CN108409196A - 一种远红外负离子炭复合板及其制作工艺 - Google Patents
一种远红外负离子炭复合板及其制作工艺 Download PDFInfo
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Abstract
本发明公开了本发明的目的提供一种远红外负离子炭复合板及其制作工艺,复合板成分如下(按重量百分比):10‑6000目的云母粉0.5%一95%;10‑200目的炭粉5%一91%;树脂15%一90%;分散剂0.1%一10%;沸石粉1%一50%;发泡剂0.1%一20%,调节剂0.1‑20%。本发明的有益效果是:本发明的各种板材物理性能:可以用材料的配方、温度调整硬度、密度、抗弯强度耐高、低温的功能,能抵抗大于普通板80%以上的承受压力抗磨损,有一定的缓冲能。化学性能:无不良有害物质,具有高达80%以上的远红外发射率,负氧离子释放量1000个/cc以上。在本发明的材料里加入10%以上的云母粉和高温炭、沸石粉结合制作的产品,装修的各种房子相当于居住在国际长寿地巴马村或者是原始森林里。
Description
技术领域
本发明涉及板材制造技术领域,尤其涉及一种远红外负离子炭复合板及其制作工艺。
背景技术
近几年各种家装、家具市场推出了不同类型不同材质的板材和配套产品,打着健康环保的概念,使消费者眼花缭乱,不知如何选择,不少商家为了使效果好看、快装、成本低达到不当获利目的,特别是市面上的所谓竹木纤维板产品相互竞争激烈,不惜添加有害物质或者就是用回收的廉价PVC材料作粘合剂等材料,性能不稳定、使用寿命短,从而使消费者受到不同程度的经济损失和健康危害。市面上的室内外装修材料板存在着污染大不利于健康和产品性能不稳定的问题,而且成本也不低,一般使用的产品树脂配比都比较高。
发明内容
本发明的目的提供一种远红外负离子炭复合板及其制作工艺,解决了传统的各种板材、装修材料成本高,产品性能不稳定,污染大不利于健康的问题,还释放大量人体需要的远红外和负离子以及调节干湿度,可自接用于的包装物、餐具等材料。
为了解决上述技术问题,本发明提供一种远红外负离子炭复合板,其成分如下(按重量百分比):10-6000目的云母粉0.5%一95%; 10-200目的炭粉5%一91%;树脂15%一90%;分散剂0.1%一10%;沸石粉1%一50%;发泡剂0.1%一20%,调节剂0.1-20%。
本发明还提供一种远红外负离子炭复合板的制造工艺,包括以下步骤:包括以下步骤:包括以下步骤:将重量百分比为1~3:1的高温炭和云母粉在30-300摄氏度5000r/min的高速混合机上混合碰撞形成母料.第二步:将其他原料按比例混合并置入搅拌机中搅拌均匀;第三步:加热,加热的温度为10-300摄氏度,加热的时间为2-20分钟;第四步:加混合好的母料(以云母粉料为基数),第五步:再高速搅拌加热;第六步:根据模具挤成型冷却裁切。
与现有技术相比,本发明的有益效果是:本发明为一种新型的远红外、负离子板材以及装修材料及其制造工艺,本发明的各种板材物理性能:可以用材料的配方、温度调整硬度、密度、抗弯强度耐高、低温的功能,能抵抗大于普通板60%以上的承受压力抗磨损,有一定的缓冲性能。化学性能:无不良有害物质,用各种材料的高温炭、碳化时间、以及配比来调整远红外、负离子、降减甲醛等指标。优质云母粉具有高达95%以上的远红外发射率,负氧离子释放量1000个/cc 以上,小粒径负离子还能有效消除家装污染、分解甲醛、笨等致癌物质,分解产物是无毒无味的二氧化碳和水。炭、沸石粉的结合加快对硫化物、氮化物、甲醛、苯、酚等有害物质的吸附和降减(3公斤板材在一立方的密封舱内24h的甲醛降减量达65%以上)作用以及很强的吸湿防潮、放湿、去除异味的作用,自带极强的保健功能。在本发明的材料里加入10%以上的云母粉和高温炭、沸石粉结合制作的产品,利用云母在高温炭的碳分子“布朗运动”中产生热量,同时会源源不断的产生90%左右的远红外线来辐射热量,导致恒久的释放对人体健康具有及其重要远红外和负离子,装修的各种房子相当于居住在全世界最长寿地巴马或者是原始森林里。
具体实施方式
结合工艺流程对本发明的具体加工工艺作进一步的详细描述:
实施例1
