层压铝/钛碳复合材料的腐蚀、磨损和力学性能

IF 1.2 4区 材料科学 Q4 CHEMISTRY, PHYSICAL
SAEED DANESHMAND, MOHAMMAD HEYDARI VINI, SAYED MOHAMMAD REZA LOGHMANIAN, ALI KARIMI DIZICHEH
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引用次数: 0

摘要

在最近的研究中,积放轧制粘接(ARB)和粉末冶金工艺作为一种组合技术被用于制造 AA1050/TiC 复合带材。然后,根据 TiC 的重量百分比对其腐蚀、机械、磨损性能和微观结构演变进行了研究。所有复合材料样品都是经过四次循环后制成的,以获得金属基体内部颗粒的均匀分散。此外,还研究了作为物理特性的密度以及电阻率和电导率与颗粒值的关系。结果表明,随着颗粒值(重量百分比)的增加,样品的硬度、密度、耐腐蚀性和耐磨性都有所提高,而导电性、结合强度和伸长率则有所下降。对于 TiC 含量为 10Wt.% 的样品,与整体样品相比,复合材料样品的硬度和抗拉强度分别提高了 127% 和 63%。最后,对磨损和腐蚀表面的 SEM 形态进行了研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CORROSION, WEAR AND MECHANICAL PROPERTIES OF LAMINATED Al/TiC COMPOSITES

In the recent study, accumulative roll bonding (ARB) and powder metallurgy processes are used as a combined technique to fabricate AA1050/TiC composite strips. Then, corrosion, mechanical, wear properties and microstructural evolution of them have been investigated via TiC Wt.%. All composite samples were fabricated after four cycles to get a uniform scattering of particles inside the metallic matrix. Moreover, density as a physical property and electrical resistivity and conductivity have been investigated vs particles value. The results showed that by increasing the particles value (Wt.%), hardness, density, corrosion and wear resistance of samples improved while their electrical conductivity, bonding strength and elongation decreased. For samples with 10Wt.% of TiC and in comparison with the monolithic sample, the hardness and tensile strength of composite samples improved 127% and 63%, respectively. Finally, SEM morphology of worn and corrosive surfaces has been investigated.

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来源期刊
Surface Review and Letters
Surface Review and Letters 工程技术-物理:凝聚态物理
CiteScore
2.20
自引率
9.10%
发文量
139
审稿时长
4.2 months
期刊介绍: This international journal is devoted to the elucidation of properties and processes that occur at the boundaries of materials. The scope of the journal covers a broad range of topics in experimental and theoretical studies of surfaces and interfaces. Both the physical and chemical properties are covered. The journal also places emphasis on emerging areas of cross-disciplinary research where new phenomena occur due to the presence of a surface or an interface. Representative areas include surface and interface structures; their electronic, magnetic and optical properties; dynamics and energetics; chemical reactions at surfaces; phase transitions, reconstruction, roughening and melting; defects, nucleation and growth; and new surface and interface characterization techniques.
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