Radiation damage research at LAMFI: Laboratory of Materials and Ion Beams
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In: Revista brasileira de aplicações de vacuo= Brazilian journal of vacuum applications, Vol. 35.2016, No. 3, 2017, p. 111-116.
Research output: Contribution to journal › Article › Research › peer-review
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T1 - Radiation damage research at LAMFI: Laboratory of Materials and Ion Beams
AU - Tunes, Matheus
AU - Degasperi, Francisco Tadeu
AU - Rodrigues, Claudio L
AU - Silva, Thiago F
AU - Tabacniks, Manfredo Harris
AU - Added, Nemitala
AU - Schön, Cláudio G.
PY - 2017
Y1 - 2017
N2 - Nuclear energy represents 13% of the present worldwide electric power consumption, but in Brazil only about 2.4% of the energy matrix is due to the nucleo-electric power. As the Brazilian hydroelectric capabilities have been threatened by the water supply shortage by environmental conditions, nuclear technology need to overcome specific challenges aiming at supporting the nuclear reactors development in a sustainable, reliable and efficient perspective. This work addresses the recent theoretical and experimental activities carried out at IFUSP, FATECSP–CEETEPS and POLI-USP in the field of materials sciences and the current challenges of using ion beams to emulate neutron damage in cladding materials candidates with enhanced properties towards accident conditions. Additionally, a new vacuum system is introduced coupled to the LIO-LAMFI1 implanter allowing to extend the capability of the system to perform implantation at temperatures higher than room temperature. Keywords: Nuclear Materials, Implanter, Ion Beams, Irradiation Damage, Rutherford Backscattering, Vacuum Technology, SRIM.
AB - Nuclear energy represents 13% of the present worldwide electric power consumption, but in Brazil only about 2.4% of the energy matrix is due to the nucleo-electric power. As the Brazilian hydroelectric capabilities have been threatened by the water supply shortage by environmental conditions, nuclear technology need to overcome specific challenges aiming at supporting the nuclear reactors development in a sustainable, reliable and efficient perspective. This work addresses the recent theoretical and experimental activities carried out at IFUSP, FATECSP–CEETEPS and POLI-USP in the field of materials sciences and the current challenges of using ion beams to emulate neutron damage in cladding materials candidates with enhanced properties towards accident conditions. Additionally, a new vacuum system is introduced coupled to the LIO-LAMFI1 implanter allowing to extend the capability of the system to perform implantation at temperatures higher than room temperature. Keywords: Nuclear Materials, Implanter, Ion Beams, Irradiation Damage, Rutherford Backscattering, Vacuum Technology, SRIM.
U2 - 10.17563/rbav.v35i3.1043
DO - 10.17563/rbav.v35i3.1043
M3 - Article
VL - 35.2016
SP - 111
EP - 116
JO - Revista brasileira de aplicações de vacuo= Brazilian journal of vacuum applications
JF - Revista brasileira de aplicações de vacuo= Brazilian journal of vacuum applications
IS - 3
ER -
