Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Ceramic wave-absorbing material and preparation method thereof
The invention discloses a ceramic wave-absorbing material and a preparation method thereof, and the ceramic wave-absorbing material comprises the following components in parts by weight: 30-50 parts of a base material, 10-20 parts of a temperature-resistant material, 10-20 parts of a binder, 3-5 parts of a dispersant, 3-5 parts of a suspension stabilizer and 3-5 parts of a coupling agent, in order to prevent the problem that the wave absorbing property of the material is affected due to the increase of the surrounding environment temperature during later use of the material, a temperature-resistant material is added in the preparation process, and the temperature-resistant material is formed by combining nickel-based high-temperature alloy powder and nano graphite, so that the temperature-resistant material can be used as a heat-resistant material; graphite and nickel-based alloy powder are fully mixed with a base material through a preparation method, and the mixed material is heated and shaped, so that the problem that the wave-absorbing performance is affected due to the fact that an existing material cannot bear high temperature when the whole wave-absorbing material faces a high-temperature environment is solved.
本发明公开了一种陶瓷吸波材料及其制备方法,其中一种陶瓷吸波材料,由以下重量份数的组分组成:基材30‑50份、耐温料10‑20份、粘结剂10‑20份、分散剂3‑5份、悬浮稳定剂3‑5份和偶联剂3‑5份;本发明为了防止本申请在后期使用时因周边环境温度增加,从而导致本申请材料吸波性受到影响的问题出现,利用本申请在制备中加入有耐温料,且通过耐温料为镍基高温合金粉、纳米石墨组合而成,利用石墨和镍基合金粉末通过制备方法与基材充分混合,并将完成混合的材料进行加热定型,使得本申请整体在面对高温环境时不会因现有材料承受不了高温导致吸波性能受到影响的问题出现。
Ceramic wave-absorbing material and preparation method thereof
The invention discloses a ceramic wave-absorbing material and a preparation method thereof, and the ceramic wave-absorbing material comprises the following components in parts by weight: 30-50 parts of a base material, 10-20 parts of a temperature-resistant material, 10-20 parts of a binder, 3-5 parts of a dispersant, 3-5 parts of a suspension stabilizer and 3-5 parts of a coupling agent, in order to prevent the problem that the wave absorbing property of the material is affected due to the increase of the surrounding environment temperature during later use of the material, a temperature-resistant material is added in the preparation process, and the temperature-resistant material is formed by combining nickel-based high-temperature alloy powder and nano graphite, so that the temperature-resistant material can be used as a heat-resistant material; graphite and nickel-based alloy powder are fully mixed with a base material through a preparation method, and the mixed material is heated and shaped, so that the problem that the wave-absorbing performance is affected due to the fact that an existing material cannot bear high temperature when the whole wave-absorbing material faces a high-temperature environment is solved.
本发明公开了一种陶瓷吸波材料及其制备方法,其中一种陶瓷吸波材料,由以下重量份数的组分组成:基材30‑50份、耐温料10‑20份、粘结剂10‑20份、分散剂3‑5份、悬浮稳定剂3‑5份和偶联剂3‑5份;本发明为了防止本申请在后期使用时因周边环境温度增加,从而导致本申请材料吸波性受到影响的问题出现,利用本申请在制备中加入有耐温料,且通过耐温料为镍基高温合金粉、纳米石墨组合而成,利用石墨和镍基合金粉末通过制备方法与基材充分混合,并将完成混合的材料进行加热定型,使得本申请整体在面对高温环境时不会因现有材料承受不了高温导致吸波性能受到影响的问题出现。
Ceramic wave-absorbing material and preparation method thereof
一种陶瓷吸波材料及其制备方法
CHEN FEI (Autor:in) / LIU MINGQIANG (Autor:in) / LI WEI (Autor:in) / YANG PEI (Autor:in) / FU SHILIANG (Autor:in) / YANG SHUZHEN (Autor:in)
11.04.2023
Patent
Elektronische Ressource
Chinesisch
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