Lucia Ploskuňáková scite author profile

Lucia Ploskuňáková

2Publications

1Citation Statement Received

1Citation Statement Given

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Affiliations

Slovak University of Technology in Bratislava

Publications

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Experimental Verification of the Structural and Technological Parameters of the PKS

2014

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This paper presents the theoretical design for experimental verification of the structural and technological parameters of the Parallel Kinematic Structure. The experimental equipment was developed at the Faculty of Mechanical Engineering, STU in Bratislava. It is called Tricept, and due to its kinematics it is classified as a parallel structure. The previous phase of the project dealt with developing a mathematical model of the tool path. We have worked with two methods, a Monte Carlo method and the use of a mathematical analytical geometry structure. The calculated values were verified by comparing the results of the two methods. Based on the equations that were obtained, we can design the control of the tool path during cutting. The next stage focuses on the test methods and on verifying the structural and technological parameters of Tricept. The experiment is designed on the basis of the EN ISO 9283 standard, and involves testing the technological parameters: one-way positioning accuracy and repeatability of the position, changes of multidirectional positioning accuracy, repeatability and accuracy of the distance, position overshoot, drift of the position parameters, path accuracy, and repeatability of the path. This paper classifies the measurement methods and presents the measurement processes and the equipment for the experiment.

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Effect of software for FDM additive manufacturing on geometric accuracy and print quality

Matúš¹,

Križan²,

Beniak³

et al. 2022

Global J. Eng. Technol. Adv.

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Additive manufacturing is becoming an integral part of production technologies with a constantly growing share. The paper is dedicated to the research of the geometrical accuracy of FDM technology with respect to the used control software. The aim of the experiment was to compare the 3D printer's own control software called G3DMaker and the universal control software Simplify3D, where it was possible to confirm the significant influence of the software on the quality of prints. The geometric and dimensional deviations of the samples printed in both software were compared, as well as the quality of the 3D printing surface itself.

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