Özet:

In this study, a new system with five degrees of freedom has been proposed to overcome additive manufacturing problems. In the proposed system, unlike similar systems, the traditional three-degree-of-freedom structure is increased to five degrees of freedom by including rotational movements along the X and Z axes. By adding the specified degrees of freedom to the system, part surface integrity will be improved, production time will be saved and the use of support parts used in production will be reduced. In the study, first of all, the conceptual design of the system is defined. Mathematical analyzes were then used to determine the kinematic and dynamic models of the system. To evaluate the axis movement performance of the system, proportional-integral-derivative (PID) control technique was used and real-time test studies were carried out. The main contribution of this study to the literature is to offer a new perspective on production technologies, direct the transformation in the industry, shape future production processes and trigger industrial innovation. The proposed system is presented in the literature as a production model that is more flexible, sustainable, cost-effective, more precise and can reach high work speeds compared to traditional additive manufacturing methods.

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