CN106957171A - 代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板 - Google Patents
代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板 Download PDFInfo
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Abstract
代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板,包括直板、弦波板、槽型板;用陶瓷泥浆为粘合剂,包裹纤维布重叠粘合增厚扩宽,干燥后送入窑炉烧制。保温陶瓷粘结纤维布板受撞击时,撞击力迅速传到纤维布,被纤维线吸收,令纤维布板保持完整不会断裂。陶瓷硬度比钢铁高,使陶瓷包裹的纤维布板抗磨性比钢铁强。包括陶瓷纤维布、玻璃纤维布的纤维布,抗酸碱性优越,虫蚁不食,寿命千年。保温陶瓷粘结纤维布板比铝板、钢板轻。耐撞击,抗酸碱,重量轻,热传导率很小,使纤维布板在运输,化工,保温等行业占有明显优势。令维布板做车厢,船舱,家具,铺盖大型厂房,外墙装修等占有优势。若制作成纤维布泡沫板,经济效益提升几倍。
Description
陶瓷纤维布、玻璃纤维布很软,也不能做成布板,限制纤维布的使用范围。
陶瓷,不怕酸碱虫蚁,但怕撞击,一碰即碎;若无撞击,寿命千年,令金属板自感不如。
目前,未见有关用陶瓷粘结纤维布做成陶瓷粘结纤维布板的报道。
本技术提出的代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板,简称陶瓷粘结纤维布板,属纤维板范围,能解决上述陶瓷怕撞击问题。
陶瓷粘结纤维布板,其有益效果是,代替金属,耐碰撞,扩大纤维布使用范围,降低烧制温度,寿命千年,重量轻,降低成本。
代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板,其解决技术问题所采用的技术方案是,由陶瓷粘结纤维布组成;其中,纤维布包括耐高温的陶瓷纤维布、陶瓷纤维网布、玻璃纤维布、玻璃纤维网布;陶瓷泥包括陶土;纤维布板包括直板、弦波板、槽型板;陶瓷泥细粉制作:陶瓷泥放入水中搞拌,沉淀后取浮在水中的细粉干燥;保温陶瓷粘结纤维布板制作:用机具使纤维布通过容器内的陶瓷泥浆,令陶瓷泥浆包裹纤维布,陶瓷泥浆穿过纤维布孔,刮除多余的陶瓷泥浆,陶瓷泥浆厚度小于纤维布厚;多块陶瓷泥浆包裹的纤维布重叠粘合,按设计增厚扩宽做成纤维布板;用模具将纤维布板制成直板、弦波板、槽型板;直板、弦波板、槽型板烧制前后进行上釉、绘画、提诗装饰;直板(1)、弦波板(2)、槽型板(3)干燥后送入窑炉烧制,使陶瓷泥浆变成陶瓷(4),冷却后获得保温陶瓷粘结纤维布板(5),获得代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板。如图1
实施例:
多块陶瓷泥浆包裹的纤维布重叠粘合,成为平直、弦波、槽型的纤维布板后烧制;冷却后获得代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板。
现结合原理介绍陶瓷粘结纤维布板:
据报道,陶瓷泥烧制成陶瓷板的温度约1200℃;陶土烧制成陶器温度约1000℃,烧制前后进行上釉。
本技术取用的纤维布,耐高温达1700℃,所以当陶瓷泥浆干燥后烧制成陶瓷板时,纤维布仍保持原抗拉的性能,令陶瓷不会断裂;本技术在纤维布,陶瓷泥浆的比例上,以纤维布为主,陶瓷泥浆仅作为一种粘合剂使用,其厚度小于纤维布厚,多块纤维布被陶瓷粘结成纤维布板;而且强调陶瓷泥浆、水的比例,令陶瓷泥浆只是包裹纤维布线条,不进入纤维布纤维内,这样,烧成薄薄的陶瓷具有弹性,当薄薄的陶瓷受到撞击时,撞击力迅速传到纤维线条上,被纤维线条吸收,令陶瓷保持完整不会断裂;陶瓷的硬度比钢铁高,因此陶瓷包裹的纤维布板抗磨性比钢铁强;陶瓷纤维线、玻璃纤维线、陶瓷都具备极为良好的抗酸碱性能,而且虫蚊不食,只要不受过强撞击力,使用期超千年不成问题;多块纤维布重叠粘合,原纤维布能扩展宽达十米以上,原纤维布厚达几毫米以上;此外,多层纤维布的陶瓷板面积达上百平方米,也很轻,因为陶瓷板中,纤维线呈松散状态,陶瓷只是作为粘合剂、密封剂存在,纤维布的容积比陶瓷容积大很多;若纤维布足够厚,其容重不到2g。耐撞击,抗酸碱,重量轻,热传导率很小,使陶瓷板在运输,化工,保温等等行业占有明显优势。它对铺盖大型厂房,建筑外墙装修很有利。进一步制作成陶瓷泡沫板,其经济效益提几倍。
说明书附图说明
图1:代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板
1直板、2弦波板、3槽型板,4陶瓷,5陶瓷粘结纤维布板。
Claims (1)
1.代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板,其特征是,由陶瓷粘结纤维布组成;其中,纤维布包括耐高温的陶瓷纤维布、陶瓷纤维网布、玻璃纤维布、玻璃纤维网布;陶瓷泥包括陶土;纤维布板包括直板、弦波板、槽型板;陶瓷泥细粉制作:陶瓷泥放入水中搞拌,沉淀后取浮在水中的细粉干燥;保温陶瓷粘结纤维布板制作:用机具使纤维布通过容器内的陶瓷泥浆,令陶瓷泥浆包裹纤维布,陶瓷泥浆穿过纤维布孔,刮除多余的陶瓷泥浆,陶瓷泥浆厚度小于纤维布厚;多块陶瓷泥浆包裹的纤维布重叠粘合,按设计增厚扩宽做成纤维布板;用模具将纤维布板制成直板、弦波板、槽型板;直板、弦波板、槽型板烧制前后进行上釉、绘画、提诗装饰;直板、弦波板、槽型板干燥后送入窑炉烧制,使陶瓷泥浆变成陶瓷,冷却后获得保温陶瓷粘结纤维布板,获得代替金属能锯钻耐碰撞耐磨保温的陶瓷粘结纤维布板。
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