CN109364379A - 一种具有远红外节能辐射共振波频功能的纳米新材料 - Google Patents
一种具有远红外节能辐射共振波频功能的纳米新材料 Download PDFInfo
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Abstract
本发明公开了一种具有远红外节能辐射共振波频功能的纳米新材料,通过在载体印刷并高温烧结后会在载体表面形成一层导电膜,电能转换热能和远红外辐射波频能量转换效率高达98.5%,产生的远红外波长为2‑15um,与人体生活波长相近,具有波频共振的效果,进而达到健康理疗功能,电能转热能对比节能效率高达35‑55%综合以上。其独有的能量波断渗入体内,进而会引起人体细胞的原子和分子的共振,促使皮下温度上升,加速血液循环,有利于清除血管囤积物及体内有害物质,将妨害新陈代谢的障碍清除,重新使组织复活,促进酵素生成,达到活化组织细胞、防止老化、强化免疫系统的目的,对于血液循环和微循环障碍引起的多种疾病均具有改善和防治作用。
Description
技术领域:
本发明涉及纳米材料技术领域,具体涉及一种具有远红外节能辐射共振波频功能的纳米新材料。
背景技术:
理疗就是利用人工或者自然界物理因素作用于人体,使之产生有利的反应,达到预防和治疗疾病的目的,是现代医学康复治疗的重要组成部分。随着科技的进步以及人们生活水平的提高,人们对自身健康状况越来越关注,除了常规的体育运动、食品保健、健康体检等良好习惯的保持外,越来越多的人开始注重理疗产品的使用。常规的电疗法、光疗法、超声理疗法等操作过程使用的理疗装置能耗高,且对人体的理疗效果差,难以引起人体的明显反应。
发明内容:
本发明的目的就是针对现有技术的不足,提供了一种具有远红外节能辐射共振波频功能的纳米新材料。
本发明的技术解决措施如下:
一种具有远红外节能辐射共振波频功能的纳米新材料,其特征在于:包括:纳米导电碳、纳米石墨烯、纳米红外陶瓷粉、纳米负离子粉、纳米银、纳米二氧化钛、微量纳米级稀土元素、耐高温导电树脂、工业乙醇、活化剂。
具体的材料成分比例配方为:纳米导电碳15-45份,纳米石墨烯3-15 份,纳米红外陶瓷粉5-25份,纳米负离子粉3-20份,纳米银2-15份,纳米二氧化钛1-10份,微量纳米稀土元素1-8份,耐高温导电树脂3-15份,工业乙醇1-10份,活化剂0.5-6份。
纳米新材料的制作过程如下:
(1)制作碳系导电浆料,将15-45份纳米导电碳、3-15份纳米石墨烯加入1-10份的工业乙醇中,形成碳系导电浆料;对碳系导电浆料进行充分搅拌,搅拌条件为转速5000转/分的高速搅拌机进行高速搅拌、充分混合40-50分钟;
(2)初始材料的制备,将5-25份纳米红外陶瓷粉、3-20份纳米负离子粉、2-15份纳米银、1-10份纳米二氧化钛、1-8份微量纳米稀土元素、 3-15份耐高温导电树脂加入充分搅拌后的碳系导电浆料中,在真空条件下进行离心搅拌,并保持真空状态30-50分钟,形成初始材料;
(3)初始材料活化:将0.5-6份活化剂加入常压下的初始材料中,活化条件为搅拌20分钟、静置活化40分钟;
(4)印刷烧结:将活化后的初始材料印刷在耐高温基质上,并进行真空烧结。
本发明的有益效果在于:本发明的纳米新材料通过在载体印刷并高温烧结后会在载体表面形成一层导电膜,通电后,电能转换热能和远红外辐射波频能量转换效率高达98.5%,产生的远红外波长为2-15um,集中波长为6-9um,与人体生活波长相近,具有波频共振的效果,进而达到健康理疗功能,电能转热能对比节能效率高达35-55%综合以上。在理疗过程中,其独有的能量波断渗入体内,进而会引起人体细胞的原子和分子的共振,透过同频共频吸收,分子之间摩擦生热形成热反应,促使皮下深层温度上升,并使微血管扩张,加速血液循环,有利于清除血管囤积物及体内有害物质,将妨害新陈代谢的障碍清除,重新使组织复活,促进酵素生成,达到活化组织细胞、防止老化、强化免疫系统的目的,对于血液循环和微循环障碍引起的多种疾病均具有改善和防治作用。
具体实施方式:
为了使本发明的上述目的、特征和优点能够更加明显易懂,下面对本发明的具体实施方式做出详细的说明。
