Article
Open Access
A Screening Approach for Rapid Qualitative Evaluation of Residual-Stress States – Application to Laser-Hardened Microalloyed Steel
-
A. Fischer
Published/Copyright:
June 11, 2019
Published Online: 2019-06-11
Published in Print: 2019-06-14
© 2019, Carl Hanser Verlag, München
Articles in the same Issue
- Praxis-Informationen/From and for Practice
- AWT Info
- HTM-Praxis
- Kurzfassungen/Abstracts
- Kurzfassungen
- Inhalt/Contents
- Inhalt
- Scientific Contributions/Fachbeiträge
- A Screening Approach for Rapid Qualitative Evaluation of Residual-Stress States – Application to Laser-Hardened Microalloyed Steel
- Surface Layer Microstructure of Carburised and Bainitically Transformed Parts and their Mechanical Properties∗
- Adjustment of Lifetime-Increasing Surface Layer States by Complementary Machining∗
- Internal Quenching: Ideal Heat Treatment for Difficult to Access Component Sections∗
- Impact of the Spheroidization Annealing on the Intensification or Mitigation of the Initial Pearlite Banding Degree Presented in Wire Rolled State
Keywords for this article
Laser treatment;
X-ray diffraction (XRD);
optical microscopy;
martensitic phase transformation;
microalloyed steels
Creative Commons
BY 4.0
Articles in the same Issue
- Praxis-Informationen/From and for Practice
- AWT Info
- HTM-Praxis
- Kurzfassungen/Abstracts
- Kurzfassungen
- Inhalt/Contents
- Inhalt
- Scientific Contributions/Fachbeiträge
- A Screening Approach for Rapid Qualitative Evaluation of Residual-Stress States – Application to Laser-Hardened Microalloyed Steel
- Surface Layer Microstructure of Carburised and Bainitically Transformed Parts and their Mechanical Properties∗
- Adjustment of Lifetime-Increasing Surface Layer States by Complementary Machining∗
- Internal Quenching: Ideal Heat Treatment for Difficult to Access Component Sections∗
- Impact of the Spheroidization Annealing on the Intensification or Mitigation of the Initial Pearlite Banding Degree Presented in Wire Rolled State
