专利检索 ap:("Alexis Clare" OR "Wesley King" OR "Ian Grainge Clarke") AND inv:"Wesley King" 第 1 页

1.

发明授权
Fluorophosphate splice glass for joining optical fibers 失效
标题翻译：用于连接光纤的氟磷酸盐接合玻璃

公开(公告)号：US06277776B1

公开(公告)日：2001-08-21

申请号：US09337470

申请日：1999-06-21

申请人： Alexis Clare , Wesley King , Ian Grainge Clarke

发明人： Alexis Clare , Wesley King , Ian Grainge Clarke

IPC分类号： C03C3247

CPC分类号： C03C3/247 , C03C8/24 , G02B6/2551 , Y10S501/90

摘要： A low temperature fluorophosphate glass useful for joining single-mode fluoride and silica optical fibers includes 5 to 7 mol % InF3, 20 to 35 mol % PbF2 and 57.5 to 75 mol % P2O5. An alkali for maintaining a low glass transition temperature can be included. Up to 25% (glass molar basis) of the P2O5 can be replaced by PbO.

摘要翻译： 用于连接单模氟化物和二氧化硅光纤的低温氟磷酸盐玻璃包括5至7mol％的InF 3，20至35mol％的PbF 2和57.5至75mol％的P 2 O 5。可以包括用于保持低玻璃化转变温度的碱。高达25％（玻璃摩尔）的P2O5可以被PbO替代。

2.

发明申请
Optically encoded glass-coated microwire 审中-公开
标题翻译：光学编码玻璃涂层微丝

公开(公告)号：US20060266543A1

公开(公告)日：2006-11-30

申请号：US11474775

申请日：2006-06-26

申请人： Alexis Clare , Wesley King , William LaCourse , Howard Liebermann , James O'Keefe

发明人： Alexis Clare , Wesley King , William LaCourse , Howard Liebermann , James O'Keefe

IPC分类号： H01B7/00 , H01R43/00

CPC分类号： G06K19/06018 , G06K19/06187 , Y10T29/49117 , Y10T29/49194

摘要： A drawn glass-coated metallic member has a thermal contraction coefficient differential such that the thermal contraction coefficient of the glass is less than that of the metallic member. The thermal contraction coefficient differential is maintained within a predetermined range during drawing. Drawn glass is placed under residual compression, interfacial bonding between said glass and said wire is substantially uniform, and surface cracking and bond breaks between metal and glass are substantially prevented. Optical properties of the glass coated microwire provide a basis for enabling multi-bit encoding capability. Advantageously data encoding is achieved optically, magneto-optically or using a combined magnetic and optical encoding mechanism. The duplex material constitution of the glass coated microwire permits imparting of data thereon by selection and processing of the glass. Data implantation is readily achieved in-line, during an initial drawing operation, or as a separate post-draw process. Reading of data on optically encoded glass coated microwire is readily accomplished by optical or magnetic methodology, or a combination thereof.

摘要翻译： 拉制的玻璃涂覆的金属构件具有热收缩系数差，使得玻璃的热收缩系数小于金属构件的热收缩系数。在拉伸期间，热收缩系数差保持在预定范围内。拉制玻璃被置于残余压缩之下，所述玻璃和所述丝之间的界面结合基本上是均匀的，并且基本上防止了金属和玻璃之间的表面开裂和结合断裂。玻璃涂层微丝的光学性质为实现多位编码能力提供了基础。有利地，光学，磁光学或使用组合的磁和光编码机构实现数据编码。玻璃涂布的微线的双面材料构成允许通过玻璃的选择和处理在其上赋予数据。在初始绘图操作期间，或者作为单独的后绘制过程，数据注入很容易在线实现。通过光学或磁性方法或其组合容易地实现对光学编码的玻璃包覆微丝的数据的读取。

3.

发明申请
Optically encoded glass-coated microwire 失效

公开(公告)号：US20060086528A1

公开(公告)日：2006-04-27

申请号：US10972549

申请日：2004-10-25

申请人： Alexis Clare , Wesley King , William LaCourse , Howard Liebermann , James O' Keefe

发明人： Alexis Clare , Wesley King , William LaCourse , Howard Liebermann , James O' Keefe

IPC分类号： H01B7/00

CPC分类号： G06K19/06018 , G06K19/06187 , Y10T29/49117 , Y10T29/49194

摘要： A drawn glass-coated metallic member has a thermal contraction coefficient differential such that the thermal contraction coefficient of the glass is less than that of the metallic member. The thermal contraction coefficient differential is maintained within a predetermined range during drawing. Drawn glass is placed under residual compression, interfacial bonding between said glass and said wire is substantially uniform, and surface cracking and bond breaks between metal and glass are substantially prevented. Optical properties of the glass coated microwire provide a basis for enabling multi-bit encoding capability. Advantageously data encoding is achieved optically, magneto-optically or using a combined magnetic and optical encoding mechanism. The duplex material constitution of the glass coated microwire permits imparting of data thereon by selection and processing of the glass. Data implantation is readily achieved in-line, during an initial drawing operation, or as a separate post-draw process. Reading of data on optically encoded glass coated microwire is readily accomplished by optical or magnetic methodology, or a combination thereof.

