| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种连续纤维含量可控的热塑性复合蜂窝板材及制备方法 | CN201611060449.2 | 2016-11-28 | CN106476299A | 2017-03-08 | 杜登汉 |
| 本发明属于热塑性复合材料制备技术领域,公开了一种连续纤维含量可控的热塑性复合蜂窝板材及其制备方法。本发明制备方法包括以下步骤:将连续纤维和树脂纤维分别展开,共混后收卷,得到复合纤维束,将其编织为复合纤维织物,热处理,在蜂窝板的上下各层叠多层热处理后复合纤维织物,一步热压复合得到热塑性复合蜂窝板材;热处理指对复合纤维织物进行热烘处理,热烘处理的温度为树脂的热变形温度和熔融温度之间。本发明解决了纤维在复合材料中的分散均匀问题,实现纤维高达70%的大量填充,制备得到的板材具有优异的强度和刚度,可适应不同领域的要求。通过热处理解决了热压时热变形收缩问题,无需热压得片材再得到板材,可一步热压得到板材。 | ||||||
| 2 | 热处理的聚合物粉末 | CN201180046627.5 | 2011-09-27 | CN103140527A | 2013-06-05 | C·A·伯蒂罗; M·A·加西亚-莱纳; A·德卡米尼; S·F·德费利希 |
| 本发明涉及热处理多晶型的半晶质或可结晶的聚合物来增加最高熔融晶型的含量。此热处理的结果是形成一种聚合物粉末,该聚合物粉末对于要求在升高的温度下粉末流动的粉末颗粒尺寸的应用,具有一致的、均匀的熔融范围、改进的流动和改进的耐久性。除了改进的粉末性能,由这些粉末产生的物品在外观和机械性能上还显示出更好的物理性能。因此,本发明还包括由所描述的方法产生的聚合物粉末和物品。 | ||||||
| 3 | 一种环保型热塑性体育用品的生产工艺 | CN201510588168.3 | 2015-09-16 | CN105082560A | 2015-11-25 | 焦其朋; 贾涛芳; 马利忠; 王瑞; 李文娟; 褚容容 |
| 本发明涉及一种环保型热塑性体育用品的生产工艺,以热塑性材料作为原材料生产体育用品,具体包括了纤维布的处理、片材的制取、片材的加工、半成品的处理工艺流程,本发明的有益效果是:该工艺生产的体育用品采用热塑性材料为原材料,通过热塑性材料的特性,达到回收并重复利用的目的,避免了现有技术中的热固性材料造成环境污染、能源浪费的问题。 | ||||||
| 4 | 一种用于制备绿色空心楼盖的一体式加工设备 | CN201510178582.7 | 2015-04-15 | CN104826720A | 2015-08-12 | 独少培 |
| 一种用于制备绿色空心楼盖的一体式加工设备,包括第一物料输送机,所述第一物料输送机的出料端接至粉碎机,所述粉碎机的出料口通过第二输送机接至球磨机,所述球磨机出料口通过第三输送机接至熔炼炉,所述熔炼炉的出口通过流道接至挤出机,所述挤出机挤出螺杆前端连接有模具,物料在粉碎机中进行粉碎,粉碎后的物料直接进入球磨机进行研磨,研磨完成后进行熔炼,将熔炼后的熔体直接引入挤出机,通过挤出机挤出成型,完成一体式自动化操作。本发明在结构设计上较为简单,各机械部件之间有效连接,实现自动上料、出料,完成连续生产,提高生产效率,降低加工成本。 | ||||||
| 5 | 热处理的聚合物粉末 | CN201180046627.5 | 2011-09-27 | CN103140527B | 2015-08-12 | C·A·伯蒂罗; M·A·加西亚-莱纳; A·德卡米尼; S·F·德费利希 |
| 本发明涉及热处理多晶型的半晶质或可结晶的聚合物来增加最高熔融晶型的含量。此热处理的结果是形成一种聚合物粉末,该聚合物粉末对于要求在升高的温度下粉末流动的粉末颗粒尺寸的应用,具有一致的、均匀的熔融范围、改进的流动和改进的耐久性。除了改进的粉末性能,由这些粉末产生的物品在外观和机械性能上还显示出更好的物理性能。因此,本发明还包括由所描述的方法产生的聚合物粉末和物品。 | ||||||
