Manufacturing Technology 2024, 24(3):429-439 | DOI: 10.21062/mft.2024.043

The Effect of Additive Manufacturing on the Utility Properties of the Reducing Valve Rezistor

Jan Řiháček ORCID..., Michaela Císařová ORCID..., Eva Peterková ORCID...
Brno University of Technology, Faculty of Mechanical Engineering, Institute of Manufacturing Technology, Technická 2896/2, 616 69 Brno, Czech Republic

The article is focused on the analysis of the additive technology (3D printing) applicability by using DMLS in the production of the reducing valve part, i.e. atmospheric resistor. Currently, the men-tioned part is produced by EDM in combination with soldering from the Inconel 718 steel. The use of additive technologies brings the assumption of greater flexibility and economy of production, which is verified by a set of analyzes focused on the accuracy of production and the utility properties of the mentioned part. In addition to technological aspects, such as individual production processes, economic aspects are also compared. Individual comparisons are the basis for assessing whether replacing the conventional production approach with 3D printing is advantageous in this case. The results of this assessment can subsequently be used for future applications of the considered additive manufacturing approaches in the case of similar components.

Keywords: DMLS, Additive technology, Valve resistor, Inconel 718

Received: February 18, 2024; Revised: May 6, 2024; Accepted: May 9, 2024; Published: July 1, 2024  Show citation

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Řiháček J, Císařová M, Peterková E. The Effect of Additive Manufacturing on the Utility Properties of the Reducing Valve Rezistor. Manufacturing Technology. 2024;24(3):429-439. doi: 10.21062/mft.2024.043.
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References

  1. NOVOTNÝ, M. (2022). Analysis of influence of manufacturing technology on utility properties of a reducing valve part. Brno University of Technology. Czech Republic.
  2. BASU, S., DEBNATH, K. (2019). Power Plant Instrumentation and Control Handbook. Academic Press, Lon-don. ISBN 978-0-12-819504-8.
  3. IMI Critical Engineering. (2022). CCI DRAG 100DSV for Spraywater Control Application. CCI, California.
  4. Special Metals. (2022). Inconel Alloy 718. PCC Company, Hereford.
  5. BUCHAR, J., FOREJT, M., JOPEK, M., KŘIVÁNEK, I. (2000). Evaluation of constitutive relations for high strain rate behaviour using the Taylor test. In: Journal de Physique, Vol. 4, No. 10, pp. 75- 80. ISSN 1155-4339. Go to original source...
  6. JOPEK, M. (2001). Determination of Carbon Steel Dynamic Properties. In: Manufacturing Technology, Vol. 21, No. 4, pp. 479-482. ISSN 12132489. Go to original source...
  7. AWARI, G. K., THORAT, C. S., AMBADE, V., KOTHARI, D.P. (2020). Additive Manufacturing and 3D Printing Technology. Taylor & Francis Group, Milton. ISBN 9780367436223. Go to original source...
  8. JOPEK, M., FOREJT, M., BUCHAR, J. (2000). Plastic deformation at real compression rates. In: Metal Forming, pp. 729-732.
  9. SVOBODA, P., JOPEK, M., SVOBODA, O., HARANT, M. (2024). Determination of dynamic properties of 3D printed G3SI1 steel. In: MM Science Journal, Vol. 2024, No. 2, pp. 7230-7233. ISSN 1805-0476. Go to original source...
  10. SMYK, E., GIL, P., DANCOVA, P., JOPEK, M. (2023). The PIV Measurements of Time-Averaged Parameters of the Synthetic Jet for Different Orifice Shapes. In: Applied Sciences-Basel, Vol. 13, No. 1. ISSN 2076-3417. Go to original source...
  11. BECHÝ, V., MATUŠ, M., JOCH, R., DRBÚL, M., CZÁN, A., ŠAJGALÍK, M., NOVÝ, M. (2024). Influence of the Orientation of Parts Produced by Additive Manufacturing on Mechanical Properties. In: Manufacturing Technology, Vol. 24, No. 1, pp. 2-8. ISSN 12132489. Go to original source...
  12. VILIŠ, J., POKORNÝ, Z., ZOUHAR, J., JOPEK, M. (2022). Ballistic Resistance of Composite Materials Tested by Taylor Anvil Test. In: Manufacturing Technology, Vol. 22, No. 5, pp. 610-616. ISSN 12132489. Go to original source...
  13. JOPEK, M., FOREJT, M., HARANT, M. (2021). Mechanical properties of aluminium alloys at high strain rate. In: MM Science Journal, Vol. 2021, No. 6, pp. 4505-4511. ISSN 1805-0476. Go to original source...

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