本发明公开了一种具有远红外节能辐射共振波频的纳米新材料,纳米新材料包括:纳米导电碳、纳米石墨烯、纳米红外陶瓷粉、纳米负离子粉、纳米银、纳米二氧化钛、微量纳米级稀土元素、耐高温导电树脂、工业乙醇、活化剂。
具体的材料成分比例配方为:纳米导电碳15-45份,纳米石墨烯3-15 份,纳米红外陶瓷粉5-25份,纳米负离子粉3-20份,纳米银2-15份,纳米二氧化钛1-10份,微量纳米稀土元素1-8份,耐高温导电树脂3-15份,工业乙醇1-10份,活化剂0.5-6份。
纳米新材料的制作过程如下:
(1)制作碳系导电浆料,将15-45份纳米导电碳、3-15份纳米石墨烯加入1-10份的工业乙醇中,形成碳系导电浆料;对碳系导电浆料进行充分搅拌,搅拌条件为转速5000转/分的高速搅拌机进行高速搅拌、充分混合40-50分钟;
(2)初始材料的制备,将5-25份纳米红外陶瓷粉、3-20份纳米负离子粉、2-15份纳米银、1-10份纳米二氧化钛、1-8份微量纳米稀土元素、 3-15份耐高温导电树脂加入充分搅拌后的碳系导电浆料中,在真空条件下进行离心搅拌,并保持真空状态30-50分钟,形成初始材料;
(3)初始材料活化:将0.5-6份活化剂加入常压下的初始材料中,活化条件为搅拌20分钟、静置活化40分钟;
(4)印刷烧结:将活化后的初始材料印刷在耐高温基质上,并进行真空烧结。
通过上述制备工艺,能够得到后续用于理疗的纳米材料,且该纳米材料对电能转换热能和远红外辐射波频能量转换效率高达98.5%,产生的远红外波长为2-15um,集中波长为6-9um,与人体生活波长相近,具有波频共振的效果,进而达到健康理疗功能,电能转热能对比节能效率高达 35-55%综合以上。
本发明的纳米新材料通过在载体印刷并高温烧结后会在载体表面形成一层导电膜,通电后,产生的远红外波长与人体生活波长相近,具有波频共振的效果,进而达到健康理疗功能,电能转热能对比节能效率高达 35-55%综合以上。在理疗过程中,其独有的能量波断渗入体内,进而会引起人体细胞的原子和分子的共振,透过同频共频吸收,分子之间摩擦生热形成热反应,促使皮下深层温度上升,并使微血管扩张,加速血液循环,有利于清除血管囤积物及体内有害物质,将妨害新陈代谢的障碍清除,重新使组织复活,促进酵素生成,达到活化组织细胞、防止老化、强化免疫系统的目的,对于血液循环和微循环障碍引起的多种疾病均具有改善和防治作用。
所述实施例用以例示性说明本发明,而非用于限制本发明。任何本领域技术人员均可在不违背本发明的精神及范畴下,对所述实施例进行修改,因此本发明的权利保护范围,应如本发明的权利要求所列。
Claims (3)
1.一种具有远红外节能辐射共振波频功能的纳米新材料,其特征在于:包括:纳米导电碳、纳米石墨烯、纳米红外陶瓷粉、纳米负离子粉、纳米银、纳米二氧化钛、微量纳米级稀土元素、耐高温导电树脂、工业乙醇、活化剂。
2.根据权利要求1所述的一种具有远红外节能辐射共振波频功能的纳米新材料,其特征在于:具体的材料成分比例配方为:纳米导电碳15-45份,纳米石墨烯3-15份,纳米红外陶瓷粉5-25份,纳米负离子粉3-20份,纳米银2-15份,纳米二氧化钛1-10份,微量纳米稀土元素1-8份,耐高温导电树脂3-15份,工业乙醇1-10份,活化剂0.5-6份。
3.根据权利要求2所述的一种具有远红外节能辐射共振波频功能的纳米新材料,其特征在于:纳米新材料的制作过程如下:
(1)制作碳系导电浆料,将15-45份纳米导电碳、3-15份纳米石墨烯加入1-10份的工业乙醇中,形成碳系导电浆料;对碳系导电浆料进行充分搅拌,搅拌条件为转速5000转/分的高速搅拌机进行高速搅拌、充分混合40-50分钟;
(2)初始材料的制备,将5-25份纳米红外陶瓷粉、3-20份纳米负离子粉、2-15份纳米银、1-10份纳米二氧化钛、1-8份微量纳米稀土元素、3-15份耐高温导电树脂加入充分搅拌后的碳系导电浆料中,在真空条件下进行离心搅拌,并保持真空状态30-50分钟,形成初始材料;
(3)初始材料活化:将0.5-6份活化剂加入常压下的初始材料中,活化条件为搅拌20分钟、静置活化40分钟;
(4)印刷烧结:将活化后的初始材料印刷在耐高温基质上,并进行真空烧结。
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