Laser Shock Processing as an Advanced Technique for the Surface and Mechanical Resistance Properties Modification of Bioabsorbable Magnesium Alloys

Ocaña Moreno, José Luis and González Carrasco, J. L. and Lieblich, M. and Galván, J. C. and Porro González, Juan Antonio and Díaz Muñoz, Marcos and Cordovilla Baró, Francisco and Angulo Ramonell, Ignacio and Izaguirre, I. (2018). Laser Shock Processing as an Advanced Technique for the Surface and Mechanical Resistance Properties Modification of Bioabsorbable Magnesium Alloys. In: "THERMEC’2018: 10th International Conference on Processing and Manufacturing of Advanced Materials", July 09 - July 13, 2018, Paris, France. pp. 1-45.

Description

Title: Laser Shock Processing as an Advanced Technique for the Surface and Mechanical Resistance Properties Modification of Bioabsorbable Magnesium Alloys
Author/s:
  • Ocaña Moreno, José Luis
  • González Carrasco, J. L.
  • Lieblich, M.
  • Galván, J. C.
  • Porro González, Juan Antonio
  • Díaz Muñoz, Marcos
  • Cordovilla Baró, Francisco
  • Angulo Ramonell, Ignacio
  • Izaguirre, I.
Item Type: Presentation at Congress or Conference (Lecture)
Event Title: THERMEC’2018: 10th International Conference on Processing and Manufacturing of Advanced Materials
Event Dates: July 09 - July 13, 2018
Event Location: Paris, France
Title of Book: THERMEC’2018: 10th International Conference on Processing and Manufacturing of Advanced Materials
Date: July 2018
Subjects:
Faculty: E.T.S.I. Industriales (UPM)
Department: Física Aplicada e Ingeniería de Materiales
Creative Commons Licenses: Recognition - No derivative works - Non commercial

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Abstract

Laser shock processing (LSP) is increasingly applied as an effective technology for the improvement of mechanical properties in different types of metallic components, principally as a means of enhancement of their corrosion and fatigue life behavior. Specially wear resistance, stress corrosion cracking susceptibility and crack propagation rate seem to be material properties specially improved by LSP treatments. On the other hand, Mg and its alloys have gained increasing relevance as natural biomaterials as their mechanical properties are in the same range as those corresponding to natural bone as well as due to their inherent bioabsorbable properties. In the present paper, the application of the LSP technology to biocompatible bioabsorbable Mg alloys suitable for chirurgical implementation is envisaged, the experimental verification of the residual stresses fields induced under different processing conditions and the experimental characterization of the corresponding surface properties being specifically considered

Funding Projects

TypeCodeAcronymLeaderTitle
Government of SpainMAT2012-37782UnspecifiedUnspecifiedAnálisis integrado teórico-experimental de la técnica LSP aplicada a la mejora de propiedades mecánicas y superficiales de componentes metálicos de alta fiabilidad
Government of SpainMAT2012-37736-C05-01UnspecifiedUnspecifiedProcesado y caracterización de nuevos materiales compuestos bioreabsorbibles para osteosíntesis de PLLA con alta fracción de volumen de MG
Government of SpainMAT2015-63974-C4-2-RUnspecifiedUnspecifiedTratamiento mediante LSP de aleaciones de magnesio biodegradables y bioreabsorbibles como método de mejora de sus propiedades mecánicas
Madrid Regional GovernmentS2013/MIT-2862MULTIMAT-CHALLENGEUnspecifiedMateriales multifuncionales para los retos de la sociedad

More information

Item ID: 55063
DC Identifier: http://oa.upm.es/55063/
OAI Identifier: oai:oa.upm.es:55063
Official URL: https://thermec2018.sciencesconf.org/
Deposited by: Memoria Investigacion
Deposited on: 21 May 2019 15:55
Last Modified: 21 May 2019 16:32
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