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論文

Sorption mechanism of europium(III) onto metakaolin-based geopolymers

Yildirim, A. C.*; Mei, H.*; 戸田 賀奈子*; 青柳 登; 斉藤 拓巳*

Applied Clay Science, 274, p.107853_1 - 107853_9, 2025/09

 被引用回数:0 パーセンタイル:0.00(Chemistry, Physical)

Metakaolin-based geopolymers (MKGPs) are ceramic-like materials used for nuclear waste stabilization. Therefore, understanding the sorption of ions on MKGPs is crucial where the cation exchange is considered as the main mechanism, yet the studies based on pH are limited. Thus, this study evaluates the effect of pH on the sorption mechanism of Eu(III) onto Na- and K-MKGPs. Here, time-resolved laser fluorescence spectroscopy (TRLFS) combined with parallel factor analysis, TRLFS in mixed D$$_{2}$$O/H$$_{2}$$O matrices, and extended X-ray absorption fine structure analysis. Eu(III) predominantly forms surface complexes with both MKGPs in the pH range of 4 $$sim$$11 at the open air environment, where three distinct surface species were identified at different pH values. The Eu(III) sorption mechanisms of both MKGPs are similar, involving ternary edge-sharing bidentate or monodentate inner-sphere surface complexation of Eu(III) with MKGP and silicate ions released from the MKGP up to pH 8, followed by the precipitation of europium tri-hydroxide within the pores of MKGP. The insights gained from this study will enhance the knowledge on MKGP for pollutant immobilization, thereby mitigating the spread of contaminants in the environment and expanding the potential application areas.

論文

Microstructural evolution and mechanical instability of Mar-M509 superalloy fabricated by laser powder bed fusion under short-term thermal exposure

Cao, T.*; Wei, D.*; Gong, W.; 川崎 卓郎; Harjo, S.; 他10名*

Materials Science and Engineering A, 940, p.148534_1 - 148534_16, 2025/09

The thermal stability of microstructure and mechanical performance is crucial for the industrial application of laser powder bed fusion (LPBF) superalloy components in gas turbines and jet engines. This work investigated the microstructural evolution and strengthening mechanism of LPBF Mar-M509 cobalt-based superalloy before and after thermal exposure at 1200 $$^{circ}$$C using multi-scale microstructural characterization and in situ neutron diffraction tensile testing. The as-built Mar-M509 superalloy exhibited a heterogeneous microstructural features with coarse columnar and fine equiaxed grains, both containing dendritic and cellular substructures enriched with nanoscale carbides and high-density dislocations. The ultra high strength of the as-built sample was primarily attributed to dislocation-precipitation synergistic strengthening. After thermal exposure at 1200 $$^{circ}$$C for 4 h, the dendritic and cellular substructures disappeared and the dislocation density decreased significantly. This study reveals the microstructural evolution and instability of LPBF Mar-M509 superalloy under high-temperature exposure and the impacts on mechanical properties, which provides critical support for the development of cobalt-based superalloys in high-temperature application fields.

論文

Which radionuclides contribute most to seafood ingestion dose?

Johansen, M. P.*; Gwynn, J. P.*; Carpenter, J. G.*; Charmasson, S.*; 森 愛理; Orr, B.*; Simon-Cornu, M.*; Osvath, I.*; McGinnity, P.*

Journal of Environmental Radioactivity, 287, p.107706_1 - 107706_8, 2025/07

 被引用回数:0 パーセンタイル:0.00(Environmental Sciences)

