Article
Materials Science, Multidisciplinary
Seulki Hwang, Daesup Hwang, Hani Baek, Chansun Shin
Summary: This study investigated the material transfer phenomena between two AgCu contacts attached to spring beams made of three different copper-based strip alloys and found that the properties of the spring beam materials significantly impact the arcing behaviors and material transfer between contacts.
METALS AND MATERIALS INTERNATIONAL
(2021)
Article
Materials Science, Multidisciplinary
Ling Jin, Kaiyong Jiang, Lei Kang, Binggong Yan
Summary: This study developed a C-Al2O3-Cu composite powder mixed with Ni and Fe to improve the laser cladding of copper and copper alloys, successfully solving the problems associated with cracks and voids. The tensile strength of the cladding layer is significantly higher, showing improved mechanical performance.
JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE
(2022)
Review
Materials Science, Multidisciplinary
B. Cantor
Summary: Multicomponent high-entropy Cantor alloys, discovered in the late 1970s, occupy a vast region of multi-component phase space and exhibit excellent mechanical properties due to high configurational entropy. The complexity of local atomic configurations and associated lattice strains in these alloys contributes to their unique characteristics and potential for further enhancement and optimization.
PROGRESS IN MATERIALS SCIENCE
(2021)
Article
Materials Science, Multidisciplinary
Dmitry Terentyev, Michael Rieth, Gerald Pintsuk, Alexander Von Mueller, Steffen Antusch, Aleksandr Zinovev, Alexander Bakaev, Kateryna Poleshchuk, Giacomo Aiello
Summary: The effect of neutron irradiation on tensile properties and fracture mode was studied for several advanced CuCrZr alloys as part of the European fusion material development program. Five different material grades, utilizing different strengthening principles, were exposed to neutron irradiation up to 2.5 dpa at temperatures ranging from 150°C to 450°C. The results showed that irradiation at 150°C caused severe embrittlement of the tungsten-copper laminates and reduced the total elongation of all other grades. Irradiation at 450°C led to irradiation softening in the vanadium-doped alloy similar to CuCrZr, while other materials exhibited irradiation hardening.
JOURNAL OF NUCLEAR MATERIALS
(2023)
Article
Materials Science, Multidisciplinary
Hai-Di Feng, Yan-Ting Xu, Shuo Peng, Qi Zhao, Ming Wen, Zong-Yan Zhao
Summary: This study used first-principles high-throughput computations to investigate the feasibility of Ti-W and Ti-Ru binary alloys as diffusion barrier layers for copper interconnects. The stability ranges and optimal choices of these alloys were determined by calculating the formation energy, constructing a convex hull phase diagram, and analyzing structural stability, electronic structure, and mechanical properties. The study also explored TiRu in Ti-Ru alloys as a potential area for further exploration. Ti0.25W0.75 solid solution and TiRu intermetallic compound were identified as the most promising materials for diffusion barrier layers. This research provides meaningful insights for the design and implementation of high-performance diffusion barrier materials.
MATERIALS TODAY COMMUNICATIONS
(2023)
Article
Chemistry, Physical
R. Dominguez-Reyes, M. A. Monge, B. Galiana, Y. Ortega, A. Munoz, G. Carro-Sevillano
Summary: This study investigates the thermal stability and defect evolution of two high-heat flux Cu-0.8 wt%Y alloys, revealing the formation of stable defect structures above 600 degrees Celsius.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Article
Nuclear Science & Technology
A. H. Seltzman, S. J. Wukitch
Summary: When using Laser Powder Bed Fusion (L-PBF) to manufacture GRCop-84, the minimum thickness of vertical walls and septa is 1 mm, with thinner walls warping during printing. Additionally, roughness increases on both upper and lower surfaces as the angle increases.
FUSION ENGINEERING AND DESIGN
(2021)
Article
Nanoscience & Nanotechnology
R. M. Flanagan, M. A. Meyers, S. M. Valone, S. J. Fensin
Summary: The mechanisms responsible for the collapse of helium-filled bubbles during the passage of shock waves in monocrystalline copper are revealed. Both empty and helium-filled bubbles serve as dislocation sources, generating intense, localized plastic regions. There are distinct differences in the collapse of empty voids compared to He-filled bubbles, the former requiring less stress and generating a greater density of dislocations for a given shock strength.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2022)
Article
Materials Science, Multidisciplinary
Touseef Khan, Dhruv Bajaj, Arshad Noor Siddiquee
Summary: Friction stir engineering was used to extrapolate grain size to the nanoscale and simultaneously alloy Cu with Mg, Ni, and Zn, resulting in enhanced alloying. Plastic shear strain during deformation-induced bimodality promoted significant reduction in average grain size and microhardness enhancement without the formation of brittle intermetallics. Elemental and morphological heterogeneity was achieved in the stirred region, which can advance the design of metamaterials.