| 6 | 金属合金-陶瓷树脂复合物及其制造方法 | CN201480001190.7 | 2014-07-15 | CN104661811A | 2015-05-27 | 李殷景; 赵庸完 |
| 公开了一种金属合金-陶瓷树脂复合物。该金属合金-陶瓷树脂复合物包含:金属合金,在所述金属合金中,利用表面活性剂使所述金属合金的表面脱脂并且利用选自盐酸、硫酸、硝酸和甲酸的至少一种酸的水性溶液来蚀刻经脱脂的表面以形成凹陷底切和凸起底切,从而提供80μm至150μm的平均表面粗糙度;以及陶瓷树脂,所述陶瓷树脂包含30wt%至70wt%的选自以下的至少一种树脂:聚丙烯、聚酰胺、聚苯硫醚、聚乙炔、聚碳酸酯、聚酯和聚苯醚,20wt%至60wt%的碳化硅,5wt%至7wt%的无机填料,和3wt%至5wt%的分散剂。通过注塑成型,将所述陶瓷树脂整合到由凹陷底切和凸起底切构成的金属合金的表面上。根据本发明,由于所述金属合金-陶瓷树脂复合物是通过整合具有热消散功能的陶瓷树脂和金属合金而形成的,所以该金属合金-陶瓷树脂复合物能够被有效地用在LED照明装置以及各种电子设备、家用器具、医学设备、车辆结构组件、车载组件、建筑组件以及其他结构组件和外部组件中。 | ||||||
| 7 | 制造聚碳酸酯的方法以及其制品 | CN01814449.7 | 2001-08-10 | CN1447829A | 2003-10-08 | C·施维姆勒; T·埃尔斯纳; J·霍伊泽尔; C·科尔兹 |
| 本发明涉及由聚碳酸酯制造制品的方法及该制品本身。 | ||||||
| 8 | 圆管三维编织预成型体、编织复合圆管及两者的成型方法 | CN201710619899.9 | 2017-07-26 | CN107443616A | 2017-12-08 | 马文锁; 任丙杰; 范卫锋; 黄钊铧; 聂少武; 刘奎; 雷贤卿; 贾晨辉 |
| 本发明涉及圆管三维编织预成型体、编织复合圆管及两者的成型方法。其中圆管三维编织预成型体的成型方法包括将制造成板状的板块三维编织体卷曲成圆管的步骤,以及将卷曲成圆管的板块三维编织体的相互对接的两侧边相互固定以得到圆管三维编织预成型体的步骤。采用上述方案,板块三维编织体卷曲成圆管的过程中会使构成纱线的不稳定纤维堆砌结构预先发生变形和局部曲屈,从而减小或避免预成型体受到外力后再次变形,从而获得稳定结构,与现有技术中在线成型相比,本发明采用了离线成型,解决了现有的三维编织预成型体结构不够稳定、尺寸一致性很难得到保证的问题。 | ||||||
| 9 | 电气设备 | CN201610801763.5 | 2011-08-03 | CN106207082A | 2016-12-07 | 竹村保彦; 森若圭惠 |
| 本发明的目的是提高用于电池的包含活性物质粒子等的电极的导电性。作为导电助剂使用包括1至10个石墨烯的二维碳,代替至多只一维延伸的以往使用的导电助剂诸如石墨粒子、乙炔黑或碳纤维等。二维延伸的导电助剂与活性物质粒子或其他导电助剂接触的概率较高,由此可以提高该导电性。 | ||||||
| 10 | 电气设备 | CN201180040121.3 | 2011-08-03 | CN103053055B | 2016-10-12 | 竹村保彦; 森若圭惠 |
| 本发明的目的是提高用于电池的包含活性物质粒子等的电极的导电性。作为导电助剂使用包括1至10个石墨烯的二维碳,代替至多只一维延伸的以往使用的导电助剂诸如石墨粒子、乙炔黑或碳纤维等。二维延伸的导电助剂与活性物质粒子或其他导电助剂接触的概率较高,由此可以提高该导电性。 | ||||||
| 11 | 一种无胶、高结合力的镁铝合金与塑料复合体的制备方法 | CN201410013884.4 | 2014-01-14 | CN104774462A | 2015-07-15 | 陈永成 |
