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NUMERICAL SIMULATION OF IRRADIATION-INDUCED GRAIN-BOUNDARY PHOSPHOROUS SEGREGATION IN REACTOR PRESSURE VESSEL STEELS USING RATE THEORY MODEL WITH FIRST-PRINCIPLES CALCULATIONS

机译：基于第一原理计算的速率理论模型对反应堆压力容器中辐照诱发的晶界磷偏析的数值模拟

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The experimental results on neutron-irradiated reactor pressure vessel (RPV) steels have revealed grain boundary segregation of phosphorous (P) due to neutron irradiation, which may lead to intergranular fracture. Because of the lack of experimental database, however, the dependence of the segregation on variables such as dose, dose-rate, and temperature is not clear. Here, we incorporate the parameters determined by first-principles calculations into the rate theory model which was developed for bcc lattice on the basis of the fcc lattice model proposed by Murphy and Perks, and apply it to the simulation of irradiation-induced P segregation in bcc iron. We evaluate the grain boundary P coverage and discuss its dependence on dose-rate and irradiation temperature by comparing our results with previously reported results and experimental data. As results, we find that dose-rate does not affect the grain boundary P coverage within the range of our simulation condition and that the dependence on irradiation temperature differs remarkably from the previous results.

机译：中子辐照反应堆压力容器（RPV）钢的实验结果表明，中子辐照导致磷（P）的晶界偏析，这可能导致晶间断裂。但是，由于缺乏实验数据库，分离对变量（如剂量，剂量率和温度）的依赖性尚不明确。在这里，我们将由第一原理计算确定的参数结合到速率理论模型中，该速率理论模型是在墨菲和珀克斯提出的fcc晶格模型的基础上针对bcc晶格开发的，并将其应用于模拟辐照诱导的P偏析。密件抄送铁。我们通过将我们的结果与先前报道的结果和实验数据进行比较，评估了晶界P的覆盖率，并讨论了其对剂量率和辐照温度的依赖性。结果，我们发现在我们的模拟条件范围内，剂量率不会影响晶界P的覆盖率，并且对辐照温度的依赖性与先前的结果明显不同。

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《ASME pressure vessels and piping conference;PVP2009》|2010年|P.395-402|共8页
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作者
KEN-ICHI EBIHARA; MASATAKE YAMAGUCHI; YUTAKA NISHIYAMA; KUNIO ONIZAWA; HIROSHI MATSUZAWA;
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中图分类压力容器;
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k:Boltzmann constant (8.618×10~(-5) eV/K); T:Absolute temperature K; a_0:Lattice constant of bcc lattice (0.287nm); w_m~1:Jump frequency of the m kind of transition process of the 1 mechanism (1=V: Vacancy), I:Interstitial) /s; E-m~1:Barrier energy of the m kind of transition process of the 1 mechanism eV; et al;

机译：k：玻尔兹曼常数（8.618×10〜（-5）eV / K）; T：绝对温度[K]; a_0：bcc晶格的晶格常数（0.287nm）; w_m〜1：第一种机制的第m种过渡过程的跳跃频率（1 = V：空缺，I：间隙）[/ s]; E-m〜1：第一种机理的第m种过渡过程的势垒能[eV];等;

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1. Effect of carbon on irradiation-induced grain-boundary phosphorus segregation in reactor pressure vessel steels using first-principles-based rate theory model [J] . Ebihara K.-I., Yamaguchi M., Nishiyama Y., Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2011,第2期

机译：基于第一性原理的速率理论模型研究碳对反应堆压力容器钢中辐照引起的晶界磷偏析的影响
2. Grain-boundary phosphorus segregation in highly neutron-irradiated reactor pressure vessel steels and its effect on irradiation embrittlement [J] . Hata Kuniki, Takamizawa Hisashi, Hojo Tomohiro, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2021,第1期

机译：高中辐射反应器压力容器钢的晶界磷偏析及其对辐照脆化的影响
3. Introduction of vacancy drag effect to first-principles-based rate theory model for irradiation-induced grain-boundary phosphorus segregation [J] . Ken-ichi Ebihara, Tomoaki Suzudo, Masatake Yamaguchi, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2013,第1a3期

机译：空位拖曳效应引入基于第一原理的辐照诱导的晶界磷偏析速率理论模型
4. Irradiation-Induced Grain-Boundary Solute Segregation and Its Effect on Ductile-to-Brittle Transition Temperature in Reactor Pressure Vessel Steels [C] . Yutaka Nishiyama, Masatake Yamaguchi, Kunio Onizawa, Effects of radiation on nuclear materials and the nuclear fuel cycle . 2010

机译：辐照诱导的晶粒边界溶质偏析及其对反应器压力容器钢中韧性对脆性转变温度的影响
5. Thermodynamic and Kinetic Modeling of Evolution of Mn-Ni-Si-rich Precipitates in Low-Cu Reactor Pressure Vessel Steels [D] . Ke, Huibin. 2017

机译：低Cu反应器压力容器钢中Mn-Ni-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si-Si的热力学和动力学建模
6. On the Elevated Temperature Thermal Stability of Nanoscale Mn-Ni-Si Precipitates Formed at Lower Temperature in Highly Irradiated Reactor Pressure Vessel Steels [O] . N. Almirall, P. B. Wells, H. Ke, -1

机译：高辐照反应堆压力容器钢中较低温度下形成的纳米Mn-Ni-Si沉淀物的高温热稳定性研究
7. Correlating Irradiation-Induced Solute Clustering with Changes of Hardness in Low and High Flux Reactor Pressure Vessel Steels [O] . J.M. Hyde, K. Wilford 2017

机译：与低通量反应器压力容器钢硬度变化的相关辐射诱导的溶质聚类
8. Irradiation-Induced Embrittlement of Steels Used as Reactor-Pressure-Vessel and End Shields. [R] . Chatterjee, S., Sivaramakrishnan, K. S. 1981

机译：用作反应器 - 压力容器和端盖的钢的辐照引起的脆化。

NUMERICAL SIMULATION OF IRRADIATION-INDUCED GRAIN-BOUNDARY PHOSPHOROUS SEGREGATION IN REACTOR PRESSURE VESSEL STEELS USING RATE THEORY MODEL WITH FIRST-PRINCIPLES CALCULATIONS

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