Article
Chemistry, Analytical
Pranee Phukphatthanachai, Ulrich Panne, Heike Traub, Jens Pfeifer, Jochen Vogl
Summary: The quantification of the sulphur mass fraction in pure copper and copper alloys by GDMS and LA-ICP-MS showed a lack of traceability due to insufficient suitable certified reference materials for calibrating the instruments. Different external calibration strategies were applied and validated using certified reference materials, with good agreement achieved except for the matrix cross type calibration which had slightly worse agreement. The measurement results obtained are traceable to the international system of units (SI) via IDMS reference values, demonstrating metrological compatibility.
JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY
(2021)
Article
Materials Science, Multidisciplinary
D. Frazer, R. C. Connick, C. Howard, M. Siddiqui, R. Fritz, P. Kutlesa, P. Hosemann
Summary: Copper is considered as a suitable material for high heat flux applications and high-frequency pulsed magnets, but its low strength poses a challenge. Alloying copper with body center cubic elements can enhance its mechanical properties. This study used high-energy ball milling combined with high-pressure torsion to manufacture 3D Cu-Nb composites. The mechanical properties of the composites were evaluated through hardness testing. The results showed that the mechanical properties of the composites reached saturation after a certain number of turns during the high-pressure torsion consolidation, exhibiting uniform properties across the manufactured disk. Performing high-pressure torsion at elevated temperature further improved consolidation. The high-temperature nanoindentation revealed a change in deformation mechanism within a certain temperature range.
Review
Materials Science, Multidisciplinary
T. Mukherjee, J. W. Elmer, H. L. Wei, T. J. Lienert, W. Zhang, S. Kou, T. DebRoy
Summary: The properties and serviceability of 3D-printed metal parts depend on various attributes such as chemical composition, phases, morphology, grain size and shape, texture, and defects. Controlling these attributes is challenging due to numerous process variants and parameters. This article critically reviews recent advances in controlling grain structure, phases, and defects, emphasizing the use of digital tools and data-driven techniques. Opportunities for high-impact research in metal printing are identified, and an outlook for the future is provided.
PROGRESS IN MATERIALS SCIENCE
(2023)
Article
Chemistry, Physical
Erhai Hu, Chuntai Liu, Wei Zhang, Qingyu Yan
Summary: Electrochemical CO2 reduction reaction (CO2RR) is a significant process for recycling excessive CO2 in the atmosphere. However, the discovery of efficient catalysts for CO2RR is currently lagging behind due to limitations in current methods. To overcome this, researchers have increasingly used modern machine learning (ML) algorithms to accelerate catalyst screening and deepen our understanding of the mechanism. In this review, we examine recent applications of ML in CO2RR research, categorizing them by the types of electrocatalysts, and provide an introduction to the general methodology as well as a discussion on the pros and cons of such applications.
JOURNAL OF PHYSICAL CHEMISTRY C
(2023)
Article
Materials Science, Ceramics
Kumar Brajesh, Sudhir Ranjan, Rishow Kumar, Rajeev Gupta, Ambesh Dixit, Ashish Garg
Summary: In this manuscript, the room-temperature properties of CuO and Cu0.995La0.005O ceramics synthesized by solid-state reaction method were investigated. La doping in CuO leads to the evolution of compact and dense microstructure with reduced porosity. The La doping induces strain in the CuO lattice resulting in a reduction in the lattice parameters and cell volume. The dielectric constant of Cu0.995La0.005O ceramics is enhanced and the leakage current is reduced, attributed to the dense microstructure and strain in CuO lattice after La doping. The bandgap of Cu0.995La0.005O ceramics decreases due to increased vacancy defect concentration, and the magnetic and dielectric properties are correlated with the grain size in La-doped CuO.
JOURNAL OF THE AMERICAN CERAMIC SOCIETY
(2023)
Article
Chemistry, Physical
Xiaofeng Li, Yinghao Feng, Xu Wang, Huiqi Xie, Xiaohui Yang, Bin Liu, Yuankui Cao
Summary: In this study, AlCrFeNiMnx high-entropy alloy coatings were successfully prepared on a copper substrate by laser cladding, with the addition of Mn leading to refined grains and improved mechanical properties, especially when the Mn content was 0.5.