Radiological ingestion doses from eating seafood are regularly evaluated near coastal nuclear facilities, following accidents/events and frequently in national studies worldwide. However, a recent global review found that published seafood doses varied greatly depending on which radionuclides were selected for evaluation and that there has been a tendency to omit important radionuclides or focus on less significant ones. This indicates a need for clear guidance on which radionuclides to prioritise in such studies. Here, we use worldwide data for 16 key radionuclides contributing to typical background seafood ingestion dose. We account for the loss of radionuclides during cooking and the radioactive decay of the short-lived $$^{210}$$Po. Results indicate that for the typical world consumer, naturally-occurring radionuclides account for $$>$$99% of the total seafood ingestion dose, of which about 84% comes from $$^{210}$$Po and 8% from $$^{210}$$Pb. About 5% comes from $$^{228}$$Ra, a far greater proportion than the more frequently-assessed $$^{226}$$Ra ($$<$$1%). Other Th- and U-series radionuclides provide far lower contributions (0.07%-0.70%), while $$^{14}$$C provides about 0.09%. In comparison, the contribution to total seafood ingestion dose from background anthropogenic radionuclides is $$<$$1%, with $$^{137}$$Cs contributing most (0.08%) and $$^{90}$$Sr, $$^{99}$$Tc, $$^{110m}$$Ag and $$^{239}$$Pu adding a further 0.05% together. These percentage contributions to dose can vary somewhat depending on consumption patterns (e.g., differing proportions of fish, bivalves, etc.). However, $$^{210}$$Po is the dominant contributor irrespective of country-specific diets or restricted diet scenarios (fish-only, seaweed-only, etc.). Study results provide new guidance to improve the design, interpretation and communication of seafood ingestion dose assessments.

論文

Temperature-dependent deformation behavior of dual-phase medium-entropy alloy; In-situ neutron diffraction study

Gu, G. H.*; Jeong, S. G.*; Heo, Y.-U.*; Harjo, S.; Gong, W.; Cho, J.*; Kim, H. S.*; 他4名*

Journal of Materials Science & Technology, 223, p.308 - 324, 2025/07

 被引用回数:0 パーセンタイル:0.00(Materials Science, Multidisciplinary)

Face-centered cubic (FCC) equi-atomic multi-principal element alloys (MPEAs) exhibit excellent mechanical properties from cryogenic to room temperatures. At room temperature, deformation is dominated by dislocation slip, while at cryogenic temperatures (CTs), reduced stacking fault energy enhances strain hardening with twinning. This study uses in-situ neutron diffraction to analyze the temperature-dependent deformation behavior of Al$$_{7}$$(CoNiV)$$_{93}$$, a dual-phase (FCC/BCC) medium-entropy alloy (MEA). At liquid nitrogen temperature (LNT), deformation twinning in the FCC matrix leads to additional strain hardening through the dynamic Hall-Petch effect, giving the appearance of improved strengthening at LNT. In contrast, BCC precipitates show dislocation slip at both 77 K and 298 K, with temperature-dependent lattice friction stress playing a significant role in strengthening. The study enhances understanding of deformation behaviors and provides insights for future alloy design.

論文

Methods for regulating depth of corrosion fissures in simulated fastener holes of 7050-T7451 aluminum alloy

青山 高士; Choudhary, S.*; Pandaleon, A.*; Burns, J. T.*; Kokaly, M.*; Restis, J.*; Ross, J.*; Kelly, R. G.*

Corrosion, 81(6), p.609 - 621, 2025/06

This study presents a new test method for inducing controlled corrosion damage within simulated fastener holes of aluminum alloys, aimed at pretreating fatigue test specimens. The method involves insulating the outer surface while exposing the fastener hole surface to electrolytes containing 0.66 M NaCl + 0.1 M AlCl $$_{3}$$ with varying concentrations of K $$_{2}$$S $$_{2}$$O $$_{8}$$. The evolution of corrosion damage within the fastener hole was examined as a function of exposure duration, electrolyte composition, and volume, as well as the effect of galvanic coupling with a SS316 cathode. Results indicate that fissure depth increases with an increase in K $$_{2}$$S $$_{2}$$O $$_{8}$$ concentration but does not progress further after 24-48 hours of exposure in the chemical, or freely-corroding, exposure test. In contrast, galvanic coupling with a SS316 plate significantly accelerates corrosion, leading to much deeper fissures in a shorter time. The importance of electrolyte replenishment has been explored using electrochemical measurements, revealing the impact of evolving electrolyte chemistry. Beyond its application in fatigue specimen pretreatment, this method provides a simple yet effective approach for studying localized corrosion and evaluating mitigation strategies for fastener holes in aerospace structures.

