Petr Fluxa scite author profile

Petr Fluxa

5Publications

23Citation Statements Received

62Citation Statements Given

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Tomas Bata University in Zlín

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Nano-Mechanical Properties of Surface Layers of Polyethylene Modified by Irradiation

et al. 2020

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This study’s goal was to describe the influence of a wide range of ionizing beta radiation upon the changes in surface layer mechanical properties and structural modifications of selected types of polymer. Radiation crosslinking is a process whereby the impingement of high-energy electrons adjusts test sample structures, thus enhancing the useful properties of the material, e.g., hardness, wear-resistance, and creep, in order that they may function properly during their technical use. The selected polymers tested were polyolefin polymers like polyethylene (Low-density polyethylene LDPE, High-density polyethylene HDPE). These samples underwent exposure to electron radiation of differing dosages (33, 66, 99, 132, 165, and 198 kGy). After the crosslinking process, the samples underwent testing of the nano-mechanical properties of their surface layers. This was done by means of a state-of-the-art indentation technique, i.e., depth-sensing indentation (DSI), which detects the immediate change in the indentation depth associated with the applied force. Indeed, the results indicated that the optimal radiation dosage increased the mechanical properties by up to 57%; however, the beneficial levels of radiation varied with each material. Furthermore, these modifications faced examination from the structural perspective. For this purpose, a gel test, Raman spectroscopy, and crystalline portion determination by X-ray all confirmed the assumed trends.

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Effect of the Pigment Concentration on the Dimensional Stability and the Melt Flow Index of Polycarbonate

Janostik¹,

Staněk²,

Senkerik³

et al. 2019

Manufacturing Technology

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The Influence of Surface Quality on Flow Length and Micro-Mechanical Properties of Polycarbonate

et al. 2021

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This study describes the influence of polymer flow length on mechanical properties of tested polymer, specifically polycarbonate. The flow length was examined in a spiral shaped mould. The mould cavity’s surface was machined by several methods, which led to differing roughness of the surface. The cavity was finished by milling, grinding and polishing. In order to thoroughly understand the influence of the mould surface quality on the flow length, varying processing parameters, specifically the pressure, were used. The polymer part was divided into several segments, in which the micro-mechanical properties, such as hardness and indentation modulus were measured. The results of this study provide interesting data concerning the flow length, which was up to 3% longer for rougher surfaces, but shorter in cavities with polished surface. These results are in disagreement with the commonly practiced theory, which states that better surface quality leads to greater flow length. Furthermore, evaluation of the micro-mechanical properties measured along the flow path demonstrated significant variance in researched properties, which increased by 35% (indentation hardness) and 86% by indentation modulus) in latter segments of the spiral in comparison with the gate.

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Implementation of natural fillers in polyethylene and the resulting mechanical properties

Dockal¹,

Ovsík²,

Fluxa³

et al. 2020

Mater. Tehnol.

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Polyoxymethylene Flow Enhancement Using the Rough Surface Injection Mould Cavity

Fluxa¹,

Staněk²,

Ovsík³

et al. 2020

MM SJ

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Injection moulding is a manufacturing process which is suitable for high-volume production of polymer parts. These products are final and do not require any additional operations. The quality of the final product is significantly affected by the surface of the mould cavity. This paper reveals the influence of cavity surface roughness and technological parameters on the flow length of polyoxymethylene (POM) into the mould cavity. These results indicate that costly finishing methods used for working of mould cavities can be replaced with less expensive manufacturing methods. Furthermore, it might be possible to shorten the time necessary for the production of the injection mould.

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Petr Fluxa

Nano-Mechanical Properties of Surface Layers of Polyethylene Modified by Irradiation

Effect of the Pigment Concentration on the Dimensional Stability and the Melt Flow Index of Polycarbonate

The Influence of Surface Quality on Flow Length and Micro-Mechanical Properties of Polycarbonate

Implementation of natural fillers in polyethylene and the resulting mechanical properties

Polyoxymethylene Flow Enhancement Using the Rough Surface Injection Mould Cavity

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