| 本发明涉及复合体技术领域,具体涉及一种无胶、高结合力的镁铝合金与塑料复合体的制备方法,本发明采用超声波与酸化处理相结合的方式,酸化处理在镁铝合金表面快速蚀刻出微孔结构,酸化处理过程中形成的微气泡在超声波空化所产生的巨大压力和局部调温使酸化处理所形成的微孔结构进一步扩大和加深,便于后续工程塑料深入到微孔结构中;本发明的胺系水溶液浸渍的方法使胺系化合物分子吸附于镁铝合金表面形成的微孔结构中,工程塑料与处于低温状态的镁铝合金接触会被急速冷却,但工程塑料与胺系化合物分子相遇后发热,使将要结晶固化的工程塑料的固化时间延迟,便于高分子链段潜入到具有微孔结构的镁铝合金表面,进而使工程塑料与镁铝合金牢固结合。 | ||||||
| 12 | 电气设备 | CN201180040121.3 | 2011-08-03 | CN103053055A | 2013-04-17 | 竹村保彦; 森若圭惠 |
| 本发明的目的是提高用于电池的包含活性物质粒子等的电极的导电性。作为导电助剂使用包括1至10个石墨烯的二维碳,代替至多只一维延伸的以往使用的导电助剂诸如石墨粒子、乙炔黑或碳纤维等。二维延伸的导电助剂与活性物质粒子或其他导电助剂接触的概率较高,由此可以提高该导电性。 | ||||||
| 13 | 制造聚碳酸酯的方法以及其制品 | CN01814449.7 | 2001-08-10 | CN100338114C | 2007-09-19 | C·施维姆勒; T·埃尔斯纳; J·霍伊泽尔; C·科尔兹 |
| 本发明涉及由聚碳酸酯制造制品的方法及该制品本身。 | ||||||
| 14 | METHODS AND APPARATUS TO FORM VENTING CHANNELS ON A PANEL FOR A DECORATIVE LAYER | EP17163795.2 | 2017-03-30 | EP3251843A3 | 2018-04-04 | Wang, Xiaoxi |
Methods and apparatus to form venting channels on a panel for a decorative layer are disclosed. An example method includes contacting an outer surface of a tool (400) to an outer resin layer of a panel. The outer surface of the tool has protrusions (408). The example method includes moving the outer surface of the tool on the outer resin layer of the panel in a first direction to cause the protrusions of the tool to form first venting channels (300) on the outer resin layer of the panel and coupling a decorative layer (306) to the outer resin layer of the panel via an adhesive layer. The first venting channels are to vent at least one of gas or vapor away from the decorative layer to deter separation of a portion of the decorative layer from the outer resin layer.