論文

DECOVALEX-2023: An International collaboration for advancing the understanding and modeling of coupled thermo-hydro-mechanical-chemical (THMC) processes in geological systems

Birkholzer, J. T.*; Graupner, B. J.*; Harrington, J.*; Jayne, R.*; Kolditz, O.*; Kuhlman, K. L.*; LaForce, T.*; Leone, R. C.*; Mariner, P. E.*; McDermott, C.*; et al.

Geomechanics for Energy and the Environment, 42, p.100685_1 - 100685_17, 2025/06

 被引用回数:0

The DECOVALEX initiative is an international research collaboration (www.decovalex.org), initiated in 1992, for advancing the understanding and modeling of coupled thermo-hydro-mechanical-chemical (THMC) processes in geological systems. DECOVALEX stands for "DEvelopment of COupled Models and VALidation against EXperiments". DECOVALEX emphasizes joint analysis and comparative modeling of the complex perturbations and coupled processes in geologic repositories and how these impact long-term performance predictions. More than fifty research teams associated with 17 international DECOVALEX partner organizations participated in the comparative evaluation of eight modeling tasks covering a wide range of spatial and temporal scales, geological formations, and coupled processes. This Virtual Special Issue on DECOVALEX-2023 provides an in-depth overview of these collaborative research efforts and how these have advanced the state-of-the-art of understanding and modeling coupled THMC processes. While primarily focused on radioactive waste, much of the work included here has wider application to many geoengineering topics.

論文

Numerical simulation of coupled THM behaviour of full-scale EBS in backfilled experimental gallery in the Horonobe URL

杉田 裕; 大野 宏和; Beese, S.*; Pan, P.*; Kim, M.*; Lee, C.*; Jove-Colon, C.*; Lopez, C. M.*; Liang, S.-Y.*

Geomechanics for Energy and the Environment, 42, p.100668_1 - 100668_21, 2025/06

 被引用回数:1 パーセンタイル:0.00(Energy & Fuels)

国際共同プロジェクトDECOVALEX-2023は、数値解析を使用してベントナイト系人工バリアの熱-水-応力(または熱-水)相互作用を研究するためのタスクDとして、幌延人工バリア性能確認試験を対象とした。このタスクは、モデル化のために、1つの実物大の原位置試験と、補完的な4つの室内試験が選択された。幌延人工バリア性能確認試験は、人工的な地下水注入と組み合わせた温度制御非等温の試験であり、加熱フェーズと冷却フェーズで構成されている。6つの研究チームが、さまざまなコンピューターコード、定式化、構成法則を使用して、熱-水-応力または熱-水(研究チームのアプローチによって異なる)数値解析を実行した。

論文

Magnetism of kagome metals (Fe$$_{1-x}$$Co$$_x$$)Sn studied by $$mu$$SR

Cai, Y.*; Yoon, S.*; Sheng, Q.*; Zhao, G.*; Seewald, E. F.*; Ghosh, S.*; Ingham, J.*; Pasupathy, A. N.*; Queiroz, R.*; Lei, H.*; et al.

