脉冲氦离子和氦等离子体流对氘预辐照奥氏体铬锰钢的影响

IF 0.5 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Inorganic Materials: Applied Research Pub Date : 2024-10-09 DOI:10.1134/S2075113324700874
A. S. Demin
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引用次数: 0

摘要

研究了脉冲氦离子流和氦等离子体流对低活化奥氏体 25Cr12Mn20W 铬锰钢样品的连续作用效果,这些样品是从六角形管材上切割下来的,在 Plasma Focus PF-1000 设备上以不同模式预辐照了氘离子流和氘等离子体流。研究采用了两种氘辐照模式:功率密度为 q ~ 107-108 W/cm2 的相对软模式和 q ~ 109-1010 W/cm2 的硬模式,脉冲长度均为τ = 100 ns,脉冲放电次数均为 N = 4。研究表明,在辐照参数为 q ~ 107-108 W/cm2、τ = 100 ns 和 N = 15 的 PF Vikhr 设施中,氦离子流和氦等离子体流对钢管样品内表面的影响取决于其预辐照氘离子流和氘等离子体流的模式。在功率密度为 q ~ 107-108 W/cm2 的氘离子和氘等离子体流的相对柔和的预辐照模式下,随后的氦脉冲辐照会导致表层的可破坏性发生轻微变化:波状表面浮雕变得平滑,表层孔隙的形成增加,表层出现微裂缝,并形成由钢成分中的基本元素和杂质元素组成的球形颗粒。此外,还观察到从 PF 设备阳极沉积下来的铌的存在。钢管样品在 q ~ 109-1010 W/cm2 的硬模式下经过氘离子和氘等离子体流预辐照后,氦离子和氦等离子体流对其内表面的影响增加了表面层的可破坏性。在氘离子预辐照管道的阶段,氦气的植入有助于增加表面层出现的开放空腔(数十微米)的数量和尺寸,在其中形成大量小气泡(最多约 5 微米)和气孔,并在辐照表面出现不同相的球形颗粒。与样品预辐照时的软辐照模式相比,氦气脉冲辐照后钢材样品表面层的可破坏性增加,同时材料的侵蚀强度也显著增加。侵蚀的增强导致沉积在辐照表面的铌含量明显减少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Effect of Pulsed Helium Ion and Helium Plasma Flows on Austenitic Chromium–Manganese Steel Preirradiated with Deuterium

The effect of sequential action of pulsed helium ion and helium plasma flows on low-activated austenitic 25Cr12Mn20W chromium–manganese steel samples cut from a hexagonal pipe preirradiated with the deuterium ion and deuterium plasma flows in different modes at the Plasma Focus PF-1000 facility has been studied. Two deuterium irradiation modes have been implemented: a relatively soft mode with a power density of q ~ 107–108 W/cm2 and a hard mode with q ~ 109–1010 W/cm2 with a pulse length of τ = 100 ns and number N = 4 of pulse discharges in both cases. It has been shown that the effect of the helium ion and helium plasma flows at the PF Vikhr facility with irradiation parameters of q ~ 107–108 W/cm2, τ = 100 ns, and N = 15 on the inner surface of a steel pipe sample depends on the mode of its preirradiation with deuterium ion and deuterium plasma flows. In the relatively soft mode of pre-exposure to deuterium ion and deuterium plasma flows with a power density of q ~ 107–108 W/cm2, the subsequent pulsed irradiation with helium causes slight changes in the damageability of the surface layer: smoothing of the wavelike surface relief, an increase in pore formation in the surface layer, appearance of microcracks in it, and formation of spherical particles consisting of basic and impurity elements of the steel composition. The presence of niobium deposited from the anode of the PF facility has also been observed. The impact of the helium ions and helium plasma flows on the inner surface of a steel pipe sample after its preirradiation with deuterium ion and deuterium plasma flows in the hard mode at q ~ 109–1010 W/cm2 increases the damageability of the surface layer. Implantation of helium into the material facilitates an increase in the number and size of open cavities (tens of microns) emerging in the surface layer at the stage of preirradiation of the pipe with deuterium, formation of numerous small (up to ~5 μm) bubbles and pores in it, and emergence of spherical particles of different phases on the irradiated surface. An increase in the damageability of the surface layer in the investigated steel sample after its subsequent pulsed irradiation with helium is accompanied by a significant increase in the intensity of erosion of the material as compared with the situation implemented in the softer mode of pre-irradiation of the sample. The enhanced erosion leads to a noticeable decrease in the content of niobium deposited onto the irradiated surface.

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来源期刊
Inorganic Materials: Applied Research
Inorganic Materials: Applied Research Engineering-Engineering (all)
CiteScore
0.90
自引率
0.00%
发文量
199
期刊介绍: Inorganic Materials: Applied Research  contains translations of research articles devoted to applied aspects of inorganic materials. Best articles are selected from four Russian periodicals: Materialovedenie, Perspektivnye Materialy, Fizika i Khimiya Obrabotki Materialov, and Voprosy Materialovedeniya  and translated into English. The journal reports recent achievements in materials science: physical and chemical bases of materials science; effects of synergism in composite materials; computer simulations; creation of new materials (including carbon-based materials and ceramics, semiconductors, superconductors, composite materials, polymers, materials for nuclear engineering, materials for aircraft and space engineering, materials for quantum electronics, materials for electronics and optoelectronics, materials for nuclear and thermonuclear power engineering, radiation-hardened materials, materials for use in medicine, etc.); analytical techniques; structure–property relationships; nanostructures and nanotechnologies; advanced technologies; use of hydrogen in structural materials; and economic and environmental issues. The journal also considers engineering issues of materials processing with plasma, high-gradient crystallization, laser technology, and ultrasonic technology. Currently the journal does not accept direct submissions, but submissions to one of the source journals is possible.
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