公开(公告)号：US20160289402A1

公开(公告)日：2016-10-06

申请号：US14778498

申请日：2014-03-26

Applicant: NITTO DENKO CORPORATION

Inventor： Satoru FURUYAMA ,  Yozo NAGAI ,  Junichi MORIYAMA ,  Yosuke YURI ,  Takahiro YUYAMA ,  Tomohisa ISHIZAKA ,  Ikuo ISHIBORI ,  Ken-ichi YOSHIDA ,  Yasunari MAEKAWA ,  Hiroshi KOSHIKAWA ,  Tetsuya YAMAKI ,  Masaharu ASANO

IPC: C08J5/18 ,  C08J7/12

CPC classification number: C08J5/18 ,  C08J7/123 ,  C08J2300/00

Abstract: The method of the present disclosure is a method for producing a porous polymer film including: irradiating a strip-shaped polymer film with an ion beam while moving the polymer film transversely to the ion beam, so as to form a polymer film that has collided with ions in the beam; and chemically etching the formed polymer film so as to form openings and/or through holes corresponding to tracks left by the colliding ions in the polymer film. The ion beam (11) with which the polymer film is irradiated is obtained by folding a tail of an original beam (51) inwardly toward a center of the original beam by nonlinear focusing. The original beam is composed of ions accelerated in a cyclotron and has a cross-sectional intensity distribution profile in which an intensity is maximum at the center of the original beam and continuously decreases from the center toward the tail of the original beam, and the profile is an intensity distribution profile in a cross section perpendicular to a direction of the original beam.

Abstract translation: 本公开的方法是一种多孔聚合物膜的制造方法，包括：在离子束横向移动聚合物膜的同时，用离子束照射带状聚合物膜，形成与 梁中的离子; 并化学蚀刻所形成的聚合物膜，以形成与聚合物膜中的碰撞离子留下的轨道相对应的开口和/或通孔。 聚合物膜照射的离子束（11）通过非原子聚焦将原始光束（51）的尾部朝向原始光束的中心向内折叠而获得。 原始光束由在回旋加速器中加速的离子组成，并且具有横截面强度分布分布，其中在原始光束的中心处的强度最大，并且从原始光束的中心向尾部连续减小，并且轮廓 是垂直于原始光束的方向的横截面中的强度分布分布。

公开(公告)号：US20160304679A1

公开(公告)日：2016-10-20

申请号：US14778482

申请日：2014-03-26

Applicant: NITTO DENKO CORPORATION

Inventor： Satoru FURUYAMA ,  Yuuzou MURAKI ,  Yozo NAGAI ,  Ichiro AMINO ,  Yosuke YURI ,  Takahiro YUYAMA ,  Tomohisa ISHIZAKA ,  Ikuo ISHIBORI ,  Ken-ichi YOSHIDA ,  Yasunari MAEKAWA ,  Hiroshi KOSHIKAWA ,  Tetsuya YAMAKI ,  Masaharu ASANO

IPC: C08J5/18 ,  C08J7/12

CPC classification number: C08J5/18 ,  C08J7/123 ,  C08J2300/20

Abstract: The method of the present disclosure includes: (I) irradiating a polymer film (1) with an ion beam composed of ions (2) accelerated in a cyclotron so as to form a polymer film that has collided with the ions in the beam; and (II) chemically etching the polymer film formed in the irradiation (I) so as to form openings (4b) and/or through holes (4a) corresponding to tracks (3) left by the colliding ions in the polymer film. In the irradiation (I), a beam current value of the ion beam is detected upstream and/or downstream of the polymer film in a path of the ion beam, and an irradiation conditioning factor in the irradiation of the polymer film with the ion beam is controlled based on the detected beam current value so that the polymer film can be irradiated with the ions at a predetermined irradiation density. The method of the present disclosure is suitable for industrial production of porous polymer films.

Abstract translation: 本公开的方法包括：（I）用在回旋加速器中加速的离子（2）组成的离子束照射聚合物膜（1），以形成与梁中的离子相撞的聚合物膜; 和（II）化学蚀刻在照射（I）中形成的聚合物膜，从而形成与聚合物膜中的碰撞离子留下的轨道（3）相对应的开口（4b）和/或通孔（4a）。 在照射（I）中，在离子束的路径中在聚合物膜的上游和/或下游检测离子束的束电流值，并且在离子束照射聚合物膜时照射调节因子 基于检测到的光束电流值进行控制，使得聚合物膜可以以预定的照射密度照射离子。 本公开的方法适用于工业生产多孔聚合物膜。