会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 6. 发明申请
    • THE TECHNIQUE OF PRODUCTION OF AN OPEN POROSITY CONVERTER WORKING ELEMENT
    • 开放式多孔转换器工作元件的生产技术
    • WO01089744A1
    • 2001-11-29
    • PCT/RU2000/000385
    • 2000-09-26
    • B22F7/04B22F3/00C04B30/02D04H1/00D04H1/4234D04H1/645D04H1/70D04H13/00D04H1/54
    • D04H1/645B22F3/002B22F2999/00C04B30/02D04H1/4234D04H1/70D04H13/00C04B40/0268B22F3/004B22F3/105
    • Application: when manufacturing porous units with directional through channels. The essence of the invention: the technique of production of an open porosity converter working element implies that fibers of preset linear dimensions and cross-section are manufactured prior to formation of a preform of the working element. Formation of the preform is implemented by way of layering of fibers. Fibers are laid in each layer to form through channels between them. The position of fibers in the shaping fixture is fixed. After that fibers are integrated through heating. During heating the process fixative is removed, stresses are removed and the fiber surface is cleaned. Preforms of the converter working elements are heated in the controlled atmosphere up to the desired temperature and soaked at such temperature under discharge until the fibers are baked to constitute the organic whole. Upon completion of baking converter working elements are cooled and removed out of the form.
    • 应用:制造具有定向通道的多孔单元时。 本发明的本质:生产开放孔隙转换器工作元件的技术意味着在形成工作元件的预成型件之前制造预设线性尺寸和横截面的纤维。 预成型件的形成通过纤维层叠来实现。 纤维铺设在各层中,通过它们之间的通道形成。 成型夹具中纤维的位置是固定的。 之后,通过加热将纤维集成。 在加热过程中,去除了固定剂,去除了应力,并清洁了纤维表面。 转炉工作元件的预制件在受控气氛中加热到所需温度,并在这样的温度下在放电下浸泡,直到纤维被烘烤以构成有机整体。 烘烤完成后,工作元件被冷却并脱离形式。
    • 10. 发明申请
    • ELECTRICALLY CONDUCTIVE NON-WOVEN FABRIC
    • 导电非织造织物
    • WO2018083045A1
    • 2018-05-11
    • PCT/EP2017/077679
    • 2017-10-27
    • UNIVERSITÄT BAYREUTH
    • GREINER, AndreasAGARWAL, SeemaLANGNER, MarkusREICH, Steffen
    • D04H1/4234C08J3/12D04H1/64D04H1/728D01D5/00
    • The invention concerns an electrically conductive non-woven fabric which fabric comprises or consists of a three-dimensional network of non-woven non-electrically conductive synthetic nanofibers and electrically conductive metal nanowires distributed therein, wherein the synthetic nanofibers comprise or consist of fibers having a diameter in the range of 10 nm to 2000 nm and a maximal length of 6 mm, wherein the electrically conductive metal nanowires comprise or consist of strands having a diameter in the range of 10 nm to 800 nm and a length in the range of 1 µm to 500 µm, wherein the electrically conductive metal nanowires occupy between 0.5% by volume to 5% by volume of said fabric, wherein the electrically conductive metal nanowires and the synthetic nanofibers are homogenously distributed within the electrically conductive non-woven fabric.
    • 本发明涉及一种导电非织造织物,该织物包含非织造非导电合成纳米纤维和分布于其中的导电金属纳米线的三维网络或由其组成,其中合成的非导电合成纳米纤维和导电金属纳米线 纳米纤维包含或由直径在10nm至2000nm范围内且最大长度为6mm的纤维组成,其中导电金属纳米线包含直径在10nm至800nm范围内的股线或由直径在10nm至800nm范围内的股线和 长度在1微米至500微米的范围内,其中所述导电金属纳米线占所述织物的0.5体积%至5体积%,其中所述导电金属纳米线和所述合成纳米纤维均匀分布 在导电无纺布内。