CN110877982A - 一种可节能的耐高温材料 - Google Patents
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Abstract
本发明公开了一种可节能的耐高温材料,由以下原料构成:石英砂、粘土、菱镁矿、白云石、碳化硼、碳化硅、氮化硼、氮化硅、磷化硅。一种可节能的耐高温材料,通过多种原材料组合,形成一种可节能的耐高温材料,具有耐高温能力强,使用寿命长的特点。一种可节能的耐高温材料可耐温1700℃,导热系数为0.028W/m.K,可抑制高温物体和低温物体的热辐射和传导热,对于高温物体可以保持70%的热量不损失。
Description
技术领域
本发明属于耐高温材料技术领域,特别是涉及一种可节能的耐高温材料。
背景技术
耐高温涂料技术大致有两大系列,有机系列和无机系列,其中有机系列的耐高温涂料多半以有机硅为载体,其最高温度一般不能超过400摄氏度,超过此温度就会发生碳化或者软化,而无机系列的耐高温涂料皆是能承受至少1000摄氏度的高温,该种涂料可以耐1500℃甚至更高的温度,经过云南大学材料系的测试其导热系数为0.06w/m*k,用途广泛,薄涂层可以起到很好的防氧化防腐的效果,厚涂层不但可以起到很好的防氧化防腐的效果,还可以起到隔热保温效果。可以作为陶瓷、玻璃、金属等涂层材料,广泛用于冶金窑炉、石英加热管镀白、燃煤电厂制粉系统抗冲腐蚀磨损涂层涂料、汽车发动机火花塞陶瓷涂层防积碳、钢材标识、钢化玻璃LOGO标识、耐高温玻璃油墨、航空航天等诸多工业领域。
常温喷涂在玻璃、陶瓷、金属等物体表面,低温烘干或者常温自干,与表面的附着力非常好,坚硬耐磨耐划伤,不开裂,性能优良。性能特点:耐高温涂料外观:白色,粘稠状的液体。最高可耐温度:1500℃,短时间可耐1800℃甚至更高。表干:30min,最小重涂间隔:2h;硬度:5H,良好的耐油性能;耐酸耐碱性。耐高温涂料,涂层厚度:根据客户自己需要,可以任意厚度,施工中需层层的喷涂或者刷涂,如果需要涂比较厚的厚度,可先涂一层,厚度可控制在1-2mm,然后在低温80℃左右或者常温彻底干燥后,继续施工涂抹二层,三层,四层。只有在彻底干燥后才可以进入高温状态下使用。另外耐高温隔热保温涂料还有绝缘、重量轻、施工方便、使用寿命长等特点,也可用做无机材料耐高温耐酸碱胶联剂使用,附着物体牢固。如耐火水泥、镁砖等。从广义上讲,无机耐火、耐热材料是指这些化合物的硬度高、脆性好、耐化学腐蚀性能好,而且熔点在1500以上,比如高温玻璃,也属于耐火材料。本发明提供一种可节能的耐高温材料,具有耐高温能力强,使用寿命长的特点。
发明内容
本发明的目的是提供一种可节能的耐高温材料,通过多种原材料组合形成,具有耐高温能力强,使用寿命长的特点。
为了达到上述目的,本发明所采用的技术方案是,一种可节能的耐高温材料,由以下原料构成:石英砂、粘土、菱镁矿、白云石、碳化硼、碳化硅、氮化硼、氮化硅、磷化硅。
本发明的技术方案,还具有以下特点:
按照质量百分比,所述石英砂占29.2%-33.4%,所述粘土占25.5%-27.3%,所述菱镁矿占20.7%-21.3%,所述白云石占5.6%-6.3%,所述碳化硼占3.7%-5.1%,所述碳化硅占4.8%-5.9%,所述氮化硼占3.9%-5.4%,所述氮化硅占4.6%-6.5%,其余为磷化硅。
所述的磷化硅的占比不大于2%。
所述一种可节能的耐高温材料各成分所占重量百分比具体为:所述石英砂占29.4%,所述粘土占25.6%,所述菱镁矿占20.9%,所述白云石占5.7%,所述碳化硼占3.9%,所述碳化硅占4.9%,所述氮化硼占4.2%,所述氮化硅占5.2%,其余为磷化硅。
