Feedblock for manufacturing multilayer polymeric films
    1.
    发明授权
    Feedblock for manufacturing multilayer polymeric films 有权
    用于制造多层聚合物膜的进料块

    公开(公告)号:US09162406B2

    公开(公告)日:2015-10-20

    申请号:US13695463

    申请日:2011-04-25

    Abstract: A feedblock including a first packet creator that forms a first packet including a first plurality of polymeric layers, the first plurality of layers including at least four first individual polymeric layers; and a second packet creator that forms a second packet including a second plurality of polymeric layers, the second plurality of layers including at least four second individual polymeric layers, wherein the first and second packet creators are configured such that, for each packet creator, respective individual polymeric layers of the plurality of polymeric layers are formed at approximately the same time. The feedblock may include a packet combiner that receives and combines the first and second primary packets to form a multilayer stream. In some examples, at least one of the first and second primary packets may be spread in the cross-web direction prior to being combined with one another.

    Abstract translation: 包括第一分组创建器的馈送块,其形成包括第一多个聚合物层的第一分组,所述第一多个层包括至少四个第一单独的聚合物层; 以及第二分组创建器,其形成包括第二多个聚合层的第二分组,所述第二多个层包括至少四个第二单独的聚合物层,其中所述第一和第二分组创建者被配置为使得对于每个分组创建者, 大致同时形成多个聚合物层的单个聚合物层。 馈送块可以包括分组组合器,其接收并组合第一和第二主分组以形成多层流。 在一些示例中,在彼此组合之前,第一和第二主要分组中的至少一个可以在横向方向上扩展。

    Apparatus for making multilayer optical films
    4.
    发明授权
    Apparatus for making multilayer optical films 有权
    多层光学膜制造装置

    公开(公告)号:US06783349B2

    公开(公告)日:2004-08-31

    申请号:US09811200

    申请日:2001-03-16

    Abstract: Methods and apparatuses are provided for the manufacture of coextruded polymeric multilayer optical films. The multilayer optical films have an ordered arrangement of layers of two or more materials having particular layer thicknesses and a prescribed layer thickness gradient throughout the multilayer optical stack. The methods and apparatuses described allow improved control over individual layer thicknesses, layer thickness gradients, indices of refraction, interlayer adhesion, and surface characteristics of the optical films. The methods and apparatuses described are useful for making interference polarizers, mirrors, and colored films that are optically effective over diverse portions of the ultraviolet, visible, and infrared spectra.

    Abstract translation: 提供了用于制造共挤出聚合物多层光学膜的方法和装置。 所述多层光学膜具有层叠的两层或多层具有特定层厚度和规定的层厚度梯度的多层光学叠层的层序排列。 所描述的方法和装置允许改进对单个层厚度,层厚度梯度,折射率,层间粘合和光学膜的表面特性的控制。 所描述的方法和装置可用于制造在紫外线,可见光和红外光谱的不同部分上光学有效的干涉偏振器,反射镜和着色膜。

    Apparatus for manufacturing multilayer polymeric films

    公开(公告)号:US09630356B2

    公开(公告)日:2017-04-25

    申请号:US13102326

    申请日:2011-05-06

    Abstract: A feedblock including a first packet creator that forms a first packet including a first plurality of polymeric layers, the first plurality of layers including at least four first individual polymeric layers; and a second packet creator that forms a second packet including a second plurality of polymeric layers, the second plurality of layers including at least four second individual polymeric layers, wherein the first and second packet creators are configured such that, for each packet creator, respective individual polymeric layers of the plurality of polymeric layers are formed at approximately the same time. The feedblock may include a packet combiner that receives and combines the first and second primary packets to form a multilayer stream. In some examples, at least one of the first and second primary packets may be spread in the cross-web direction prior to being combined with one another.

    COEXTRUDED POLYMER FILM CONFIGURED FOR SUCCESSIVE IRREVERSIBLE DELAMINATION
    6.
    发明申请
    COEXTRUDED POLYMER FILM CONFIGURED FOR SUCCESSIVE IRREVERSIBLE DELAMINATION 审中-公开
    配置用于继续不可逆分层的聚合聚合物膜

    公开(公告)号:US20140065397A1

    公开(公告)日:2014-03-06

    申请号:US13596425

    申请日:2012-08-28

    Abstract: Multilayered polymer films are configured so that successive constituent layer packets can be delaminated in continuous sheet form from the remaining film. The new films are compatible with known coextrusion manufacturing techniques, and can also be made without the use of adhesive layers between layer packets that are tailored to be individually peelable from the remainder of the film. Instead, combinations of polymer compositions are used to allow non-adhesive polymer layers to be combined in such a way that delamination of the film is likely to occur along a plurality of delamination surfaces corresponding to interfaces between particular pairs of layers for which the peel strength is reduced relative to the peel strength at other layer interfaces within the film. The absence of an adhesive between peelable layer packets results in the delamination being irreversible.

