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1. 发明授权

US07801268B1 Nondestructive method of measuring a region within an ultra-hard polycrystalline construction 有权
标题翻译：测量超硬多晶结构区域的非破坏性方法
公开(公告)号：US07801268B1
公开(公告)日：2010-09-21
申请号：US12498239
申请日：2009-07-06
申请人： Nephi Mourik , Ronald K. Eyre
发明人： Nephi Mourik , Ronald K. Eyre
IPC分类号： G01B15/02
CPC分类号： G01B15/02
摘要： Methods for nondestructively measuring a characteristic within an ultra-hard polycrystalline construction comprises projecting a beam of energy from an emitter onto the construction. The energy is directed to a target region within the ultra-hard polycrystalline construction and passes through the construction where it is received by a detector. The target region can be within a diamond body of the construction, and can relate to an interface between two or more regions within the diamond body. The energy that is received by the detector is evaluated for the purpose of determining the desired measurement characteristic. In an example embodiment, the measured characteristic can be the interface of between two or more regions and the distance from a surface of the construction to the interface. The method can be used to generate an average distance within the construction, and to provide a visual image of the same in a nondestructive manner.
摘要翻译：用于非破坏性地测量超硬多晶结构中的特性的方法包括将能量束从发射器投射到构造上。能量被引导到超硬多晶结构内的目标区域，并且通过由检测器接收的结构。目标区域可以在结构的金刚石体内，并且可以涉及金刚石体内的两个或更多个区域之间的界面。为了确定期望的测量特性，评估由检测器接收的能量。在示例性实施例中，测量的特性可以是两个或更多个区域之间的界面以及从构造表面到界面的距离。该方法可用于在该结构内生成平均距离，并且以非破坏性的方式提供该视觉图像。

2. 发明授权

US07558369B1 Nondestructive method of measuring a region within an ultra-hard polycrystalline construction 有权
标题翻译：测量超硬多晶结构区域的非破坏性方法
公开(公告)号：US07558369B1
公开(公告)日：2009-07-07
申请号：US11745975
申请日：2007-05-08
申请人： Nephi Mourik , Ronald K. Eyre
发明人： Nephi Mourik , Ronald K. Eyre
IPC分类号： G01B15/02
CPC分类号： G01B15/02
摘要： Methods for nondestructively measuring a characteristic within an ultra-hard polycrystalline construction comprises projecting a beam of energy from an emitter onto the construction. The energy is directed to a target region within the ultra-hard polycrystalline construction and passes through the construction where it is received by a detector. The target region can be within a diamond body of the construction, and can relate to an interface between two or more regions within the diamond body. The energy that is received by the detector is evaluated for the purpose of determining the desired measurement characteristic. In an example embodiment, the measured characteristic can be the interface of between two or more regions and the distance from a surface of the construction to the interface. The method can be used to generate an average distance within the construction, and to provide a visual image of the same in a nondestructive manner.
摘要翻译：用于非破坏性地测量超硬多晶结构中的特性的方法包括将能量束从发射器投射到构造上。能量被引导到超硬多晶结构内的目标区域，并且通过由检测器接收的结构。目标区域可以在结构的金刚石体内，并且可以涉及金刚石体内的两个或更多个区域之间的界面。为了确定期望的测量特性，评估由检测器接收的能量。在示例性实施例中，测量的特性可以是两个或更多个区域之间的界面以及从构造表面到界面的距离。该方法可用于在该结构内生成平均距离，并且以非破坏性的方式提供该视觉图像。

3. 发明授权

US07616734B1 Multi-step method of nondestructively measuring a region within an ultra-hard polycrystalline construction 有权
标题翻译：在超硬多晶结构中非破坏性测量区域的多步法
公开(公告)号：US07616734B1
公开(公告)日：2009-11-10
申请号：US11745958
申请日：2007-05-08
申请人： Loel Gene Corbett , Nephi Mourik
发明人： Loel Gene Corbett , Nephi Mourik
IPC分类号： G01N23/223
CPC分类号： G01N23/223 , G01N2223/076
摘要： A method for nondestructively obtaining measurement information of a region within one or more ultra-hard polycrystalline constructions comprises conducing a first measurement using x-ray fluorescence by directing x-rays onto a surface of the diamond body, receiving x-ray fluorescence from the diamond body, and deriving measurement information regarding the region therefrom. A second method can be used on the same or other ultra-hard polycrystalline constructions to obtain measurement information regarding the region in a manner that is relatively more time efficient than the first method to facilitate use of the measurement method on a large number of constructions. The second measurement can be selected from the group including beta backscatter, x-ray radioscopy, eddy current, magnetic induction, and microresistance. In an example embodiment, the method is used to determine the thickness of a region within the diamond body that comprises less catalyst material than another region within the body.
摘要翻译：用于非破坏性地获得一个或多个超硬多晶结构内的区域的测量信息的方法包括通过将x射线引导到金刚石体的表面上来进行使用x射线荧光的第一测量，从金刚石接收x射线荧光并且从其导出关于该区域的测量信息。可以在相同或其它超硬多晶结构上使用第二种方法，以相对于第一种方法相对更有效地获得关于该区域的测量信息，以方便在大量结构上使用测量方法。第二测量可以从包括β反向散射，x射线透视，涡流，磁感应和微电阻的组中选择。在一个示例性实施例中，该方法用于确定金刚石体内的区域的厚度，其包含比体内另一区域更少的催化剂材料。

