Andrej Czán scite author profile

Current demands on quality are the engine of searching for new progressive materials which should ensure enough durability in real conditions. Due to their mechanical properties, however, they cannot be applied to conventional machining methods. In respect to productivity, one of the methods is the finding of such machining technologies which allow achieving an acceptable lifetime of cutting tools with an acceptable quality of a machined surface. One of the mentioned technologies is trochoidal milling. Based on our previous research, where the effect of changing cutting conditions (cutting speed, feed per tooth, depth of cut) on tool lifetime was analysed, next, we continued with research on the influences of trochoid parameters on total machining force (step and engagement angle) as parameters adjustable in the CAM (computer-aided machining) system. The main contribution of this research was to create a mathematical-statistical model for the prediction of cutting force. This model allows setting up the trochoid parameters to optimize force load and potentially extend the lifetime of the cutting tool.

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Identification of Temperatures in Cutting Zone when Dry Machining of Nickel Alloy Inconel 718

Czán

Šajgalík

Holubják

et al. 2017

Procedia Manufacturing

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Analysis of Parameters of Sintered Metal Components Created by ADAM and SLM Technologies

Timko¹,

Czánová²,

Czán³

et al. 2022

Manufacturing Technology

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Atomic Diffusion AdditiveManufacturing (ADAM) is a recent metal sintering process based on known composite printing technology. ADAM can be classified as indirect additive production using fibre of metal powder bound in a plastic matrix. The plastic binder allows the metal powder to remain in place when is printing. Thus, a "green part" is printed and then the plastic binder is removed by the postwashing and sintering process. The aim of this work is providing a brief description of the ADAM process patented by Markforged. Furthermore, the main task was to compare the technology with other sintering technology, namely SLM technology. It works on the basis of selective bonding of metal powder using the thermal energy of the laser beam. Parameters, such as dimensional and shape accuracy, roughness of printed surfaces or tensile strength of printed samples were examined and compared. Dimensional accuracy of the ADAM process was evaluated using ISO IT grades -determined on the basis of the reference standard. The observed accuracy of the sintering process was comparable to traditional production processes.

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Triaxial Measurement of Residual Stress After High Feed Milling Using X-ray Diffraction

Zaušková

Czán

Šajgalík

et al. 2017

Procedia Engineering

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Andrej Czán

A new way of identifying, predicting and regulating residual stress after chip-forming machining

Analysis and Prediction of the Machining Force Depending on the Parameters of Trochoidal Milling of Hardened Steel

Identification of Temperatures in Cutting Zone when Dry Machining of Nickel Alloy Inconel 718

Analysis of Parameters of Sintered Metal Components Created by ADAM and SLM Technologies

Triaxial Measurement of Residual Stress After High Feed Milling Using X-ray Diffraction

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