一种远红外、负离子板,其成分如下(按重量百分比):80目的竹炭粉20%;树脂20%;100目的云母粉1%;阻燃剂8%;分散剂3%; 200目的沸石粉20%;其他植物炭24%;发泡剂1%;调节剂3%。
一种远红外、负离子板板的制造工艺,包括以下步骤:第一步:将高温后的炭粉:云母粉(重量百分比2:1)在30-300摄氏度 5000r/min的高速混合机上混合碰撞形成(母料)。第二步:将其他原料按比例混合并置入搅拌机中搅拌均匀;第三步:加热,加热的温度为80摄氏度,加热的时间为3分钟;第四步:加混合好的母料(以云母粉料为基数),第五步:再高速搅拌加热;第六步:根据模具挤成型冷却裁切,沸石粉增加吸附和迅速降解消除有毒重金属离子功能。云母在高温炭的碳分子“布朗运动”中产生热量,同时会产生 85%左右的远红外线来辐射热量,导致恒久的释放对人体健康具有及其重要远红外和负离子。所得的板材不含任何对人体用毒的物质,根据检测板材硬度、抗弯强度,稳定性能远远超过目前市面上的木工板和其他再生板材,防火级别B级,可用于公共场所装修。
实施例2
一种远红外、负离子板,其成分如下(按重量百分比):200目的竹炭粉60%;树脂6%;1000目的云母粉5%;阻燃剂0.5%;分散剂0.5%;沸石粉10%;其他植物炭10%;发泡剂2%,调节剂6%。
一种远红外、负离子板的制造工艺,包括以下步骤:第一步:将小部分高温后的炭粉:云母粉(重量百分比1:1)在30-300摄氏度5000r/min的高速混合机上混合碰撞形成(母料)。第二步:将其他原料按比例混合并置入搅拌机中搅拌均匀;第三步:加热,加热的温度为100摄氏度,加热的时间为3分钟;第四步:加混合好的母料 (以云母粉料为基数),第五步:再高速搅拌加热;第六步:根据模具挤成型冷却裁切,沸石粉增加吸附和迅速降解消除有毒重金属离子功能。云母在高温炭的碳分子“布朗运动”中产生热量,同时会产生85%左右的远红外线来辐射热量,导致恒久的释放对人体健康具有及其重要远红外和负离子。用以上材料为主要材料制造的板材、装修材料不含任何对人体用毒的物质,根据检测板材硬度、抗弯强度,稳定性能远远超过目前市面上的其他板材和再生板材,防火级别BE级,负离子的释放量3850个/cc,炭含量高用于家具、家装还能调节干湿度,负离子释放量大还可以制作各种食品、水果包装物延长各种食品保质期,可以制作餐具等产品。
云母和高温炭的远红外作用恒久的释放负离子,负离子不仅能促成人体合成和储存维生素,强化和激活人体的生理活动,对人体及其他生物的生命活动有着十分重要的影响。
实施例3
一种远红外、负离子板,其成分如下(按重量百分比):80目的炭粉10%;树脂10%;80目的云母粉73.7%;阻燃剂1%;分散剂1%; 100目的沸石粉3%;发泡剂0.3%;调节剂1%。
一种远红外、负离子板板的制造工艺,包括以下步骤:第一步:将高温后的炭粉:云母粉(重量百分比2:1)在30-300摄氏度 5000r/min的高速混合机上混合碰撞形成(母料)。第二步:将其他原料按比例混合并置入搅拌机中搅拌均匀;第三步:加热,加热的温度为80摄氏度,加热的时间为3分钟;第四步:加混合好的母料(以云母粉料为基数),第五步:再高速搅拌加热;第六步:根据模具挤成型冷却裁切,沸石粉增加吸附和迅速降解消除有毒重金属离子功能。云母在高温炭的碳分子“布朗运动”中产生热量,同时会产生 85%左右的远红外线来辐射热量,导致恒久的释放对人体健康具有及其重要远红外和负离子。所得的板材不含任何对人体用毒的物质,根据检测板材硬度、抗弯强度,稳定性能远远超过目前市面上的木工板和其他再生板材,负离子释放量5000个/cc,防火级别AB级,可用于娱乐、商场等人多的公共场所装修。
实施例4
一种远红外、负离子板其成分如下(按重量百分比):50目的炭粉80%;树脂3%;云母份3%;阻燃剂10%;分散剂0.5%;沸石粉 3%;发泡剂0.1%,调节剂0.4%。
