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Examination of Phase Composition and Mechanical Properties of Drilling Tool Material after Electrolytic Plasma Treatment

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Published/Copyright: September 28, 2014
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Materials Testing
From the journal Materials Testing Volume 56 Issue 7-8

Abstract

The influence of different modes and types of electrolytic plasma treatment has been studied regarding the morphology of the structure, the phase composition and the mechanical properties of the surface of 18CrNi3Mo low-carbon steel. It is shown that the result of electrolytic-plasma treatment (EPT) is the formation of a modified layer on the surface. An increase of the surface micro hardness and the wear resistance of the steel samples has been observed. The observed effects may be explained by modification of the surface, i. e., by forming of a modified surface layer with respective reinforcing phases.

Kurzfassung

Der Einfluss von verschiedenen Modi und Arten der elektrolytischen Plasmabehandlung wurde hinsichtlich der Morphologie der Mikrostruktur, der Phasenzusammensetzung und der mechansichen Eigenschaften der Oberfläche eines niedrig kohlenstoffhaltigen 18CrNi3Mo-Stahls untersucht. Es wird gezeigt, dass ein Ergebnis der elektrolytischen Plasmabehandlung die Bildung einer modifizierten Oberflächenschicht ist. Es wurde eine Zunahme der Mikrohärte an der Oberfläche und des Verschleißwiderstandes der Stahlproben festgestellt. Die beobachteten Effekte lassen sich mit der Modifikation der Oberfläche erklären, auf der sich eine modifizierte Schicht unter Formierung von verstärkenden Phasen bildet.

* Correspondence Address, Prof. Dr. Mazhyn Skakov, National Nuclear Center of the Republic of Kazakhstan, Kurchatov, Kazakhstan, E-mail:

Mazhyn Skakov was born in 1952, Kazakhstan. He is professor, doctor of physical and mathematical sciences, deputy general director of the National Nuclear Center (Kurchatov, Kazakhstan). His research interests are in the physics of condensed state. He has published more than 100 papers in refereed journals.

Lyaila Bayatanova was born in 1983, Kazakhstan, studied physics and computer science in S. Amanzholov East Kazakhstan State University in 2006, continued her education at D. Serikbaev East Kazakhstan State Technical University and has received master's degree in 2008, continuing her PhD at the same university since 2011 (Ust-Kamenogorsk, Kazakhstan). Her research interests lie in the physics of condensed state.

Michael Scheffler holds a PhD in chemistry from the University of Halle/Saale, Germany. He is professor for non-metallic and composite materials at the Otto von Guericke University, Magdeburg, Germany. His research interests are in the fields of cellular ceramics, coatings, and novel processing technologies.

References

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Published Online: 2014-09-28
Published in Print: 2014-07-15

© 2014, Carl Hanser Verlag, München

Articles in the same Issue

  1. Inhalt/Contents
  2. Inhalt
  3. Fachbeiträge/Technical Contributions
  4. Microstructure-Oriented Fatigue Assessment of Construction Materials and Joints Using Short-Time Load Increase Procedure*
  5. Anmerkungen zur Auslegung und zum sicheren Betrieb von Radsatzwellen aus der Sicht von Betriebsfestigkeit und Bruchmechanik*
  6. Load Data Calculation in Electric Axle Drives and Fatigue Assessment for the Electric Motor Subsystem*
  7. Zur Festigkeitsbewertung von CFK-Strukturen unter Pkw-Betriebslasten*
  8. Absicherungskonzept für die Betriebsfestigkeit von HV-Speicherbatterien*
  9. Betriebsfestigkeitsanalyse von CFK-Bauteilen mit statischen Versagenskriterien*
  10. Hot-Shakerprüfung für den Lebensdauernachweis an Euro-IV-Abgasanlagen von Nutzfahrzeugen*
  11. Effects of Re-Aging on the Fatigue Properties of Aluminum Alloy AA7075
  12. Coherency and Grain Size Effects on Solidification Crack Growth in Aluminum Welds
  13. Heat Treatment Response of Nb Alloyed Cast High Speed Tool Steel
  14. Conclusions of the 5th European American Workshop on Reliability of NDE
  15. Summary of the “Open Space Technology Discussions” on Reliability of NDE
  16. NDT Reliability in the Organizational Context of Service Inspection Companies
  17. Methods to Assess the Quality of Non-Destructive Testing in Civil Engineering Using POD and GUM for Static Calculations of Existing Structures*
  18. Effects of Cement Addition on Aluminum Penetration into Alumina Based Shaped Refractories
  19. Examination of Phase Composition and Mechanical Properties of Drilling Tool Material after Electrolytic Plasma Treatment
  20. Vorschau/Preview
  21. Vorschau
https://doi.org/10.3139/120.110606

Articles in the same Issue

  1. Inhalt/Contents
  2. Inhalt
  3. Fachbeiträge/Technical Contributions
  4. Microstructure-Oriented Fatigue Assessment of Construction Materials and Joints Using Short-Time Load Increase Procedure*
  5. Anmerkungen zur Auslegung und zum sicheren Betrieb von Radsatzwellen aus der Sicht von Betriebsfestigkeit und Bruchmechanik*
  6. Load Data Calculation in Electric Axle Drives and Fatigue Assessment for the Electric Motor Subsystem*
  7. Zur Festigkeitsbewertung von CFK-Strukturen unter Pkw-Betriebslasten*
  8. Absicherungskonzept für die Betriebsfestigkeit von HV-Speicherbatterien*
  9. Betriebsfestigkeitsanalyse von CFK-Bauteilen mit statischen Versagenskriterien*
  10. Hot-Shakerprüfung für den Lebensdauernachweis an Euro-IV-Abgasanlagen von Nutzfahrzeugen*
  11. Effects of Re-Aging on the Fatigue Properties of Aluminum Alloy AA7075
  12. Coherency and Grain Size Effects on Solidification Crack Growth in Aluminum Welds
  13. Heat Treatment Response of Nb Alloyed Cast High Speed Tool Steel
  14. Conclusions of the 5th European American Workshop on Reliability of NDE
  15. Summary of the “Open Space Technology Discussions” on Reliability of NDE
  16. NDT Reliability in the Organizational Context of Service Inspection Companies
  17. Methods to Assess the Quality of Non-Destructive Testing in Civil Engineering Using POD and GUM for Static Calculations of Existing Structures*
  18. Effects of Cement Addition on Aluminum Penetration into Alumina Based Shaped Refractories
  19. Examination of Phase Composition and Mechanical Properties of Drilling Tool Material after Electrolytic Plasma Treatment
  20. Vorschau/Preview
  21. Vorschau
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