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| 15 | GEL PULVERIZATION DEVICE, METHOD FOR MANUFACTURING POLYACRYLIC ACID (POLYACRYLATE) SUPERABSORBENT POLYMER POWDER, AND SUPERABSORBENT POLYMER POWDER | EP14839332.5 | 2014-08-28 | EP3040361A1 | 2016-07-06 | TORII, Kazushi; OMORI, Kohei; TANAKA, Nobuya; SAKAMOTO, Shigeru; TADA, Kenji; SATO, Hironori |
Provided is a water absorbent resin that is useful to sanitary materials such as a disposable diaper, a sanitary napkin, and a blood absorbent for medical use each having a higher liquid permeability and a higher water absorbing speed. Further provided is a water absorbent resin powder that is useful to sanitary materials such as a disposable diaper, a sanitary napkin, and a blood absorbent for medical use each having increased in absorbency of a liquid and in heat retaining property. A gel grinding device (100) to be used to produce a water absorbent resin, includes: a screw (11); a feed opening (14); an extrusion opening (16); a porous plate (12); and a barrel (13), the barrel (13) including a return preventing member (19) provided on an inner surface thereof, and the return preventing member (19) satisfying at least one of specific parameters. |
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| 16 | Defibration unit | US15473882 | 2017-03-30 | US09869057B2 | 2018-01-16 | Naotaka Higuchi; Toshiaki Yamagami; Nobumasa Abe |
| A defibration unit includes a rotating unit and a fixing unit. The rotating unit and the fixing unit are arranged so as to be apart from each other with a gap therebetween in a direction that intersects with a rotating shaft of the rotating unit. The fixing unit includes a plurality of plates that are layered in an axial direction of the rotating shaft, and the plates has a plurality of convexities that protrude at a side facing the rotating unit. | ||||||
| 17 | METHODS AND APPARATUS TO FORM VENTING CHANNELS ON A PANEL FOR A DECORATIVE LAYER | US15153324 | 2016-05-12 | US20170326858A1 | 2017-11-16 | Xiaoxi Wang |
| Methods and apparatus to form venting channels on a panel for a decorative layer are disclosed. An example method includes contacting an outer surface of a tool to an outer resin layer of a panel. The outer surface of the tool has protrusions. The example method includes moving the outer surface of the tool on the outer resin layer of the panel in a first direction to cause the protrusions of the tool to form first venting channels on the outer resin layer of the panel and coupling a decorative layer to the outer resin layer of the panel via an adhesive layer. The first venting channels are to vent at least one of gas or vapor away from the decorative layer to deter separation of a portion of the decorative layer from the outer resin layer. | ||||||
| 18 | SHEET MANUFACTURING APPARATUS AND DEFIBRATION UNIT | US15473882 | 2017-03-30 | US20170204562A1 | 2017-07-20 | Naotaka HIGUCHI; Toshiaki YAMAGAMI; Nobumasa ABE |
| A defibration unit includes a rotating unit and a fixing unit. The rotating unit and the fixing unit are arranged so as to be apart from each other with a gap therebetween in a direction that intersects with a rotating shaft of the rotating unit. The fixing unit includes a plurality of plates that are layered in an axial direction of the rotating shaft, and the plates has a plurality of convexities that protrude at a side facing the rotating unit. | ||||||
| 19 | SHEET MANUFACTURING APPARATUS AND DEFIBRATING UNIT | US15473847 | 2017-03-30 | US20170204561A1 | 2017-07-20 | Naotaka HIGUCHI; Toshiaki YAMAGAMI; Nobumasa ABE |
| A defibrating unit includes a rotating unit and a fixing unit. The rotating unit and the fixing unit are arranged so as to be apart from each other with a gap therebetween in an intersecting direction that intersects with a rotating shaft of the rotating unit. The rotating unit includes a surface that stands up along an axial direction of the rotating shaft and that is arranged on a side section in the axial direction and arranged at a side where a defibration object is introduced. The fixing unit includes a plurality of plates that are layered in the axial direction, and the plates has a plurality of convexities that protrude at a side facing the rotating unit. | ||||||
| 20 | Sheet manufacturing apparatus and defibrating unit | US15219920 | 2016-07-26 | US09644316B2 | 2017-05-09 | Naotaka Higuchi; Toshiaki Yamagami; Nobumasa Abe |
| A sheet manufacturing apparatus includes a defibrating unit and a sheet forming unit. The defibrating unit includes a rotating unit and a housing, and is configured to carry out a dry-type defibrating process by rotating the rotating unit. The housing includes a cover portion and a fixing unit attached to the cover portion and spaced apart from the rotating unit in a direction perpendicular to an axial direction of the rotating unit so as to form a gap between the rotating unit and the fixing unit. The sheet forming unit is configured to form a sheet by accumulating defibrated material. The rotating unit includes a rotor having protruding sections on an outer circumference of the rotor, and a feeding blade arranged on a side section of the rotor on a side of an input section for the defibration object and configured to generate a flow of air. | ||||||
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