所述一种可节能的耐高温材料各成分所占重量百分比具体为:所述石英砂占29.5%,所述粘土占25.8%,所述菱镁矿占21.3%,所述白云石占5.9%,所述碳化硼占4.2%,所述碳化硅占5.8%,所述氮化硼占5.3%,所述氮化硅占5.1%,其余为磷化硅。
所述一种可节能的耐高温材料各成分所占重量百分比具体为:所述石英砂占30.7%,所述粘土占26.9%,所述菱镁矿占20.9%,所述白云石占5.9%,所述碳化硼占3.9%,所述碳化硅占5.6%,所述氮化硼占4.4%,所述氮化硅占6.1%,其余为磷化硅。
本发明的有益效果是:本发明的一种可节能的耐高温材料,通过多种原材料组合,形成一种可节能的耐高温材料,具有耐高温能力强,使用寿命长的特点。在实现本发明目的的基础上,通过大量实验研究分析和不断优化,本发明的一种可节能的耐高温材料可耐温1700℃,导热系数为0.028W/m.K,可抑制高温物体和低温物体的热辐射和传导热,对于高温物体可以保持70%的热量不损失。
具体实施方式
以下结合具体实施例对本发明的技术方案,作进一步地详细说明。
本发明的一种可节能的耐高温材料,由以下原料构成:石英砂、粘土、菱镁矿、白云石、碳化硼、碳化硅、氮化硼、氮化硅、磷化硅。所述一种可节能的耐高温材料各成分所占重量百分比具体为:所述石英砂占29.2%-33.4%,所述粘土占25.5%-27.3%,所述菱镁矿占20.7%-21.3%,所述白云石占5.6%-6.3%,所述碳化硼占3.7%-5.1%,所述碳化硅占4.8%-5.9%,所述氮化硼占3.9%-5.4%,所述氮化硅占4.6%-6.5%,其余为磷化硅。所述的磷化硅的占比不大于2%。
本发明的一种可节能的耐高温材料,通过多种原材料组合,形成一种可节能的耐高温材料,具有耐高温能力强,使用寿命长的特点。本发明的一种可节能的耐高温材料可耐温1700℃,导热系数为0.028W/m.K,可抑制高温物体和低温物体的热辐射和传导热,对于高温物体可以保持70%的热量不损失。
实施例1
本发明的一种可节能的耐高温材料,由以下原料构成:石英砂、粘土、菱镁矿、白云石、碳化硼、碳化硅、氮化硼、氮化硅、磷化硅。所述一种可节能的耐高温材料各成分所占重量百分比具体为:所述石英砂占29.4%,所述粘土占25.6%,所述菱镁矿占20.9%,所述白云石占5.7%,所述碳化硼占3.9%,所述碳化硅占4.9%,所述氮化硼占4.2%,所述氮化硅占5.2%,其余为磷化硅。
本发明的一种可节能的耐高温材料,通过多种原材料组合,形成一种可节能的耐高温材料,具有耐高温能力强,使用寿命长的特点。一种可节能的耐高温材料可耐温1680℃,导热系数为0.027W/m.K,可抑制高温物体和低温物体的热辐射和传导热,对于高温物体可以保持68%的热量不损失。
实施例2
本发明的一种可节能的耐高温材料,由以下原料构成:石英砂、粘土、菱镁矿、白云石、碳化硼、碳化硅、氮化硼、氮化硅、磷化硅。所述一种可节能的耐高温材料各成分所占重量百分比具体为:所述石英砂占29.5%,所述粘土占25.8%,所述菱镁矿占21.3%,所述白云石占5.9%,所述碳化硼占4.2%,所述碳化硅占5.8%,所述氮化硼占5.3%,所述氮化硅占5.1%,其余为磷化硅。
本发明的一种可节能的耐高温材料,通过多种原材料组合,形成一种可节能的耐高温材料,具有耐高温能力强,使用寿命长的特点。一种可节能的耐高温材料可耐温1710℃,导热系数为0.031W/m.K,可抑制高温物体和低温物体的热辐射和传导热,对于高温物体可以保持72%的热量不损失。
