1986
DOI: 10.2172/5550827
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Materials data base and design equations for the UCLA solid breeder blanket

Abstract: and HA10-after 20 3 achieving a burnup of 3x10 captures/cm (after Hollenberg [2]). . 35 2 Volumetric swelling of LiAlO. exposed to = 5 MW/m of neutron wall loading as a function of irradiation time 39 2 Volumetric swelling of Li,0 exposed to 5 MN/m of neutron wall wall loading as a function of irradiation time 42 Blanket pin average steady state temperature as a function of distance from the first wall for a neutron wall loading of = 5 MW/m 2 45 Helium production in LiAlO, breeder pins as a function of distanc… Show more

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Cited by 4 publications
(6 citation statements)
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“…19: ρ = 7056 kg/m 3 , σ = 560 mN/m, (∂ ρ/∂T) P = 0.57 kg/(m 3 K), (∂σ/∂T) P = 0.072 mN/(m K), which are close to values for pure tin and indium. 20,21 These values give us δ ρ/ρ| (δT =2K) = 1.6 × 10 −4 , δσ/σ| δT =2K = 2.5 × 10 −4 , thus δv j /v j ∼ 10 −4 both for density and surface tension variations.…”
Section: B Jet Velocity and Its Sensitive To Pressure And Temperaturementioning
confidence: 96%
“…19: ρ = 7056 kg/m 3 , σ = 560 mN/m, (∂ ρ/∂T) P = 0.57 kg/(m 3 K), (∂σ/∂T) P = 0.072 mN/(m K), which are close to values for pure tin and indium. 20,21 These values give us δ ρ/ρ| (δT =2K) = 1.6 × 10 −4 , δσ/σ| δT =2K = 2.5 × 10 −4 , thus δv j /v j ∼ 10 −4 both for density and surface tension variations.…”
Section: B Jet Velocity and Its Sensitive To Pressure And Temperaturementioning
confidence: 96%
“…(1) and (2) with f(x,n) the distribution density of the bubbles containing x helium atoms and composed of n vacancies. A numerical method for solving FP's equations has been proposed and implemented in [20,21]. This is a time expensive calculation which may not be appropriate with a long scale diffusion problem.…”
Section: Assumptions On the Helium Precipitationmentioning
confidence: 99%
“…(19), (20), and (11). The first annealing sequence can provide an order of magnitude of the two parameters l and L. Indeed to be consistent with the value of the 'first release' (3%), l, L and R 0 (the bubble radius at the beginning of the second annealing sequence) are in relation: the sink strength of the free surface m 1 must be in the same order of magnitude as the sink strength of the bubbles m 2 .…”
Section: A Steady-state Diffusion Coupled With the Evolution/growth Omentioning
confidence: 99%
“…The replacement of the interstitial helium atom with a pre-existent lattice vacancy cancels the strain field almost completely: therefore, the binding energy of the helium atom with a vacancy, is of the same order of magnitude of the heat of solution (E;+" = 2.1 eV [13]). The fact that the substitutional position for heliumisenergetically favourable with respect to the interstitial one originates a very efficient 'trapping' mechanism, exerted by lattice vacancies, which strongly affects the diffusive behaviour of helium atoms: in fact, they show a strong tendency to fill vacancies and form clusters.…”
Section: Introductionmentioning
confidence: 99%
“…The fact that the substitutional position for heliumisenergetically favourable with respect to the interstitial one originates a very efficient 'trapping' mechanism, exerted by lattice vacancies, which strongly affects the diffusive behaviour of helium atoms: in fact, they show a strong tendency to fill vacancies and form clusters. The migration energy of interstitial helium ( E P = 0.1 eV [13] f E? = 0.35 eV [14]) has been found experimentally lower than that of substitutional helium, EF > 3 eV [l].…”
Section: Introductionmentioning
confidence: 99%