Physical Review B, 111(21), p.214412_1 - 214412_17, 2025/06

 被引用回数:0

We study the magnetic properties of the metallic kagome system (Fe$$_{1-x}$$Co$$_x$$)Sn by a combination of muon spin relaxation ($$mu$$SR), magnetic susceptibility, and scanning tunneling microscopy (STM) measurements in single crystal specimens with Co concentrations $$x$$ = 0, 0.11, 0.8. In the undoped antiferromagnetic compound FeSn, we find possible signatures for a previously unidentified phase that sets in at $$T^{*}sim 50$$~K, well beneath the Neel temperature $$T_{N}sim 376$$~K as indicated by a peak in the relaxation rate 1/$$T_1$$ observed in zero field (ZF) and longitudinal field (LF) $$mu$$SR measurements, with a corresponding anomaly in the ac and dc susceptibility, and an increase in the static width 1/$$T_2$$ in ZF-$$mu$$SR measurements. No signatures of spatial symmetry breaking are found in STM down to 7~K. Related to the location and motion of muons in FeSn, we confirmed a previous report that about 40% of the implanted muons reside at a field-cancelling high symmetry site at $$T < 250$$~K, while an onset of thermal hopping changes the site occupancy at higher temperatures. In Fe$$_{0.89}$$Co$$_{0.11}$$Sn, where disorder eliminated the field-cancellation effect, all the implanted muons exhibit precession and/or relaxation in the ordered state. In Fe$$_{0.2}$$Co$$_{0.8}$$Sn, we find canonical spin glass behavior with freezing temperature $$T_gsim 3.5$$~K; the ZF and LF-$$mu$$SR time spectra exhibit results similar to those observed in dilute alloy spin glasses CuMn and AuFe, with a critical behavior of $$1/T_1$$ at $$T_g$$ and $$1/T_1to 0$$ as $$Tto 0$$. The absence of spin dynamics at low temperatures makes a clear contrast to the spin dynamics observed by $$mu$$SR in many geometrically frustrated spin systems on insulating kagome, pyrochlore, and triangular lattices. The spin glass behavior of CoSn doped with dilute Fe moments is shown to originate primarily from the randomness of doped Fe moments rather than due to geometrical frustration of the underlying lattice.

論文

Impact of microdosimetric modeling on computation of relative biological effectiveness for carbon ion radiotherapy

Hartzell, S.*; Furutani, K. M.*; Parisi, A.*; 佐藤 達彦; 加瀬 優紀*; Deglow, C.*; Friedrich, T.*; Beltran, C. J.*

Radiation (Internet), 5(2), p.21_1 - 21_24, 2025/06

Microdosimetry is essential in particle therapy for understanding the biological effects of treatments by quantifying energy depositions within microscopic volumes. The calculation of the microdosimetric distributions can be carried out with physical models such as the Kiefer-Chatterjee (KC) track structure function and the Sato analytical microdosimetric function (AMF). Comprehensive comparisons across these physical models are lacking. The AMF is calculated for spherical domains, while the KC is traditionally calculated for a cylindrical domain. This study introduces a novel version of the KC function for spherical domains, allowing a direct comparison with AMF. The influence of each function on the calculation of the relative biological effectiveness (RBE) in carbon ion radiotherapy (CIRT) was evaluated.

報告書

加速器駆動システムの通常運転時の燃焼反応度測定精度に関する検討

方野 量太; 阿部 拓海; Cibert, H.*

JAEA-Research 2024-019, 22 Pages, 2025/05

JAEA-Research-2024-019.pdf:1.03MB

マイナーアクチノイドの核変換を目的とする加速器駆動システム(ADS)は未臨界状態で運転される。ADSの未臨界度管理においては、燃焼反応度の予測が重要であるが、予測精度の検証のためには、特に第一サイクル運転時では燃焼反応度を精度良く測定する必要がある。本検討では、燃焼反応度測定手法としてCurrent-To-Flux(CTF)法に着目し、連続エネルギーモンテカルロ計算コードSERPENT2を用いて固定源燃焼計算を実施し、炉内に配置する核分裂計数管を模したタリーを用いることで、CTF法によるADS通常運転時の燃焼反応度測定のシミュレーションを実施した。シミュレーション結果から測定手法起因の燃焼反応度測定不確かさの推定を行い、燃焼期間に依らず燃焼反応度に対して10%程度のバイアスが生じ、その検出器位置依存性が体系外側で小さいことを明らかにした。

論文

Nacre-like MXene/polyacrylic acid layer-by-layer multilayers as hydrogen gas barriers

Auh, Y. H.*; Neal, N. N.*; Arole, K.*; Regis, N. A.*; Nguyen, T.*; 小川 修一*; 津田 泰孝; 吉越 章隆; Radovic, M.*; Green, M. J.*; et al.

