Laser Shock Processing for the Enhancement of Mechanical and Surface Properties of Biocompatible Alloys

Ocaña Moreno, José Luis; González-Carrasco, J. L.; Lieblich, M.; Porro González, Juan Antonio; Díaz Muñoz, Marcos; Angulo Ramonell, Ignacio; Cordovilla Baró, Francisco y Peral Jiménez, David (2017). Laser Shock Processing for the Enhancement of Mechanical and Surface Properties of Biocompatible Alloys. En: "FiMPART'2017 International Conference on Frontiers in Materials Processing Applications, Research and Technology", 9-12 July, 2017, Bordeaux-France. pp. 1-50.

Descripción

Título: Laser Shock Processing for the Enhancement of Mechanical and Surface Properties of Biocompatible Alloys
Autor/es:
  • Ocaña Moreno, José Luis
  • González-Carrasco, J. L.
  • Lieblich, M.
  • Porro González, Juan Antonio
  • Díaz Muñoz, Marcos
  • Angulo Ramonell, Ignacio
  • Cordovilla Baró, Francisco
  • Peral Jiménez, David
Tipo de Documento: Ponencia en Congreso o Jornada (Otro)
Título del Evento: FiMPART'2017 International Conference on Frontiers in Materials Processing Applications, Research and Technology
Fechas del Evento: 9-12 July, 2017
Lugar del Evento: Bordeaux-France
Título del Libro: FiMPART'2017 International Conference on Frontiers in Materials Processing Applications, Research and Technology
Fecha: Julio 2017
Materias:
Escuela: E.T.S.I. Industriales (UPM)
Departamento: Física Aplicada e Ingeniería de Materiales
Licencias Creative Commons: Reconocimiento - Sin obra derivada - No comercial

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Resumen

Laser Shock Processing (LSP) is developed as a technique allowing the effective induction of residual stresses fields in metallic materials allowing a high degree of surface material protection against fatigue crack propagation, abrasive wear, chemical corrosion and other failure conditions, what makes the technique specially suitable and competitive with presently use techniques for the treatment of heavy duty components in the aeronautical, nuclear and automotive industries. The highly beneficial effect of LSP treatments has been demonstrated in the extension of life of test specimens with induced surface notches. The application of the LSP treatment to concrete high reliability components, particularly in the field of metallic materials of biomedical interest is envisaged. In the present communication, several experimental examples of the effects introduced in this kind of materials are shown along with some computational design tools developed in relation with typical prosthetical components. Additionally, the prospects for the application of the LSP treatment to new/advanced materials of biomedical interest are discussed.

Más información

ID de Registro: 50014
Identificador DC: http://oa.upm.es/50014/
Identificador OAI: oai:oa.upm.es:50014
URL Oficial: http://www.fimpart.org/2017/wp/
Depositado por: Memoria Investigacion
Depositado el: 15 Jun 2018 16:53
Ultima Modificación: 15 Jun 2018 16:53
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