Mechanical Properties of Titanium Grade 1 After Laser Shock Wave Treatment-Reference-Cited by-同舟云学术

Mechanical Properties of Titanium Grade 1 After Laser Shock Wave Treatment

Published:2023-12-01 Issue:4 Volume:23 Page:48-61
ISSN:2083-4799
Container-title:Advances in Materials Science
language:en
Short-container-title:

Author:

Hutsaylyuk Volodymyr¹,Wachowski Marcin¹,Kovalyuk Bogdan²,Mocharskyi Vitalii²,Sitkar Oksana²,Śnieżek Lucjan¹,Zygmuntowicz Justyna³

Affiliation:

1. 1 Faculty of Mechanical Engineering , Military University of Technology , 2 gen. Sylwestra Kaliskiego St ., Warsaw , Poland

2. 2 Faculty of Computer Information Systems and Software Engineering , Ternopil Ivan Puluj National Technical University , 56 Ruska St ., Ternopil , Ukraine

3. 3 Faculty of Materials Science and Engineering , Warsaw University of Technology , 141 Wołoska St.,02-507 Warsaw , Poland

Abstract

Abstract In the presented work the impact of a laser shock wave on the mechanical properties of a Titanium Grade 1 was investigated. Based on a series of experimental studies related to the impact of the laser shock wave on the tested material, the impact of the given treatment on the structure and mechanical properties was assessed. The influence of the environment on the distribution of plasma temperature and pressure in the material during the implementation of the laser shock wave was analyzed. The effect of the laser treatment on the structure and micromechanical properties was initially estimated on the basis of the analysis of experimental results in the form of static strength test of samples after laser treatment. A slight increase in material strength was detected with a minimal decrease in ductility. In order to comprehensively understand the observed phenomenon, a number of fractographic tests were performed, especially the analysis of the porosity of the fracture surfaces. A decrease in the porosity of the material after impact laser treatment was observed as a result of local plastic deformation.

Publisher

Walter de Gruyter GmbH

Subject

Microbiology (medical),Immunology,Immunology and Allergy

Link

https://www.sciendo.com/pdf/10.2478/adms-2023-0022

Reference27 articles.

1. Montross C.S., Wei T., Ye L., Clark G., Mai Y-W.: Laser shock processing and its effects on microstructure and properties of metal alloys: a review. International Journal of Fatigue 24 (2002), 1021-1036.

2. Boustie M., Berthe L., De Resseguier T., Arrigoni M.: Laser Shock Waves: Fundamentals and Applications. Proceedings of the 1st International Symposium on Laser Ultrasonics: Science, Technology and Applications (2008), 1–6.

3. Peyre P.: Laser Shock Processing on Metal. Metals 7 (2017), 409.

4. John M., Kalvala P.R., Misra M., Menezes P.L.: Peening Techniques for Surface Modification: Processes, Properties, and Applications. Materials 14 (2021), 3841.

5. Cuenca E., Ducousso M., Rondepierre A., Videau L., Cuvillier N., Berthe L., Coulouvrat F. Propagation of laser-generated shock waves in metals: 3D axisymmetric simulations compared to experiments. Journal of Applied Physics. 128 (2020), 244903.