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11. 发明授权

US07354626B1 Method for increasing fiber density in electrostatic flocking 有权
标题翻译：提高静电植绒纤维密度的方法
公开(公告)号：US07354626B1
公开(公告)日：2008-04-08
申请号：US11586277
申请日：2006-10-26
申请人： Charles J. Patrissi , Russell R. Bessette , Louis G. Carreiro , Yong K. Kim , Thomas M. Arruda , Craig M. Deschenes
发明人： Charles J. Patrissi , Russell R. Bessette , Louis G. Carreiro , Yong K. Kim , Thomas M. Arruda , Craig M. Deschenes
IPC分类号： B05D1/14
CPC分类号： B05D1/16 , B05D1/007 , D04H11/00 , H01M4/8803 , H01M12/04
摘要： A direct charging electrostatic flocking method is provided for the fabrication of a fibrous structure. Fibers are deposited directly on a first electrically conductive surface while a second electrically conductive surface with an adhesive thereon is disposed over the first surface. A vacuum is created in the space between the first electrically conductive surface and the second electrically conductive surface. The vacuum is then filled with sulfur hexafluoride gas. An electric field is generated between the first and second electrically conductive surfaces. The fibers leave the first electrically conductive surface, accelerate through the electric field and sulfur hexafluoride gas, and are coupled on one end thereof to the adhesive. As a result of using sulfur hexafluoride rather than air there is an increase in fiber density of the fibrous structure.
摘要翻译：提供了用于制造纤维结构体的直接充电静电植绒方法。纤维直接沉积在第一导电表面上，而具有粘合剂的第二导电表面设置在第一表面上。在第一导电表面和第二导电表面之间的空间中产生真空。然后用六氟化硫气体填充真空。在第一和第二导电表面之间产生电场。纤维离开第一导电表面，加速穿过电场和六氟化硫气体，并在其一端耦合到粘合剂。作为使用六氟化硫而不是空气的结果，纤维结构的纤维密度增加。

12. 发明授权

US07906340B2 Method for quantitative determination of hydrogen peroxide using potentiometric titration 有权
标题翻译：使用电位滴定法定量测定过氧化氢的方法
公开(公告)号：US07906340B2
公开(公告)日：2011-03-15
申请号：US12386183
申请日：2009-04-10
申请人： Charles J. Patrissi , Russell R. Bessette
发明人： Charles J. Patrissi , Russell R. Bessette
IPC分类号： G01N31/16
CPC分类号： G01N31/164 , Y10S436/806 , Y10T436/206664 , Y10T436/208339 , Y10T436/25 , Y10T436/25625
摘要： An electrochemical potentiometric titration method that entails titration of a known volume of a catholyte containing an unknown amount of hydrogen peroxide in a titration cell having two electrodes, a platinum working electrode and a silver/silver chloride reference electrode. A known concentration of a titrant is added to the catholyte in the titration cell. Simultaneously, as the titrant is added the potential between the working electrode and the reference electrode is monitored. The point at which all of the hydrogen peroxide has been consumed is signaled when the cell potential changes abruptly. Since the concentration of the titrant is already known, the amount of titrant added (concentration multiplied by volume) is directly related to the amount of hydrogen peroxide consumed. The concentration of hydrogen peroxide is calculated from the volume of catholyte and the moles of hydrogen peroxide.
摘要翻译：一种电化学电位滴定法，其包括在具有两个电极，铂工作电极和银/氯化银参比电极的滴定池中滴定含有未知量的过氧化氢的已知体积的阴极电解液。将已知浓度的滴定剂加入到滴定池中的阴极电解液中。同时，当添加滴定剂时，监测工作电极和参比电极之间的电位。当细胞电位突然变化时，发出了所有过氧化氢消耗的点。由于滴定剂的浓度已知，滴定剂的添加量（浓度乘以体积）与消耗的过氧化氢的量直接相关。过氧化氢的浓度由阴极电解液的体积和过氧化氢的摩尔数计算。