实施例3
本发明的一种可节能的耐高温材料,由以下原料构成:石英砂、粘土、菱镁矿、白云石、碳化硼、碳化硅、氮化硼、氮化硅、磷化硅。所述一种可节能的耐高温材料各成分所占重量百分比具体为:所述石英砂占30.7%,所述粘土占26.9%,所述菱镁矿占20.9%,所述白云石占5.9%,所述碳化硼占3.9%,所述碳化硅占5.6%,所述氮化硼占4.4%,所述氮化硅占6.1%,其余为磷化硅。
本发明的一种可节能的耐高温材料,通过多种原材料组合,形成一种可节能的耐高温材料,具有耐高温能力强,使用寿命长的特点。一种可节能的耐高温材料可耐温1760℃,导热系数为0.029W/m.K,可抑制高温物体和低温物体的热辐射和传导热,对于高温物体可以保持70%的热量不损失。
Claims (6)
1.一种可节能的耐高温材料,其特征在于,由以下原料构成:石英砂、粘土、菱镁矿、白云石、碳化硼、碳化硅、氮化硼、氮化硅、磷化硅。
2.根据权利要求1所述的一种可节能的耐高温材料,其特征在于,各成分所占重量百分比具体为:所述石英砂占29.2%-33.4%,所述粘土占25.5%-27.3%,所述菱镁矿占20.7%-21.3%,所述白云石占5.6%-6.3%,所述碳化硼占3.7%-5.1%,所述碳化硅占4.8%-5.9%,所述氮化硼占3.9%-5.4%,所述氮化硅占4.6%-6.5%,其余为磷化硅。
3.根据权利要求2所述的一种可节能的耐高温材料,其特征在于,所述的磷化硅的占比不大于2%。
4.根据权利要求2所述的一种可节能的耐高温材料,其特征在于,各成分所占重量百分比具体为:所述石英砂占29.4%,所述粘土占25.6%,所述菱镁矿占20.9%,所述白云石占5.7%,所述碳化硼占3.9%,所述碳化硅占4.9%,所述氮化硼占4.2%,所述氮化硅占5.2%,其余为磷化硅。
5.根据权利要求2所述的一种可节能的耐高温材料,其特征在于,各成分所占重量百分比具体为:所述石英砂占29.5%,所述粘土占25.8%,所述菱镁矿占21.3%,所述白云石占5.9%,所述碳化硼占4.2%,所述碳化硅占5.8%,所述氮化硼占5.3%,所述氮化硅占5.1%,其余为磷化硅。
6.根据权利要求2所述的一种可节能的耐高温材料,其特征在于,各成分所占重量百分比具体为:所述石英砂占30.7%,所述粘土占26.9%,所述菱镁矿占20.9%,所述白云石占5.9%,所述碳化硼占3.9%,所述碳化硅占5.6%,所述氮化硼占4.4%,所述氮化硅占6.1%,其余为磷化硅。
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CN114479530A (zh) * | 2022-03-07 | 2022-05-13 | 邱质彬 | 一种高致密的适用于生物质锅炉受热面的长效防腐涂层 |
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CN112723857A (zh) * | 2020-12-04 | 2021-04-30 | 重庆耐得久新材料科技有限公司 | 微晶板材的制造方法 |
CN114479530A (zh) * | 2022-03-07 | 2022-05-13 | 邱质彬 | 一种高致密的适用于生物质锅炉受热面的长效防腐涂层 |
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