4. 发明授权

US06820704B2 Rock bit seal with extrusion prevention member 有权
标题翻译：带挤压防止构件的石头密封
公开(公告)号：US06820704B2
公开(公告)日：2004-11-23
申请号：US10212417
申请日：2002-08-05
申请人： Nephi Mourik , Chris Cawthorne
发明人： Nephi Mourik , Chris Cawthorne
IPC分类号： E21B1022
CPC分类号： E21B10/25
摘要： Annular seals of this invention comprise an elastomeric seal body that is configured to fit within a seal gland of a rock bit. The seal comprises a first seal surface, for providing a seal along a dynamic rotary surface formed between the seal body and one portion of the rock bit, and a second seal surface, for providing a seal between the seal body and another portion of the rock bit. The annular seal further comprises an extrusion prevention member that is positioned adjacent a surface of the seal body between the first and second seal surfaces. The extrusion prevention member can be integral, partially-attached, or independent of the seal body. The extrusion prevention member is preferably formed from a material having a hardness that is greater than that of the seal body. The member is positioned along the seal body at a location adjacent a groove, formed between opposed members of the rock bit, to act as a physical barrier to prevent the seal from being extruded therethrough.
摘要翻译：本发明的环形密封件包括弹性体密封体，其构造成装配在岩石钻头的密封盖内。密封件包括第一密封表面，用于沿着形成在密封体和岩石钻头的一部分之间的动态旋转表面提供密封，以及第二密封表面，用于在密封体和岩石的另一部分之间提供密封位。环形密封件还包括挤出防止构件，该挤出防止构件邻近第一和第二密封表面之间的密封体的表面定位。挤出防止构件可以是一体的，部分地附接的或独立于密封体。挤出防止构件优选由硬度大于密封体的硬度的材料形成。构件沿着密封体定位在邻近凹槽的位置处，形成在岩石钻头的相对构件之间，以用作物理屏障以防止密封件从其中挤出。

5. 发明授权

US08056650B2 Thermally stable ultra-hard material compact construction 有权
标题翻译：热稳定超硬材料结构紧凑
公开(公告)号：US08056650B2
公开(公告)日：2011-11-15
申请号：US12942819
申请日：2010-11-09
申请人： Stewart N. Middlemiss , J. Daniel Belnap , Nephi Mourik , Thomas W. Oldham , Anthony Griffo
发明人： Stewart N. Middlemiss , J. Daniel Belnap , Nephi Mourik , Thomas W. Oldham , Anthony Griffo
IPC分类号： E21B10/46
CPC分类号： E21B10/567 , B22F7/062 , B22F2998/10 , C22C26/00 , E21B10/5735 , B22F3/14 , B22F3/10
摘要： Thermally stable ultra-hard compact constructions of this invention comprise an ultra-hard material body that includes a thermally stable region positioned adjacent a surface of the body. The thermally stable region is formed from consolidated materials that are thermally stable at temperatures greater than about 750° C. The thermally stable region can occupy a partial portion of or the entire ultra-hard material body. The ultra-hard material body can comprise a composite of separate ultra-hard material elements that each form different regions of the body, at least one of the regions being thermally stable. The ultra-hard material body is attached to a desired substrate, an intermediate material is interposed between the body and the substrate, and the intermediate material joins the substrate and body together by high pressure/high temperature process.
摘要翻译：本发明的热稳定的超硬结构包括超硬材料体，其包括邻近本体表面定位的热稳定区域。热稳定区域由在大于约750℃的温度下是热稳定的固结材料形成。热稳定区域可以占据超硬材料体的一部分或全部。超硬材料体可以包括单独的超硬材料元件的复合材料，其各自形成身体的不同区域，至少一个区域是热稳定的。超硬材料体附接到所需的基板上，中间材料插入在主体和基板之间，中间材料通过高压/高温工艺将基板和主体结合在一起。