一种远红外、负离子板的制造工艺,包括以下步骤:第一步:高温后的炭粉:云母粉(重量百分比3:1)在30-300摄氏度5000r/min 的高速混合机上混合碰撞形成(母料)。第二步:将其他原料按比例混合并置入搅拌机中搅拌均匀;第三步:加热,加热的温度为50摄氏度,加热的时间为3分钟;第四步:加混合好的母料(以云母粉料为基数),第五步:再高速搅拌加热;第六步:根据模具挤成型冷却裁切,沸石粉增加吸附和迅速降解消除有毒重金属离子功能。云母在高温炭的碳分子“布朗运动”中产生热量,同时会产生85%左右的远红外线来辐射热量,导致恒久的释放对人体健康具有及其重要远红外和负离子。所得的板材不含任何对人体用毒的物质,根据检测板材硬度、抗弯强度,稳定性能远远超过目前市面上的其他板材和再生板材,高温炭含量高耐紫外线、雨水、高低温差,适合户外使用。
实施例5一种远红外负离子炭复合板,其成分包括如下(按重量百分比):10目的碳粉1%;树脂80%;6000目的云母粉5%;阻燃剂1%;分散剂3%;沸石粉1%;发泡剂3%,调节剂6%。
工艺与实施例1相同。
实施例6一种远红外负离子炭复合板,其成分包括如下(按重量百分比):250目的碳粉10%;1000目的云母粉80%;阻燃剂3%;分散剂5%;沸石粉1%;发泡剂1%,调节剂1%。
工艺与实施例2相同。
实施例7一种远红外负离子炭复合板,其特征在于:其成分包括如下(按重量百分比):100目的碳粉5%;树脂30%;1000目的云母粉30%;阻燃剂1%;分散剂10%;沸石粉5%;发泡剂10%,调节剂10%。
工艺与实施例3相同。
本发明产品的检测结果:比表面积为280平方米每克;板材的孔径面积为256平方米每克;远红外线发射率94.6%,负离子释放量 1500ions,亚甲基蓝吸附值为210毫克每克,乙烯气体吸附值为5.45 毫升每克;ph值为5.3.
本发明为一种新型的远红外、负离子板材以及装修材料及其制造工艺,本发明的各种板材物理性能:可以用材料的配方、温度调整硬度、密度、抗弯强度耐高、低温的功能,能抵抗大于普通板60%以上的承受压力抗磨损,有一定的缓冲性能。化学性能:无不良有害物质,用各种材料的高温炭、碳化时间、以及配比来调整远红外、负离子、降减甲醛等指标。优质云母粉具有高达95%以上的远红外发射率,负氧离子释放量30000个/cc以上,小粒径负离子还能有效消除家装污染、分解甲醛、笨等致癌物质,分解产物是无毒无味的二氧化碳和水。炭、沸石粉的结合加快对硫化物、氮化物、甲醛、苯、酚等有害物质的吸附和降减(3公斤板材在一立方的密封舱内24h的甲醛降减量达65%以上)作用以及很强的吸湿防潮、放湿、去除异味的作用,自带极强的保健功能。在本发明的材料里加入10%以上的云母粉和高温炭、沸石粉结合制作的产品,利用云母在高温炭的碳分子“布朗运动”中产生热量,同时会源源不断的产生90%左右的远红外线来辐射热量,导致恒久的释放对人体健康具有及其重要远红外和负离子,装修的各种房子相当于居住在全世界最长寿地巴马或者是原始森林里。
当炭粉为220目的竹炭粉时,同等大小材料所对应的甲醛吸附量最好,达72mg/g。
作为优选,炭粉为竹炭粉加热温度700-850℃,加热时间4-6h,经KOH活化后的竹炭基活性炭竹炭与KOH以1:2质量比混合,在 900℃惰性气体氛围保温2h的条件下活化获得的活性炭粉。其在 0.06mA/g电流密度下恒流充放电的电容比容量可达250F/g,显示出很好的大电流充放电性能。
对于本领域技术人员而言,显然本发明不限于上述示范性实施例的细节,而且在不背离本发明的精神或基本特征的情况下,能够以其他的具体形式实现本发明。因此,无论从哪一点来看,均应将实施例看作是示范性的,而且是非限制性的,本发明的范围由所附权利要求而不是上述说明限定,因此旨在将落在权利要求的等同要件的含义和范围内的所有变化囊括在本发明内。
此外,应当理解,虽然本说明书按照实施方式加以描述,但并非每个实施方式仅包含一个独立的技术方案,说明书的这种叙述方式仅仅是为清楚起见,本领域技术人员应当将说明书作为一个整体,各实施例中的技术方案也可以经适当组合,形成本领域技术人员可以理解的其他实施方式。
Claims (9)
1.一种远红外负离子炭复合板,其特征在于:其成分包括如下(按重量百分比):10-6000目的云母粉0.5%一95%;10-250目的炭粉0.5%一95%;树脂15%一90%;分散剂0.1%一10%;沸石粉1%一50%;发泡剂0.1%一20%,调节剂0.1-20%。
2.根据权利要求1所述的一种远红外负离子炭复合板,其特征在于:其成分包括如下(按重量百分比):50目的碳粉75%;树脂15%;云母粉1%;阻燃剂5%;分散剂0.5%;沸石粉3%;发泡剂0.1%,调节剂0.4%。
