Effects of firing process on the composition, structure, and properties of near stoichiometric SiC fiber

IF 7.6 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials & Design Pub Date : 2024-11-01 DOI:10.1016/j.matdes.2024.113427
Wenxing Zhao, Yuanfeng Gan, Xiaozhou Wang
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Abstract

Two kinds of near-stoichiometric SiC fibers were prepared through the pyrolysis of oxygen-free cured polycarbosilane fibers at 1,000 °C within a controlled hydrogen atmosphere, followed by sintering at 1,500 °C under a nitrogen atmosphere by one-step and two-step firing processes. The compositions, structures, and properties of the obtained SiC fibers were characterized using elemental analysis, mechanical performance testing, X-ray diffraction analysis, X-ray photoelectron spectroscopy, scanning electron microscopy, and transmission electron microscopy. Silicon radicals were generated in the process of hydrogen firing, which readily reacted with oxygen to form SiO2 or SiCxOy phases on the fiber surface, resulting in the obtained fibers exhibited a gradient in compositional distribution across the radial direction, with higher oxygen content at their surfaces and higher carbon content at their cores. The strength of one-step-fired SiC fiber exceeded 1 GPa after treatment at 1,800℃ in argon and 1,500℃ in air for 1 h.

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焙烧工艺对接近化学计量的碳化硅纤维的成分、结构和性能的影响
通过一步法和两步法烧结工艺,将无氧固化聚碳硅烷纤维在受控氢气气氛下于 1,000 ℃ 高温分解,然后在氮气气氛下于 1,500 ℃ 烧结,制备了两种近全度碳化硅纤维。利用元素分析、机械性能测试、X 射线衍射分析、X 射线光电子能谱、扫描电子显微镜和透射电子显微镜对获得的碳化硅纤维的成分、结构和性能进行了表征。氢气焙烧过程中产生了硅自由基,硅自由基很容易与氧气反应,在纤维表面形成SiO2或SiCxOy相,从而使所获得的纤维在径向上呈现出成分梯度分布,表面氧含量较高,芯部碳含量较高。在氩气中 1,800℃ 和空气中 1,500℃ 处理 1 小时后,一步法烧结碳化硅纤维的强度超过 1 GPa。
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来源期刊
Materials & Design
Materials & Design Engineering-Mechanical Engineering
CiteScore
14.30
自引率
7.10%
发文量
1028
审稿时长
85 days
期刊介绍: Materials and Design is a multi-disciplinary journal that publishes original research reports, review articles, and express communications. The journal focuses on studying the structure and properties of inorganic and organic materials, advancements in synthesis, processing, characterization, and testing, the design of materials and engineering systems, and their applications in technology. It aims to bring together various aspects of materials science, engineering, physics, and chemistry. The journal explores themes ranging from materials to design and aims to reveal the connections between natural and artificial materials, as well as experiment and modeling. Manuscripts submitted to Materials and Design should contain elements of discovery and surprise, as they often contribute new insights into the architecture and function of matter.
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