Capabilities of Nanostructured Tungsten for Plasma Facing Material

Gonzalez Arrabal, Raquel and Gordillo Garcia, Nuria and Rivera Manso, Antonio Manuel and Panizo Laíz, Miguel and Valles Ruiz, Miguel and Gonzalez Bris, Carlos and Tejado Garrido, Elena María and Pastor Caño, Jose Ignacio and Perlado Martín, José Manuel and Balabanian, C. and Guerrero Contreras, Carlos Luis and Bringa, E.M. and Iglesias, R. and Inestrosa-Izurieta, M.J. and Munnik, F. and Martín-Bragado, I. and Molina, J. and Moreno, J. (2015). Capabilities of Nanostructured Tungsten for Plasma Facing Material. In: "9th International Conference on Inertial Fusion Sciences and Applications (IFSA 2015)", 20–25 September 2015, Seattle, Washington, USA. pp. 1-10.

Description

Title: Capabilities of Nanostructured Tungsten for Plasma Facing Material
Author/s:
  • Gonzalez Arrabal, Raquel
  • Gordillo Garcia, Nuria
  • Rivera Manso, Antonio Manuel
  • Panizo Laíz, Miguel
  • Valles Ruiz, Miguel
  • Gonzalez Bris, Carlos
  • Tejado Garrido, Elena María
  • Pastor Caño, Jose Ignacio
  • Perlado Martín, José Manuel
  • Balabanian, C.
  • Guerrero Contreras, Carlos Luis
  • Bringa, E.M.
  • Iglesias, R.
  • Inestrosa-Izurieta, M.J.
  • Munnik, F.
  • Martín-Bragado, I.
  • Molina, J.
  • Moreno, J.
Item Type: Presentation at Congress or Conference (Article)
Event Title: 9th International Conference on Inertial Fusion Sciences and Applications (IFSA 2015)
Event Dates: 20–25 September 2015
Event Location: Seattle, Washington, USA
Title of Book: 9th International Conference on Inertial Fusion Sciences and Applications (IFSA 2015)
Date: 2015
Subjects:
Faculty: Instituto de Fusión Nuclear (UPM)
Department: Ingeniería Energética
Creative Commons Licenses: Recognition - No derivative works - Non commercial

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Abstract

One of the bottle necks for fusion to become a reality is the lack of materials able to withstand the harsh conditions taken place in a reactor environment. In particular, plasma facing materials (PFM) have to resist large radiation fluxes and thermal loads. Nowadays, tungsten is one of the most attractive materials proposed for PFM. However, it is known that the irradiation of tungsten with H leads to surface blistering and subsequent cracking and exfoliation which is unacceptable. In particular, these effects have been observed to be more severe when W is subjected to pulse irradiation.

More information

Item ID: 42158
DC Identifier: http://oa.upm.es/42158/
OAI Identifier: oai:oa.upm.es:42158
Official URL: http://ifsa15.org/
Deposited by: Memoria Investigacion
Deposited on: 08 May 2017 13:24
Last Modified: 24 Sep 2018 07:03
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