ACS Applied Materials & Interfaces, 17(21), p.31392 - 31402, 2025/05

 被引用回数:0 パーセンタイル:0.00(Nanoscience & Nanotechnology)

MXenes are a promising class of 2D nanomaterials and are of particular interest for gas barrier application. However, MXene nanosheets naturally bear a negative charge, which prevents assembly with negatively charged polymers, such as polyacrylic acid (PAA), into gas barrier coatings. Here, we present MXene- and PAA-based layer-by-layer (MXene/PAA LbL) multilayers formed by leveraging hydrogen bonding interactions. When assembled in acidic conditions, MXene/PAA LbL films exhibit conformal, pin-hole free, nacre-like structures. The MXene/PAA LbL films yield high blocking capability and low permeability (0.14$$pm$$0.01 cc mm m$$^{-2}$$ day$$^{-1}$$ MPa$$^{-1}$$) for hydrogen gas. These nacre-like structures are also electronically conductive (up to 370$$pm$$30 S cm$$^{-1}$$). Specifically, the reversible deconstruction of these films under basic conditions is experimentally verified. This study shows that hydrogen bonding interactions can be leveraged to form MXene LbL multilayers as gas barriers, electronically conducive coatings, and deconstructable thin films via pH control.

論文

Ingestion doses from radionuclides in seafood before and after the Fukushima Daiichi Nuclear Power Plant accident

森 愛理; Johansen, M. P.*; McGinnity, P.*; 高原 省五

Communications Earth & Environment (Internet), 6, p.356_1 - 356_11, 2025/05

 被引用回数:0 パーセンタイル:0.00(Environmental Sciences)

The presence of radionuclides in seafood following the Fukushima Daiichi Nuclear Power Plant accident in March 2011 have led to widespread and persistent concerns over seafood safety. We assess seafood ingestion doses before and after the accident for adults in the Tohoku Region of Northeast Japan. Using a Monte Carlo approach, we evaluate 23 anthropogenic and natural radionuclides alongside realistic seafood consumption rates. In the first year after the accident, the ingestion dose from accident-derived radionuclides was 19 $$mu$$Sv for consumers exposed to the 95th percentile dose, contributing only 2% of the total seafood ingestion dose, which includes natural radionuclides such as $$^{210}$$Po and $$^{210}$$Pb. After the third year, the dose from accident-derived radionuclides was indistinguishable to that from pre-accident background levels. These findings suggest that, with seafood restrictions in place, the impact of accident-related releases on seafood ingestion doses was minor and relatively short-lived compared with that of natural radionuclides.

論文

Nickel binding with magnetite nanoparticles

Fablet, L.*; P$'e$drot, M.*; Choueikani, F.*; Kieffer, I.*; Proux, O.*; Pierson-Wickmann, A.-C.*; Cagniart, V.*; 蓬田 匠; Marsac, R.*

Environmental Science; Nano, 12(5), p.2815 - 2827, 2025/05

 被引用回数:0 パーセンタイル:0.00(Chemistry, Multidisciplinary)

ニッケル(Ni)は環境中に遍在する微量元素である。Niは酸化鉄ナノ粒子との親和性が高く、土壌や水中から酸化鉄ナノ粒子、特に環境中に普遍的に存在する磁鉄鉱によって除去することができれば、環境浄化のための新たな戦略の1つとなり、その研究の意義は大きい。しかし、磁鉄鉱の化学量論(Fe(II)とFe(III)の比率)を制御することが困難であるため、Niと磁鉄鉱の相互作用は十分に理解されていなかった。そこで本研究では、異なるFe(II)とFe(III)の比率を持つ磁鉄鉱ナノ粒子を用い、吸着実験とX線吸収分光法によって溶液中と嫌気雰囲気下におけるNiと磁鉄鉱の相互作用を調べた。この研究により明らかにされた磁鉄鉱とNiの相互作用は、将来的にNi汚染の環境浄化戦略を立案する上で重要な知見となりうる。

論文

フルオラス溶媒による新たな金属抽出法

上田 祐生; Micheau, C.; 元川 竜平

ファインケミカル, 54(5), p.53 - 60, 2025/05

持続可能な社会を実現するためには金属資源のリサイクルが重要である。高濃度の金属イオンを取り扱う抽出操作では、プロセスの安全な運転を阻害する油相の相分離(第三相の生成)が長年の課題であった。本稿では、フルオラス化合物の強力な疎水性を利用した、第三相を生成させない新たな抽出系開発におけるこれまでの成果をまとめた。

論文

Spin density wave and van Hove singularity in the kagome metal CeTi$$_3$$Bi$$_4$$

Park, P.*; Ortiz, B. R.*; Spargue, M.*; Sakuya, A. P.*; Chen, S. A.*; Frontzek, M. D.*; Tian, W.*; Sibille, R.*; Mazzone, D. G.*; 田端 千紘; et al.

