A Brief Review of Robotic Machining

Bârsan, Alexandru

doi:10.2478/aucts-2019-0003

Cited by 4 publications

(1 citation statement)

References 14 publications

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“…In the incremental deformation process, the deformability of a material or sheet metal can be quantified as a function of the maximum wall angle that can be machined without breaking the material. The error given by the thinning of the material must be kept within certain limits, because below certain values the material no longer exhibits stiffness even if failure does not yet occur [6]. To determine the maximum angle of processing a material, quite a few experimental trials are needed, but Kurra proposes a method in which the wall angle shows a continuous variation VWACF (varying wall angle conical frustrum) [1].…”

Section: Introductionmentioning

confidence: 99%

Numerical Study of a Variable Wall Angle Made of DC01 Steel by Incremental Forming Process

Popp

Rusu

Popp

et al. 2022

Acta Universitatis Cibiniensis. Technical Series

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Nowadays, there is a high demand for rapid prototyping parts and for products manufactured through plastic cold deformation. Incremental forming process is one of many which presents numerous advantages for fast production of complex shape parts. The purpose of this study is to develop a numerical model through finite element analysis to simulate the incremental forming process. For this analysis a variable wall angle part (VWA) which ranges from a 45° wall angle at the higher base of frustrum cone to a 70° wall angle at the base of the shape was proposed. The numerical model showed where the maximum strains are localized, how big the forces are during the process and how much the material thinned. Although the model does not indicate a possible failure of the material, the integrity of the structural stiffness was altered due to a minimum thickness reached of just 0.26mm.

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Section: Introductionmentioning

confidence: 99%

Numerical Study of a Variable Wall Angle Made of DC01 Steel by Incremental Forming Process

Popp

Rusu

Popp

et al. 2022

Acta Universitatis Cibiniensis. Technical Series

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Robot-based incremental sheet forming – the tool path planning

Bârsan

Popp

Rusu

et al. 2021

IOP Conf. Ser.: Mater. Sci. Eng.

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To achieve a 3D shape with certain degree of complexity from metal sheets that are flat in the beginning, especially for prototype development or small series production, that is also cost efficient by avoiding high-end dies or expensive tooling, the incremental sheet forming process can represent the ideal choice due to its flexibility, reduced forming forces and increased formability. The process is performed with a round tool that follows a predefined path to deform the flat metal sheet into its final shape. The proper selection of the toolpaths affects the productivity and the accuracy of each part. The process having to focus on forming each single point in increments. For cost-effective production, the incremental sheet forming process is performed by an industrial robot. This paper aims to showcase the superior kinematic potential of the robot for complex tool paths by means of simulation. Singularity issues and robot joints limitation is checked through DELMIA software platform. After the design, simulation, and generation of the tool path, the software code can be generated and also used to steer the robot.

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Applications of Digital and Computer Technologies for Control and Motion Simulation of Electromechanical Systems

Zhilevski

Bratovanov

2020

2020 International Congress on Human-Computer Interaction, Optimization and Robotic Applications (HORA)

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A Brief Review of Robotic Machining

Cited by 4 publications

References 14 publications

Numerical Study of a Variable Wall Angle Made of DC01 Steel by Incremental Forming Process

Numerical Study of a Variable Wall Angle Made of DC01 Steel by Incremental Forming Process

Robot-based incremental sheet forming – the tool path planning

Applications of Digital and Computer Technologies for Control and Motion Simulation of Electromechanical Systems

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