JOURNAL OF ALLOYS AND COMPOUNDS
(2022)
Article
Engineering, Mechanical
Mohsen Seifi, Ayman Salem, Daniel Satko, Joshua Shaffer, John J. Lewandowski
INTERNATIONAL JOURNAL OF FATIGUE
(2017)
Article
Engineering, Mechanical
Matthew S. Dahar, Sesh A. Tamirisakandala, John J. Lewandowski
INTERNATIONAL JOURNAL OF FATIGUE
(2018)
Article
Materials Science, Multidisciplinary
Katerina Mertova, Jan Dzugan, Michaela Roudnicka, Matej Daniel, Dalibor Vojtech, Mohsen Seifi, John J. Lewandowski
Article
Engineering, Manufacturing
Eren Pehlivan, Michaela Roudnicka, Jan Dzugan, Martina Koukolikova, Vlastimil Kralik, Mohsen Seifi, John J. Lewandowski, Dalibor Dalibor, Matej Daniel
ADDITIVE MANUFACTURING
(2020)
Article
Materials Science, Multidisciplinary
Janet L. Gbur, Ronald Kelley, John J. Lewandowski
MICROSCOPY AND MICROANALYSIS
(2020)
Article
Mechanics
J. Dzugan, M. Seifi, S. Rzepa, M. Rund, M. Koukolikova, H. -w. Viehrig, Z. H. Liu, J. J. Lewandowski
Summary: The paper investigates three additive manufactured parts made of Ti-6Al-4V using Electron Beam Powder Bed Fusion technology, assessing their local mechanical properties and discussing them in relation to literature values.
ENGINEERING FRACTURE MECHANICS
(2022)
Article
Chemistry, Physical
Jan Dzugan, Mohsen Seifi, Martin Rund, Pavel Podany, Richard Grylls, John J. Lewandowski
Summary: This paper summarizes the assessment of directional anisotropy in local mechanical properties for LPBF IN-718 bulk samples by studying both as-deposited and post-treated states. The results reveal significant anisotropy in mechanical properties at different build heights for the as-deposited state, while the post-treated material shows more homogeneous properties. However, post-processed materials exhibit reduced strength and increased reduction in area at fracture.
Article
Chemistry, Analytical
Evan Chou, Yongkun Sui, Hao Chong, Christina Brancel, John J. Lewandowski, Christian A. Zorman, Gary E. Wnek
Summary: We present a low-temperature inkjet printing and plasma treatment method for creating conductive silver traces on PVA film, achieving good fidelity and low sheet resistance. We also identify a critical salt loading in the film that prevents the reaction between the polymer and the silver nitrate-based ink, enhancing the resolution of the silver trace.
Article
Engineering, Manufacturing
Jan Dzugan, Mohsen Seifi, Sylwia Rzepa, Radek Prochazka, Martin Rund, Pavel Podany, John J. Lewandowski
Summary: Compared to traditional techniques, the additive manufacturing (AM) parts exhibit significantly different mechanical behavior due to various process-specific differences. AM parts are built layer by layer via local melting, which leads to location- and orientation-dependent properties. Standard specimen characterization is not always applicable for AM parts that take advantage of design and topology freedom, thus requiring the use of small-sized specimen techniques. This paper evaluates three AM-produced IN-718, Ti-6Al-4V, and H13 parts using electron beam powder bed fusion and laser powder bed fusion, and demonstrates the ability to measure location- and orientation-dependent properties in AM components using mini-tensile tests.
VIRTUAL AND PHYSICAL PROTOTYPING
(2023)
Article
Materials Science, Multidisciplinary
Wenbin Gao, Jiaao Ning, Xiaoyan Gu, Liangyu Chen, Hang Liang, Wenhang Li, John J. Lewandowski
Summary: This paper investigated the phase precipitation behavior and corrosion performance of AA5083 alloy within the stirred zone (SZ) after 175 degrees C/100 h sensitization. The study found that sensitization strongly deteriorated the corrosion resistance of the FSW joint.
Article
Materials Science, Multidisciplinary
Cayla Harvey, Osman El Atwani, Hyosim Kim, Curt Lavender, Marie McCoy, Denis Sornin, John Lewandowski, Stuart A. Maloy, Siddhartha Pathak
Summary: Microstructural analyses and micro-pillar compression were conducted on 14YWT nanostructured ferritic alloy (NFA) to compare different processing pathways. Hydrostatic extrusion at 815 degrees C resulted in the smallest grain sizes and highest yield strength, while higher annealing temperatures of 1200 degrees C after pilger processing significantly increased the grain size and lowered the yield strength. Additionally, characterization of the nano-oxides using TEM revealed more numerous, smaller oxides present in tubing processed at lower temperatures.