Nature Communications (Internet), 16, p.4384_1 - 4384_9, 2025/05

 被引用回数:1 パーセンタイル:0.00(Multidisciplinary Sciences)

Kagome metals with van Hove singularities (VHSs) near the Fermi level can host intriguing quantum phenomena, including chiral loop currents, electronic nematicity, and unconventional superconductivity. However, unconventional magnetic states driven by VHSs, such as spin-density waves (SDWs), have yet to be observed experimentally in kagome metals. Here, we present a comprehensive investigation of the magnetic and electronic structure of the layered kagome metal CeTi$$_3$$Bi$$_4$$, where the Ti kagome electronic structure interacts with a magnetic sublattice of Ce$$^{3+}$$ $$J_{rm eff}$$ = 1/2 moments. Our findings establish the rare-earth Kagome metals LnTi3Bi4 as a model platform where characteristic electronic structure of the kagome lattice plays a pivotal role in magnetic order.

論文

Incommensurate antiferromagnetism in UTe$$_2$$ under pressure

Knafo, W.*; Thebault, T.*; Raymond, S.*; Manuel, P.*; Khalyavin, D. D.*; Orlandi, F.*; Ressouche, E.*; Beauvois, K.*; Lapertot, G.*; 金子 耕士; et al.

Physical Review X, 15(2), p.021075_1 - 021075_16, 2025/05

 被引用回数:0

The discovery of multiple superconducting phases in UTe$$_2$$ boosted research on correlated-electron physics. This heavy-fermion paramagnet was rapidly identified as a reference compound to study the interplay between magnetism and unconventional superconductivity with multiple degrees of freedom. The proximity to a ferromagnetic quantum phase transition was initially proposed as a driving force to triplet-pairing superconductivity. However, we find here that long-range incommensurate antiferromagnetic order is established under pressure. The propagation vector k$$_{rm m}$$ = (0.07, 0.33, 1) of the antiferromagnetic phase is close to a wavevector where antiferromagnetic fluctuations have previously been observed at ambient pressure. These elements support that UTe$$_2$$ is a nearly-antiferromagnet at ambient pressure. Our work appeals for theories modelling the evolution of the magnetic interactions and electronic properties, driving a correlated paramagnetic regime at ambient pressure to a long-range antiferromagnetic order under pressure. A deeper understanding of itinerant-f-electrons magnetism in UTe$$_2$$ will be a key for describing its unconventional superconducting phases.

論文

Extending TOPAS with an analytical microdosimetric function; Application and benchmarking with nBio track structure simulations

Hartzell, S.*; Parisi, A.*; 佐藤 達彦; Beltran, C. J.*; Furutani, K. M.*

Physics in Medicine & Biology, 70(10), p.105010_1 - 105010_19, 2025/05

 被引用回数:0 パーセンタイル:0.00(Engineering, Biomedical)

In this study, we presented the implementation of the Analytical Microdosimetric Function (AMF) within the TOPAS Monte Carlo platform as an efficient and accurate surrogate for track structure simulations. The AMF extension demonstrated strong agreement with TOPAS nBio track structure simulations for ions relevant to particle therapy and space applications, while offering significant computational advantages.

論文

Synthesis of BaSiH$$_6$$ hydridosilicate at high pressures; A Bridge to BaSiH$$_8$$ polyhydride

Beyer, D. C.*; Spektor, K.*; Vekilova, O. Y.*; Grins, J.*; Barros Brant Carvalho, P. H.*; Leinbach, L. J.*; Sannemo-Targama, M.*; Bhat, S.*; Baran, V.*; Etter, M.*; et al.

