Modeling and Simulation of A 6 Dof Robot

Monica Loredana Enescu; Cătălin Alexandru

doi:10.4028/www.scientific.net/AMR.463-464.1116

Paper Titles

Assisted Research of the Neural Network
p.1098

Computers Modeling and Simulation
p.1102

Facility Layout of Manufacturing System and Design of Optimization Model
p.1106

Increasing the Operating Safety of the Machine-Tools by Using Hydro-Pneumatic Accumulators. Modeling - Simulation
p.1111

Modeling and Simulation of A 6 Dof Robot
p.1116

Modelling and Experimentation of Solid Lubrification with Powder MoS₂ through Self-Repairing and Self-Replenishing
p.1120

Multimode Vibrations Suppression Compensators Design Using Specified Dynamic Performance Reference Models
p.1125

Optimal Design of the Mechanical Systems Using Parametric Technique & MBS (Multi-Body Systems) Software
p.1129

Optimization by Simulation of Fabrication in Manufacturing Robotized Systems
p.1133

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 463-464Modeling and Simulation of A 6 Dof Robot

Modeling and Simulation of A 6 Dof Robot

Abstract:

The purpose of this paper is to model and simulate a 6 DOF robotic system with revolute joints. This is in order to optimize the motion law which results in uniform coating deposited by spray pyrolysis. The structure and the complexity of the robotic system are determined by the necessary movements in the spray pyrolysis process. The nozzle (end-effector of the robot manipulator) has two translations, in longitudinal and transversal direction relative to the surface deposition. The mechanical model of the robot mechanism was developed by using the MBS (Multi Body Systems) environment ADAMS of MSC Software.