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Fireproof wall thermal insulation material and production method thereof
The invention relates to the field of building and industrial fire prevention, and discloses a fireproof wall thermal insulation material. The material comprises the following components in percentage by weight: 15-25% of basalt fiber, 10-15% of glass fiber, 3-7% of carbon fiber, 5-10% of ceramic fiber, 8-12% of a modified silicate binder, 3-7% of a bio-based resin binder, 5-10% of a phenolic resin binder, 16-31% of a fireproof additive and 10-20% of a heat insulation additive. By innovatively introducing the composite material of various fibers such as basalt fibers, glass fibers, carbon fibers and ceramic fibers, the mechanical strength and fire resistance of the thermal insulation material are remarkably improved, the composite fiber material shows more excellent performance in the aspect of strength, and meanwhile, the qualitative leap in the aspect of fire resistance is also realized. And stable operation and reliable performance of the thermal insulation material in an extremely high-temperature environment are ensured.
本发明涉及建筑和工业防火领域,公开了一种防火墙体保温材料,该材料包括以下重量百分比的组分:玄武岩纤维15‑25%、玻璃纤维10‑15%、碳纤维3‑7%、陶瓷纤维5‑10%、改性硅酸盐粘结剂8‑12%、生物基树脂粘结剂3‑7%、酚醛树脂粘结剂5‑10%、防火添加剂16‑31%、隔热添加剂10‑20%。本发明通过创新性地引入玄武岩纤维、玻璃纤维、碳纤维及陶瓷纤维等多种纤维的复合材料,实现了对保温材料机械强度与耐火性能的显著提升,该复合纤维材料在强度方面展现出更为卓越的性能,同时在耐火性能上也实现了质的飞跃。确保了保温材料在极端高温环境下的稳定运作与可靠表现。
Fireproof wall thermal insulation material and production method thereof
The invention relates to the field of building and industrial fire prevention, and discloses a fireproof wall thermal insulation material. The material comprises the following components in percentage by weight: 15-25% of basalt fiber, 10-15% of glass fiber, 3-7% of carbon fiber, 5-10% of ceramic fiber, 8-12% of a modified silicate binder, 3-7% of a bio-based resin binder, 5-10% of a phenolic resin binder, 16-31% of a fireproof additive and 10-20% of a heat insulation additive. By innovatively introducing the composite material of various fibers such as basalt fibers, glass fibers, carbon fibers and ceramic fibers, the mechanical strength and fire resistance of the thermal insulation material are remarkably improved, the composite fiber material shows more excellent performance in the aspect of strength, and meanwhile, the qualitative leap in the aspect of fire resistance is also realized. And stable operation and reliable performance of the thermal insulation material in an extremely high-temperature environment are ensured.
本发明涉及建筑和工业防火领域,公开了一种防火墙体保温材料,该材料包括以下重量百分比的组分:玄武岩纤维15‑25%、玻璃纤维10‑15%、碳纤维3‑7%、陶瓷纤维5‑10%、改性硅酸盐粘结剂8‑12%、生物基树脂粘结剂3‑7%、酚醛树脂粘结剂5‑10%、防火添加剂16‑31%、隔热添加剂10‑20%。本发明通过创新性地引入玄武岩纤维、玻璃纤维、碳纤维及陶瓷纤维等多种纤维的复合材料,实现了对保温材料机械强度与耐火性能的显著提升,该复合纤维材料在强度方面展现出更为卓越的性能,同时在耐火性能上也实现了质的飞跃。确保了保温材料在极端高温环境下的稳定运作与可靠表现。
Fireproof wall thermal insulation material and production method thereof
一种防火墙体保温材料及其生产方法
FU XIANGSHAN (author)
2024-12-10
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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