ACS Omega (Internet), 10(15), p.15029 - 15035, 2025/04

 被引用回数:0 パーセンタイル:0.00(Chemistry, Multidisciplinary)

SiH$$_6$$八面体部位を特徴とするヒドリドケイ酸塩は、水素貯蔵と水素化物イオン伝導に関連する潜在的な性質を持つかなり新しい化合物のクラスである。ここでは、Zintl相水素化物BaSiH$$_{sim 1.8}$$を4GPa以上の圧力でH$$_2$$流体と反応させ、その後常圧まで減圧して得られた新しい代表的なBaSiH$$_6$$について報告する。SiH$$_{6}^{2-}$$イオンはBa$$^{2+}$$対イオンによって八面体に配位している。Ba原子とSi原子の配置は理想的なfcc NaCl構造からわずかにずれている。IRとラマンスペクトルからSiH$$_{6}^{2-}$$の屈曲と伸縮モードがそれぞれ800-1200と1400-1800cm$$^{-1}$$の範囲で観測された。BaSiH$$_6$$は95$$^circ$$Cまで熱的に安定であり、それ以上ではBaH$$_2$$とSiに分解する。DFT計算により、直接バンドギャップは2.5eVであることが示された。BaSiH$$_6$$の発見により、ギガパスカル圧力(10GPa以下)のシリサイドの水素化反応からアクセス可能なヒドリドケイ酸塩の化合物クラスが固まった。BaSiH$$_6$$の構造的性質は、超伝導ポリハイドライドBaSiH$$_8$$を予測されるより高い圧力で水素化するための中間体(あるいは前駆体)であることを示唆している。

論文

Enhanced strength and ductility in an additively manufactured Al10SiMg alloy at cryogenic temperatures

Naeem, M.*; Rehman, A. U.*; Romero Resendiz, L.*; Salamci, E.*; Aydin, H.*; Ansari, P.*; Harjo, S.; Gong, W.; Wang, X.-L.*; 他3名*

Communications Materials (Internet), 6, p.65_1 - 65_13, 2025/04

The need for lightweight materials with mechanical integrity at ultralow temperatures drives the development of advanced alloys for cryogenic use. Additive manufacturing via laser powder bed fusion (LPBF) offers a scalable way to create alloys with tailored properties. Here, we show that LPBF-processed Al10SiMg exhibits a high ultimate tensile strength (395 MPa) and uniform elongation (25%) at 15 K. These enhancements stem from grain refinement, increased geometrically necessary dislocations, and stress partitioning between the Al matrix and the stiffer Si phase, aiding strain accommodation. ${it In-situ}$ neutron diffraction reveals that the Si phase, with its higher yield strength, bears most of the load, while the Al matrix undergoes continuous strain hardening, extending deformation capacity. These results highlight Al10SiMg's promise for cryogenic applications such as hydrogen storage, aerospace, and quantum computing hardware.

論文

In situ neutron diffraction study of strain evolution and load partitioning during elevated temperature tensile test in HIP-Treated electron beam powder bed fusion manufactured Ti-6Al-4V

Pandian, K.*; Neikter, M.*; Ekh, M.*; Harjo, S.; 川崎 卓郎; Woracek, R.*; Hansson, T.*; Pederson, R.*

JOM, 77(4), p.1803 - 1815, 2025/04

 被引用回数:0 パーセンタイル:0.00(Materials Science, Multidisciplinary)

To produce dense Ti-6Al-4V components, electron beam powder bed fusion is typically followed by post-heat treatment like hot isostatic pressing (HIP). Standard HIP at 920$$^{circ}$$C/100 MPa for 2 h coarsens the microstructure and reduces yield strength, while low-temp HIP at 800$$^{circ}$$C/200 MPa for 2 h limits coarsening and retains strength comparable to as-built material. A coarser microstructure negatively affects tensile properties. Tensile tests at various temperatures suggest that thermally activated slip systems may influence elongation, requiring further study. In situ neutron time-of-flight diffraction during tensile loading enables analysis of strain evolution and slip plane activity. A two-phase elastic-plastic self-consistent model was used to compare with experiments. Results show basal slip {0002} activated at 20$$^{circ}$$C, pyramidal slip {10-11} at 350$$^{circ}$$C, and $$beta$$ phase carrying higher stress than $$alpha$$ in the plastic regime.

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