3.根据权利要求1所述的一种远红外负离子炭复合板,其特征在于:其成分包括如下(按重量百分比):10目的碳粉1%;树脂80%;6000目的云母粉5%;阻燃剂1%;分散剂3%;沸石粉1%;发泡剂3%,调节剂6%。
4.根据权利要求1所述的一种远红外负离子炭复合板,其特征在于:其成分包括如下(按重量百分比):250目的碳粉10%;1000目的云母粉80%;阻燃剂3%;分散剂5%;沸石粉1%;发泡剂1%,调节剂1%。
5.根据权利要求1所述的一种远红外负离子炭复合板,其特征在于:其成分包括如下(按重量百分比):100目的碳粉5%;树脂30%;1000目的云母粉30%;阻燃剂1%;分散剂10%;沸石粉5%;发泡剂10%,调节剂10%。
6.根据权利要求1-5之一所述的一种远红外负离子炭复合板,其特征在于:所述炭粉为220目的竹炭粉。
7.根据权利要求6所述的一种远红外负离子炭复合板,其特征在于:所述竹炭粉中还有2倍重量的KOH。
8.一种制作权利要求1所述远红外负离子炭复合板的制造工艺,其特征在于,包括以下步骤:第一步:将小部分高温炭:云母粉(2:1)在30-300摄氏度5000r/min的高速混合机上混合碰撞形成(母料).第二步:将其他原料按比例混合并置入搅拌机中搅拌均匀;第三步:加热,加热的温度为80摄氏度,加热的时间为3分钟;第四步:加混合好的母料(以云母粉料为基数),第五步:再高速搅拌加热;第六步:根据模具挤成型冷却裁切。
9.根据权利要求8所述的一种远红外负离子炭复合板的制造工艺,其特征在于:所述其他原料中的炭粉为竹炭粉在加热温度700-850℃,加热时间4-6h的条件下加热后,经KOH活化后的竹炭基活性炭竹炭与KOH以1:2质量比混合,在900℃惰性气体氛围保温2h的条件下活化获得的活性炭粉。
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CN106432977A (zh) * | 2016-10-21 | 2017-02-22 | 叶爱云 | 一种植物纤维环保装饰板 |
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CN108409196B (zh) | 2018-03-16 | 2020-12-25 | 赵星安 | 一种远红外负离子炭复合板及其制作工艺 |
CN108676275A (zh) | 2018-04-03 | 2018-10-19 | 丁清波 | 一种具有发射远红外和释放负离子功能的复合装饰板及其制备方法 |
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CN106432977A (zh) * | 2016-10-21 | 2017-02-22 | 叶爱云 | 一种植物纤维环保装饰板 |
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WO2019174624A1 (zh) * | 2018-03-16 | 2019-09-19 | 赵星安 | 一种远红外负离子炭复合板及其制作工艺 |
US11904293B2 (en) | 2018-03-16 | 2024-02-20 | Xingan ZHAO | Far-infrared negative ion carbon composite plate and manufacturing process thereof |
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US11904293B2 (en) | 2024-02-20 |
US20210008520A1 (en) | 2021-01-14 |
AU2019233259A1 (en) | 2020-10-08 |
WO2019174624A1 (zh) | 2019-09-19 |
AU2019233259B2 (en) | 2022-06-02 |
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