Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Ultrahigh-temperature ceramic composite material and preparation method
The invention relates to an ultrahigh-temperature ceramic composite material and a preparation method thereof, and concretely relates to a (Hf0.25Ta0.25Zr0.25Ti0.25)B2-SiC-Si composite material and apreparation method thereof. Firstly, transition metal oxide and boron powder which serve as raw materials undergo a boronothermic reaction to prepare (Hf0.25Ta0.25Zr0.25Ti0.25)B2 ceramic powder, and compared with commercial boride, the powder is smaller in size, high purity and uniform in component; SiC is introduced as an additive to promote sintering of the high-entropy ceramic, reduce the sintering temperature and inhibit grain growth; and through infiltration of Si steam, pores and other defects in the ceramic can be effectively filled through gas phase siliconing, and finally, the (Hf0.25Ta0.25Zr0.25Ti0.25)B2-SiC-Si composite material with relatively high density is rapidly formed.
本发明涉及一种超高温陶瓷复合材料及制备方法,具体为(Hf0.25Ta0.25Zr0.25Ti0.25)B2‑SiC‑Si复合材料及其的制备方法、首先以过渡金属氧化物和硼粉为原料,通过硼热反应制备(Hf0.25Ta0.25Zr0.25Ti0.25)B2陶瓷粉体,该粉体与通过市售硼化物相比尺寸较小,纯度高且组分均;引入SiC作为添加剂,促进高熵陶瓷的烧结,降低烧结温度,并抑制晶粒生长;气相渗硅工艺通过Si蒸气的渗入,能有效填充陶瓷中的孔隙等缺陷,最终快速形成致密度较高的(Hf0.25Ta0.25Zr0.25Ti0.25)B2‑SiC‑Si复合材料。
Ultrahigh-temperature ceramic composite material and preparation method
The invention relates to an ultrahigh-temperature ceramic composite material and a preparation method thereof, and concretely relates to a (Hf0.25Ta0.25Zr0.25Ti0.25)B2-SiC-Si composite material and apreparation method thereof. Firstly, transition metal oxide and boron powder which serve as raw materials undergo a boronothermic reaction to prepare (Hf0.25Ta0.25Zr0.25Ti0.25)B2 ceramic powder, and compared with commercial boride, the powder is smaller in size, high purity and uniform in component; SiC is introduced as an additive to promote sintering of the high-entropy ceramic, reduce the sintering temperature and inhibit grain growth; and through infiltration of Si steam, pores and other defects in the ceramic can be effectively filled through gas phase siliconing, and finally, the (Hf0.25Ta0.25Zr0.25Ti0.25)B2-SiC-Si composite material with relatively high density is rapidly formed.
本发明涉及一种超高温陶瓷复合材料及制备方法,具体为(Hf0.25Ta0.25Zr0.25Ti0.25)B2‑SiC‑Si复合材料及其的制备方法、首先以过渡金属氧化物和硼粉为原料,通过硼热反应制备(Hf0.25Ta0.25Zr0.25Ti0.25)B2陶瓷粉体,该粉体与通过市售硼化物相比尺寸较小,纯度高且组分均;引入SiC作为添加剂,促进高熵陶瓷的烧结,降低烧结温度,并抑制晶粒生长;气相渗硅工艺通过Si蒸气的渗入,能有效填充陶瓷中的孔隙等缺陷,最终快速形成致密度较高的(Hf0.25Ta0.25Zr0.25Ti0.25)B2‑SiC‑Si复合材料。
Ultrahigh-temperature ceramic composite material and preparation method
一种超高温陶瓷复合材料及制备方法
FU QIANGANG (Autor:in) / ZHOU LEI (Autor:in) / LI HEJUN (Autor:in) / ZHANG JIAPING (Autor:in) / HU DOU (Autor:in) / WEI YALONG (Autor:in) / LI XINGANG (Autor:in) / TONG MINGDE (Autor:in)
04.12.2020
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
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