13. 发明申请

US20090282898A1 Method for quantitative determination of hydrogen peroxide using potentiometric titration 有权
标题翻译：使用电位滴定法定量测定过氧化氢的方法
公开(公告)号：US20090282898A1
公开(公告)日：2009-11-19
申请号：US12386183
申请日：2009-04-10
申请人： Charles J. Patrissi , Russell R. Bessette
发明人： Charles J. Patrissi , Russell R. Bessette
IPC分类号： G01N7/00
CPC分类号： G01N31/164 , Y10S436/806 , Y10T436/206664 , Y10T436/208339 , Y10T436/25 , Y10T436/25625
摘要： An electrochemical potentiometric titration method that entails titration of a known volume of a catholyte containing an unknown amount of hydrogen peroxide in a titration cell having two electrodes, a platinum working electrode and a silver/silver chloride reference electrode. A known concentration of a titrant is added to the catholyte in the titration cell. Simultaneously, as the titrant is added the potential between the working electrode and the reference electrode is monitored. The point at which all of the hydrogen peroxide has been consumed is signaled when the cell potential changes abruptly. Since the concentration of the titrant is already known, the amount of titrant added (concentration multiplied by volume) is directly related to the amount of hydrogen peroxide consumed. The concentration of hydrogen peroxide is calculated from the volume of catholyte and the moles of hydrogen peroxide.
摘要翻译：一种电化学电位滴定法，其包括在具有两个电极，铂工作电极和银/氯化银参比电极的滴定池中滴定含有未知量的过氧化氢的已知体积的阴极电解液。将已知浓度的滴定剂加入到滴定池中的阴极电解液中。同时，当添加滴定剂时，监测工作电极和参比电极之间的电位。当细胞电位突然变化时，发出了所有过氧化氢消耗的点。由于滴定剂的浓度已知，滴定剂的添加量（浓度乘以体积）与消耗的过氧化氢的量直接相关。过氧化氢的浓度由阴极电解液的体积和过氧化氢的摩尔数计算。

14. 发明授权

US07534394B1 Potentiometric titration method for quantitative determination of hydrogen peroxide 失效
标题翻译：用于定量测定过氧化氢的电位滴定法
公开(公告)号：US07534394B1
公开(公告)日：2009-05-19
申请号：US11183311
申请日：2005-07-11
申请人： Charles J. Patrissi , Russell R. Bessette
发明人： Charles J. Patrissi , Russell R. Bessette
IPC分类号： G01N27/02 , G01N27/413 , G01N31/16 , G01N31/18
CPC分类号： G01N31/164 , Y10S436/806 , Y10T436/206664 , Y10T436/208339 , Y10T436/25 , Y10T436/25625
摘要： An electrochemical potentiometric titration method that entails titration of a known volume of a catholyte containing an unknown amount of hydrogen peroxide in a titration cell having two electrodes, a platinum working electrode and a silver/silver chloride reference electrode. A known concentration of a titrant is added to the catholyte in the titration cell. Simultaneously, as the titrant is added the potential between the working electrode and the reference electrode is monitored. The point at which all of the hydrogen peroxide has been consumed is signaled when the cell potential changes abruptly. Since the concentration of the titrant is already known, the amount of titrant added (concentration multiplied by volume) is directly related to the amount of hydrogen peroxide consumed. The concentration of hydrogen peroxide is calculated from the volume of catholyte and the moles of hydrogen peroxide.
摘要翻译：一种电化学电位滴定法，其包括在具有两个电极，铂工作电极和银/氯化银参比电极的滴定池中滴定含有未知量的过氧化氢的已知体积的阴极电解液。将已知浓度的滴定剂加入到滴定池中的阴极电解液中。同时，当添加滴定剂时，监测工作电极和参比电极之间的电位。当细胞电位突然变化时，发出了所有过氧化氢消耗的点。由于滴定剂的浓度已知，滴定剂的添加量（浓度乘以体积）与消耗的过氧化氢的量直接相关。过氧化氢的浓度由阴极电解液的体积和过氧化氢的摩尔数计算。

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