Daniel Krajcarz scite author profile

Material structure is one of the important factors influencing abrasive waterjet (AWJ) machining efficiency and quality. The force measurements were performed on samples prepared from two very similar steels with different thicknesses and heat treatment. The samples were austenitized at 850 °C, quenched in polymer and tempered at various temperatures between 20 °C and 640 °C. The resulting states of material substantially differed in strength and hardness. Therefore, samples prepared from these material states are ideal for testing of material response to AWJ. The force measurements were chosen to test the possible influence of material structure on the material response to the AWJ impact. The results show that differences in material structure and respective material properties influence the limit traverse speed. The cutting to deformation force ratio seems to be a function of relative traverse speed independently on material structure.

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Precision comparison of analytical and statistical-regression models for AWJ cutting

Hlaváč

Krajcarz

Hlaváčová

et al. 2017

Precision Engineering

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The Effect of Traverse Speed on Kerf Width in AWJ Cutting of Ceramic Tiles

Krajcarz

Bańkowski

Młynarczyk

2017

Procedia Engineering

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Abrasive Waterjet (AWJ) Forces—Indicator of Cutting System Malfunction

et al. 2021

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Measurements enabling the online monitoring of the abrasive waterjet (AWJ) cutting process are still under development. This paper presents an experimental method which can be applicable for the evaluation of the AWJ cutting quality through the measurement of forces during the cutting process. The force measuring device developed and patented by our team has been used for measurement on several metal materials. The results show the dependence of the cutting to deformation force ratio on the relative traverse speed. Thus, the force data may help with a better understanding the interaction between the abrasive jet and the material, simultaneously impacting the improvement of both the theoretical and empirical models. The advanced models could substantially improve the selection of suitable parameters for AWJ cutting, milling or turning with the desired quality of product at the end of the process. Nevertheless, it is also presented that force measurements may detect some undesired effects, e.g., not fully penetrated material and/or some product distortions. In the case of a proper designing of the measuring device, the force measurement can be applied in the online monitoring of the cutting process and its continuous control.

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Daniel Krajcarz

Comparison Metal Water Jet Cutting with Laser and Plasma Cutting

Influence of Material Structure on Forces Measured during Abrasive Waterjet (AWJ) Machining

Precision comparison of analytical and statistical-regression models for AWJ cutting

The Effect of Traverse Speed on Kerf Width in AWJ Cutting of Ceramic Tiles

Abrasive Waterjet (AWJ) Forces—Indicator of Cutting System Malfunction

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