    Abstract translation: 多层聚合物膜被配置成使得连续的构成层包可以从剩余的膜以连续的片状形式分层。 新的膜与已知的共挤出制造技术相兼容,并且也可以在层数据包之间不使用粘合剂层进行制造,这些层被定制成能够与膜的其余部分单独剥离。 相反,使用聚合物组合物的组合来使非粘合聚合物层以这样的方式组合,使得可能沿着对应于特定成对层之间的界面的多个分层表面发生膜的分层,剥离强度 相对于膜内其它层界面处的剥离强度而降低。 剥离层包之间不存在粘合剂导致分层不可逆。

    Polymer photonic crystal fibers
    7.
    发明授权
    Polymer photonic crystal fibers 有权
    聚合物光子晶体纤维

    公开(公告)号:US07386212B2

    公开(公告)日:2008-06-10

    申请号:US11067848

    申请日:2005-02-28

    Abstract: A composite polymer fiber comprises a polymer filler material and a plurality of polymer scattering fibers disposed within the filler material. At least one of the filler material and the scattering fibers is formed of a birefringent material. The refractive indices of the filler material and the scattering fibers can be substantially matched for light incident in a first polarization state on the composite polymer fiber and unmatched for light incident in an orthogonal polarization state. The scattering fibers may be arranged to form a photonic crystal within the composite fiber. The composite fibers may be extruded and may be formed into a yarn, a weave or the like. If the filler material is soluble, it may be washed out of the yarn or weave, and the scattering fibers may then be infiltrated with a resin that is subsequently cured.

    Abstract translation: 复合聚合物纤维包括聚合物填充材料和布置在填充材料内的多个聚合物散射纤维。 填充材料和散射纤维中的至少一种由双折射材料形成。 对于在复合聚合物纤维上以第一偏振态入射的光,填充材料和散射光纤的折射率可以基本上匹配,并且对于以正交偏振状态入射的光是不匹配的。 散射纤维可以被布置成在复合纤维内形成光子晶体。 复合纤维可以被挤出并且可以形成为纱线,编织物等。 如果填充材料是可溶的,则其可以从纱线中洗涤或织出,然后散射纤维可以用随后固化的树脂渗透。

    FEEDBLOCK FOR MANUFACTURING MULTILAYER POLYMERIC FILMS
    9.
    发明申请
    FEEDBLOCK FOR MANUFACTURING MULTILAYER POLYMERIC FILMS 有权
    用于制造多层聚合物薄膜的进料

    公开(公告)号:US20110272849A1

    公开(公告)日:2011-11-10

    申请号:US13102089

    申请日:2011-05-06

    Abstract: A feedblock including a first packet creator that forms a first packet including a first plurality of polymeric layers, the first plurality of layers including at least four first individual polymeric layers; and a second packet creator that forms a second packet including a second plurality of polymeric layers, the second plurality of layers including at least four second individual polymeric layers, wherein the first and second packet creators are configured such that, for each packet creator, respective individual polymeric layers of the plurality of polymeric layers are formed at approximately the same time. The feedblock may include a packet combiner that receives and combines the first and second primary packets to form a multilayer stream. In some examples, at least one of the first and second primary packets may be spread in the cross-web direction prior to being combined with one another.

    Abstract translation: 包括第一分组创建器的馈送块,其形成包括第一多个聚合物层的第一分组,所述第一多个层包括至少四个第一单独的聚合物层; 以及第二分组创建器,其形成包括第二多个聚合层的第二分组,所述第二多个层包括至少四个第二单独的聚合物层,其中所述第一和第二分组创建者被配置为使得对于每个分组创建者, 大致同时形成多个聚合物层的单个聚合物层。 馈送块可以包括分组组合器,其接收并组合第一和第二主分组以形成多层流。 在一些示例中,在彼此组合之前,第一和第二主要分组中的至少一个可以在横向方向上扩展。

    APPARATUS FOR MANUFACTURING MULTILAYER POLYMERIC FILMS
    10.
    发明申请
    APPARATUS FOR MANUFACTURING MULTILAYER POLYMERIC FILMS 有权
    制造多层聚合物薄膜的装置

    公开(公告)号:US20110272832A1

    公开(公告)日:2011-11-10

    申请号:US13102326

    申请日:2011-05-06

    Abstract: A feedblock including a first packet creator that forms a first packet including a first plurality of polymeric layers, the first plurality of layers including at least four first individual polymeric layers; and a second packet creator that forms a second packet including a second plurality of polymeric layers, the second plurality of layers including at least four second individual polymeric layers, wherein the first and second packet creators are configured such that, for each packet creator, respective individual polymeric layers of the plurality of polymeric layers are formed at approximately the same time. The feedblock may include a packet combiner that receives and combines the first and second primary packets to form a multilayer stream. In some examples, at least one of the first and second primary packets may be spread in the cross-web direction prior to being combined with one another.

    Abstract translation: 包括第一分组创建器的馈送块,其形成包括第一多个聚合物层的第一分组,所述第一多个层包括至少四个第一单独的聚合物层; 以及第二分组创建器,其形成包括第二多个聚合层的第二分组,所述第二多个层包括至少四个第二单独的聚合物层,其中所述第一和第二分组创建者被配置为使得对于每个分组创建者, 大致同时形成多个聚合物层的单个聚合物层。 馈送块可以包括分组组合器,其接收并组合第一和第二主分组以形成多层流。 在一些示例中,在彼此组合之前,第一和第二主要分组中的至少一个可以在横向方向上扩展。

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