MATERIALS CHARACTERIZATION
(2021)
Article
Engineering, Mechanical
H. A. Hassan, A. K. Hellier, A. G. Crosky, J. J. Lewandowski
AUSTRALIAN JOURNAL OF MECHANICAL ENGINEERING
(2020)
Review
Engineering, Biomedical
Mehdi Jafary-Zadeh, Gideon Praveen Kumar, Paulo Sergio Branicio, Mohsen Seifi, John J. Lewandowski, Fangsen Cui
JOURNAL OF FUNCTIONAL BIOMATERIALS
(2018)
Proceedings Paper
Materials Science, Multidisciplinary
S. Pal, M. E. Alam, G. R. Odette, S. A. Maloy, D. T. Hoelzer, J. J. Lewandowski
MECHANICAL AND CREEP BEHAVIOR OF ADVANCED MATERIALS
(2017)
Article
Materials Science, Multidisciplinary
Dongyue Li, Chengxin Li, Tao Feng, Yidong Zhang, Gang Sha, John J. Lewandowski, Peter K. Liaw, Yong Zhang
Article
Nanoscience & Nanotechnology
Ahmad Mirzaei, Peter D. Hodgson, Xiang Ma, Vanessa K. Peterson, Ehsan Farabi, Gregory S. Rohrer, Hossein Beladi
Summary: This study investigated the influence of parent austenite grain refinement on the intervariant boundary network in a lath martensitic steel. It found that refining the parent austenite grain led to a decrease in the fraction of certain boundaries in the martensite and an increase in the connectivity of low energy boundaries, ultimately improving the impact toughness.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
N. L. Church, C. E. P. Talbot, L. D. Connor, S. Michalik, N. G. Jones
Summary: Metastable beta Ti alloys based on the Ti-Nb system have attracted attention due to their unique properties. However, the unstable cyclic behavior of these alloys has hindered their widespread industrial use. Recent studies have shown that internal stresses, including those from dislocations, may be responsible for this behavior. This study demonstrates that inter-cycle thermal treatments can mitigate the unstable cyclic behavior, providing a significant breakthrough in our understanding of Ti-Nb superelastic materials.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Di Zhao, Chenchen Zhao, Ziyang Xiu, Jiuchun Yan
Summary: This study proposes a novel strategy for achieving the bonding of SiC ceramic and Al alloy using ultrasound. The ultrasound promotes the dissolution of Al into the solder, activating the solder and triggering the interfacial reaction between SiC ceramic and solder. With increasing ultrasonic duration, the bonding between SiC and Al transitions from partial to full metallurgical bonding.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Kang Du, Yang Zhang, Guangda Zhao, Tao Huang, Liyuan Liu, Junpeng Li, Xiyu Wang, Zhongwu Zhang
Summary: This paper systematically investigated the evolution of microstructure in Fe-Ni-Co-Al polycrystalline alloys and its effects on mechanical properties. The results revealed that the migration of grain boundaries in different processes is driven by different factors, which impacts the grain orientation and precipitate formation. In the process of directional recrystallization, grains with specific orientations grow in the grain boundary region and form the dominant orientation, while grains with lower migration rate form the minor orientation. The alloy produced through directional recrystallization exhibited good recoverable strain and superelastic strain, while the alloy produced through solid solution treatment showed no evident superelastic behavior.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Edohamen Awannegbe, Liang Chen, Yue Zhao, Zhijun Qiu, Huijun Li
Summary: This study employed laser metal deposition to additively manufacture Ti-15Mo wt% alloy, and subsequently subjected it to post-fabrication uniaxial thermomechanical processing. The results showed that different zones in the microstructure remained after processing, and deformation mechanisms mainly involved slip and martensite formation. The compressive mechanical properties were found to be dependent on strain rate, with higher flow stress and compressive strength observed at higher strain rates. Grain structure homogenisation was not achieved, leading to anisotropic tensile properties.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Reza Khatib Zadeh Davani, Enyinnaya George Ohaeri, Sandeep Yadav, Jerzy A. Szpunar, Jing Su, Michael Gaudet, Muhammad Rashid, Muhammad Arafin
Summary: This research aims to investigate the effect of roughing and finishing reductions on crystallographic texture. The results show significant heterogeneity in the centerline region, with higher intensity of certain textures. Drop Weight Tear Test indicates that steel specimens with lower and medium reductions exhibit superior low-temperature impact toughness compared to steel with higher reductions. The electrochemical hydrogen charging experiments confirm the presence of internal hydrogen cracks only in steel with lower and medium reductions.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Flavio De Barbieri, Denis Jorge-Badiola, Rodrigo Allende, Karem Tello, Alfredo Artigas, Franco Perazzo, Henry Jami, Juan Perez Ipina
