Residual Flexural Strength of Concrete Reinforced with Recycled Carbon Fibers from Wind Turbine Blades [0.03%]
回收风电叶片碳纤维增强混凝土的残余弯曲强度
Julita Krassowska
Julita Krassowska
The study aims to assess the potential of recycled carbon fibers recovered from end-of-life wind turbine blades as a sustainable reinforcement material for concrete and to establish correlations between fiber parameters and the mechanical b...
Research on Selected Properties of Concrete Composite with the Addition of Post-Production Metallic Dust [0.03%]
掺入二次金属粉尘的混凝土复合材料性能研究
Bogdan Langier,Izabela Major
Bogdan Langier
A major issue in industrial production is the generation of post-production wastes that are not biodegradable. The article presents an innovative solution for the management of industrial waste, which includes, among others, metal dust gene...
Fascinating Frontier, Nanoarchitectonics, as Method for Everything in Materials Science [0.03%]
材料科学万能方法纳米构筑学的奥秘
Katsuhiko Ariga
Katsuhiko Ariga
Methodological fusion of materials chemistry, which enables us to create materials, with nanotechnology, which enables us to control nanostructures, could enable us to create advanced functional materials with well controlled nanostructures...
Using a Combination of ECAP and HE Processes to Produce Isotropic Ultrafine-Grained Titanium [0.03%]
利用ECAP和HE工艺组合生产等轴超细晶钛板
Mariusz Kulczyk,Jacek Skiba,Sylwia Przybysz-Gloc et al.
Mariusz Kulczyk et al.
This paper proposes a complex plastic forming process for grade 2 titanium using a combination of severe plastic deformation techniques, equal-channel angular pressing (ECAP) and hydrostatic extrusion (HE). The aim of the combination of the...
Characterization and Preparation of Nanostructured Al2Fe3Si3 Thermoelectric Materials [0.03%]
纳米结构Al2Fe3Si3热电材料的制备及其性能研究
Zhiyang Zhao,Teruyuki Ikeda
Zhiyang Zhao
A nanostructured Al2Fe3Si3 composite has been synthesized by high-energy ball milling followed by spark plasma sintering. Formations of oxides and FeSi or Al2Fe3Si4 phases in nanometer-size scales were observed in addition to the matrix Al2...
Nanostructured Oxides Obtained by Anodizing Aluminum Intermetallic Alloys [0.03%]
通过阳极氧化铝互化物合金获得纳米结构的氧化物
Paulina Chilimoniuk-Szwarc,Piotr Dobroń,Wojciech Jerzy Stępniowski
Paulina Chilimoniuk-Szwarc
Aluminum anodizing has been a well-established method of corrosion protection for over a century. A nanoporous and hexagonally arranged anodic aluminum oxide has become one of the most important template materials in nanotechnology. A total...
Effect of TiB2 Content on Microstructure and Mechanical Properties of TiB2/Al-Zn-Mg-Cu Composites with High Zn Content [0.03%]
TiB2含量对高锌含量TiB2/Al-Zn-Mg-Cu复合材料的显微组织和力学性能的影响
Wenchao Sun,Zhilei Xiang,Jihao Li et al.
Wenchao Sun et al.
The addition of reinforcement particles can considerably improve the mechanical properties of 7xxx series aluminum alloy. In this work, the effects of TiB2 reinforcement particles on the microstructure, mechanical properties, strengthening ...
Organic Acid-Based Anodization Process to Produce Bioactive Oxides on Titanium Implants [0.03%]
基于有机酸的阳极氧化工艺在钛种植体上制备生物活性氧化物薄膜
Arunendu Ettuthaiyil Sambasivan,Amisha Parekh,Amol V Janorkar et al.
Arunendu Ettuthaiyil Sambasivan et al.
Titanium implants are widely used in medicine because of their favorable mechanical properties and biocompatibility; however, the rapidly forming titanium oxide coatings do not provide an ideal bioactive surface to stimulate osseointegratio...
Spinning and Tactile Hand/Wear Comfort Characteristics of PET/Co-PET Hollow Fabrics Made of Inorganic Particles Embedded Sheath/3-Core Bicomponent Yarns [0.03%]
含无机粒子皮芯复合纱三维中空织物及其触感舒适性研究
Jiman Kang,Hyunah Kim
Jiman Kang
This paper reports the spinning and wear comfort properties of polyethylene terephthalate (PET)/copolymer-PET (Co-PET) hollow yarns and their fabrics, as well as the effect of the wt.% of inorganic particles embedded in the core of the bico...
Interfacial Gap Prediction in Laser Welding of Pure Copper Overlap Joints Using Multiple Sensors [0.03%]
基于多传感器的纯铜对接接头激光焊界面间隙预测
Hyeonhee Kim,Cheolhee Kim,Minjung Kang
Hyeonhee Kim
In this study, a novel approach was proposed for predicting the interfacial gap in copper overlap joints by using deep learning and multi-sensor fusion. In this method, an image sensor, a spectrometer, and optical sensors tomography (OCT) s...