4.

发明申请
Multi-bit encoded glass-coated microwire and articles composed thereof 失效
标题翻译：多位编码的玻璃包覆微丝及其制品

公开(公告)号：US20050109435A1

公开(公告)日：2005-05-26

申请号：US10935258

申请日：2004-09-07

申请人： Howard Liebermann , William LaCourse , Alexis Clare , Wesley King , James O'Keefe

发明人： Howard Liebermann , William LaCourse , Alexis Clare , Wesley King , James O'Keefe

IPC分类号： G06K20060101 , G06K19/06 , H01F1/09 , H01F1/38

CPC分类号： G06K19/06018 , G06K19/06046 , G06K19/06187 , G06K19/06196 , Y10T428/12465 , Y10T428/2935 , Y10T428/2938 , Y10T428/2949

摘要： A glass-coated amorphous metallic microwire is encoded with multi-bit digital information. Encoding is achieved magnetically, optically or through a combination of magnetic and optical encoding processes. Magnetic encoding is carried out by modifying the constituent magnetic domain structure through selective relief of interfacial stress between the glass coating and the amorphous metallic alloy core. It is also achieved by selective surface crystallization of the amorphous metallic core in order to produce a controlled magnetic bias field. Optical encoding is associated with the glass coating. It is readily achieved by fluorescent element deposition, patterned removal of fluorescent element coating, Bragg grating, and thermally activated pattern deposition. The magnetic and optical multi-bit encoding approaches for glass-coated amorphous metallic microwire can be used individually or collectively in either a redundant or a complementary manner. Encoded microwire of the instant invention can be assembled into tags for electronic article surveillance and into numerous other structures as well.

摘要翻译： 用多位数字信息编码玻璃涂层的非晶态金属微丝。编码是通过磁学，光学或通过磁和光编码过程的组合实现的。通过选择性地避免玻璃涂层和非晶金属合金芯之间的界面应力来改变构成磁畴结构来进行磁编码。也可以通过非晶金属芯的选择性表面结晶来实现，以产生受控的磁偏置场。光学编码与玻璃涂层有关。通过荧光元件沉积，荧光元件涂层的图案化去除，布拉格光栅和热激活图案沉积容易实现。用于玻璃涂覆的非晶金属微丝的磁和光多位编码方法可以单独使用或以多余或互补的方式共同使用。本发明的编码微线可以组装成用于电子物品监视的标签以及许多其它结构。

5.

发明申请
GROUTLESS TILE SYSTEM AND METHOD FOR MAKING THE SAME 审中-公开
标题翻译：无缝系统及其制造方法

公开(公告)号：US20120085055A1

公开(公告)日：2012-04-12

申请号：US13328328

申请日：2011-12-16

申请人： David Earl , Tom Alford , Rahul Patki , Wesley King , Mark Cappelle

发明人： David Earl , Tom Alford , Rahul Patki , Wesley King , Mark Cappelle

IPC分类号： E04C2/38 , B29C45/14 , E04C2/20

CPC分类号： E04F13/14 , E04F15/087 , E04F2201/0115 , E04F2201/0161

摘要： A groutless tile system including groutless tiles, wherein each groutless tile includes a substrate, a durable surface disposed within a groove defined by the substrate, the durable surface having bottom surface, and a first coupling member disposed on an edge of the substrate. The first coupling member comprises a first bendable portion and a groove, the groove having an upper surface and a lower surface. The bottom surface of the durable surface is substantially coplanar with a point between the upper and lower surfaces of the groove. The polymer matrix forming at least a portion of the substrate can be modified to reduce the weight of the groutless tile or the cost to manufacture the groutless tile. In some embodiments, the polymer matrix is modified through the use of gas nucleation or a blowing agent.

摘要翻译： 一种无灌浆砖系统，包括无灌浆砖，其中每个无灌浆砖包括基材，设置在由所述基材限定的凹槽内的耐用表面，所述耐用表面具有底表面，以及设置在所述基材的边缘上的第一连接构件。第一联接构件包括第一可弯曲部分和凹槽，该凹槽具有上表面和下表面。耐用表面的底表面与凹槽的上表面和下表面之间的点基本共面。形成基材的至少一部分的聚合物基体可以被修改以减小无灌浆砖的重量或制造无灌浆砖的成本。在一些实施方案中，通过使用气体成核或发泡剂改性聚合物基质。