Summary: This study examines the effect of Cr additions on the mechanical behavior of TWIP steel at temperatures ranging from 25°C to 350°C. The results indicate that different temperature-dependent strengthening mechanisms, including mechanical twinning, Dynamic Strain Aging, and slip bands, are at play. The stacking fault energy (SFE) influences the percentage of mechanical twinning, which in turn affects the strain hardening rate.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Hanlin Peng, Siming Huang, Ling Hu, Bingbing Luo, Liejun Li, Ian Baker
Summary: This study explores the weldability, microstructures, and mechanical properties of two L1(2)-nanoparticle-strengthened medium-entropy alloys after electron beam welding (EBW). The results show that strong yet ductile defect-free joints were produced, with larger grain sizes in the fusion zones compared to the heat-affected zones and base materials. Both EBWed MEAs exhibited high yield strengths, high ultimate tensile strengths, and good fracture strains at 77 K. The V-doping improved the cryogenic mechanical properties of the TMT MEA.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Yongxin Wang, Lei Chen, Lizi Shao, Shuo Hao, Motomichi Koyama, Xingzhou Cai, Xiaocong Ma, Miao Jin
Summary: This study investigated the tensile deformation behavior of an Mn-N bearing lean duplex stainless steel with metastable austenite. The results showed that the strain rate had significant influence on the work hardening, strain-induced martensitic transformation, and fracture mechanism.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Jong Woo Won, Seulbi Lee, Hye-Jeong Choe, Yong-Taek Hyun, Dong Won Lee, Jeong Hun Lee
Summary: Cold-rolled pure titanium showed improved sheet formability after undergoing cryogenic-deformation treatment. This treatment increased the thinning capability of the titanium and suppressed cracking during sheet forming. The formation of twins during deformation contributed to high thinning capability and increased strength through grain refinement and dislocation accumulation.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Handong Li, Lin Su, Lijuan Wang, Yanbin Jiang, Jiahui Long, Gaoyong Lin, Zhu Xiao, Yanlin Jia, Zhou Li
Summary: Homogenization heat treatment is a key procedure in controlling the second phase, enhancing composition uniformity, and workability of as-cast Cu-15Ni-8Sn alloy. This study found that electropulsing treatment (EPT) can significantly reduce treatment temperature and time, improve elongation and overall mechanical properties of the alloy.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Yuxuan Wang, Juntao Zou, Lixing Sun, Yunfei Bai, Zhe Zhang, Junsheng Cheng, Lin Shi, Dazhuo Song, Yihui Jiang, Zhiwei Zhang
Summary: A novel mechanical-heat-electricity synergistic method was proposed to enhance the mechanical properties of Cu-15Sn-0.3Ti alloy by forming annealing twins (ATs). The combination method of Rotary swaging (RS) and Electric pulse treatment (EPT) successfully induced recrystallization and refinement of the microstructure, leading to a significant increase in the strength of the alloy within a short time.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Zhiyi Ding, Jiangtao Xie, Tong Wang, Aiying Chen, Bin Gan, Jinchao Song
Summary: This study demonstrated the Ta-induced strengthening of CoCrNi-AlTi MEAs using nanoscale heterogeneous coherent precipitates. The addition of Ta and aging treatments significantly enhanced the mechanical properties of the alloy, including yield strength, ultimate tensile strength, and elongation.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Z. Y. You, Z. Y. Tang, B. Wang, H. W. Zhang, P. Li, L. Zhao, F. B. Chu, H. Ding
Summary: The mechanical properties and microstructural evolution of C-doped TRIP-assisted HEA under dynamic loading conditions were systematically investigated in this study. The results showed that dynamic tensile deformation led to an increase in yield strength and a decrease in ultimate tensile strength, with a trend towards increased total elongation. The primary deformation mechanisms shifted from TRIP and TWIP effects to deformation twinning and dislocations. The presence of carbides formed through C-doping hindered dislocation slip and promoted the activation of multiple twinning systems.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)
Article
Nanoscience & Nanotechnology
Feng Qin, Feihu Chen, Junhua Hou, Wenjun Lu, Shaohua Chen, Jianjun Li
Summary: Plastic instability in strong multilayered composites is completely suppressed by architecting nanoscale BCC Nb crystalline-amorphous CuNb interfaces.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
(2024)