2020 Abstract This paper presents a fully digital, integrated approach for milling force prediction with arbitrary end mill-work material combinations. The approach includes: 1) structured light scanning to identify the end mill’s cutting edge macro-geometry along the tool axis; 2) structured light scanning to measure the cutting edge cross-sectional rake
Michael Gomez, Timothy No, Tony Schmitz
openaire +1 more source