6. 发明授权

US08014492B1 Multi-step method of nondestructively measuring a region within an ultra-hard polycrystalline construction 有权
标题翻译：在超硬多晶结构中非破坏性测量区域的多步法
公开(公告)号：US08014492B1
公开(公告)日：2011-09-06
申请号：US12615059
申请日：2009-11-09
申请人： Loel Gene Corbett , Nephi Mourik
发明人： Loel Gene Corbett , Nephi Mourik
IPC分类号： G01N23/223
CPC分类号： G01N23/223 , G01N2223/076
摘要： A method for nondestructively obtaining measurement information of a region within one or more ultra-hard polycrystalline constructions comprises conducting a first measurement using x-ray fluorescence by directing x-rays onto a surface of the diamond body, receiving x-ray fluorescence from the diamond body, and deriving measurement information regarding the region therefrom. A second method can be used on the same or other ultra-hard polycrystalline constructions to obtain measurement information regarding the region in a manner that is relatively more time efficient than the first method to facilitate use of the measurement method on a large number of constructions. The second measurement can be selected from the group including beta backscatter, x-ray radioscopy, eddy current, magnetic induction, and microresistance. In an example embodiment, the method is used to determine the thickness of a region within the diamond body that comprises less catalyst material than another region within the body.
摘要翻译：用于非破坏性地获得一个或多个超硬多晶结构内的区域的测量信息的方法包括使用x射线荧光通过将x射线引导到金刚石体的表面上进行第一次测量，从金刚石接收x射线荧光并且从其导出关于该区域的测量信息。可以在相同或其它超硬多晶结构上使用第二种方法，以相对于第一种方法相对更有效地获得关于该区域的测量信息，以方便在大量结构上使用测量方法。第二测量可以从包括β反向散射，x射线透视，涡流，磁感应和微电阻的组中选择。在一个示例性实施例中，该方法用于确定金刚石体内的区域的厚度，其包含比体内另一区域更少的催化剂材料。

7. 发明申请

US20110056753A1 Thermally Stable Ultra-Hard Material Compact Construction 有权
标题翻译：热稳定超硬材料紧凑结构
公开(公告)号：US20110056753A1
公开(公告)日：2011-03-10
申请号：US12942819
申请日：2010-11-09
申请人： Stewart N. Middlemiss , J. Daniel Belnap , Nephi Mourik , Thomas W. Oldham , Anthony Griffo
发明人： Stewart N. Middlemiss , J. Daniel Belnap , Nephi Mourik , Thomas W. Oldham , Anthony Griffo
IPC分类号： E21B10/36 , B24B5/00
CPC分类号： E21B10/567 , B22F7/062 , B22F2998/10 , C22C26/00 , E21B10/5735 , B22F3/14 , B22F3/10
摘要： Thermally stable ultra-hard compact constructions of this invention comprise an ultra-hard material body that includes a thermally stable region positioned adjacent a surface of the body. The thermally stable region is formed from consolidated materials that are thermally stable at temperatures greater than about 750° C. The thermally stable region can occupy a partial portion of or the entire ultra-hard material body. The ultra-hard material body can comprise a composite of separate ultra-hard material elements that each form different regions of the body, at least one of the regions being thermally stable. The ultra-hard material body is attached to a desired substrate, an intermediate material is interposed between the body and the substrate, and the intermediate material joins the substrate and body together by high pressure/high temperature process.
摘要翻译：本发明的热稳定的超硬结构包括超硬材料体，其包括邻近本体表面定位的热稳定区域。热稳定区域由在大于约750℃的温度下是热稳定的固结材料形成。热稳定区域可以占据超硬材料体的一部分或全部。超硬材料体可以包括单独的超硬材料元件的复合材料，其各自形成身体的不同区域，至少一个区域是热稳定的。超硬材料体附接到所需的基板上，中间材料插入在主体和基板之间，中间材料通过高压/高温工艺将基板和主体结合在一起。

8. 发明授权

US07828088B2 Thermally stable ultra-hard material compact construction 有权
标题翻译：热稳定超硬材料结构紧凑
公开(公告)号：US07828088B2
公开(公告)日：2010-11-09
申请号：US12127656
申请日：2008-05-27
申请人： Stewart N. Middlemiss , J. Daniel Belnap , Nephi Mourik , Thomas W. Oldham , Anthony Griffo
发明人： Stewart N. Middlemiss , J. Daniel Belnap , Nephi Mourik , Thomas W. Oldham , Anthony Griffo
IPC分类号： E21B10/26 , B24D3/00
CPC分类号： E21B10/567 , B22F7/062 , B22F2998/10 , C22C26/00 , E21B10/5735 , B22F3/14 , B22F3/10
摘要： Thermally stable ultra-hard compact constructions of this invention comprise an ultra-hard material body that includes a thermally stable region positioned adjacent a surface of the body. The thermally stable region is formed from consolidated materials that are thermally stable at temperatures greater than about 750° C. The thermally stable region can occupy a partial portion of or the entire ultra-hard material body. The ultra-hard material body can comprise a composite of separate ultra-hard material elements that each form different regions of the body, at least one of the regions being thermally stable. The ultra-hard material body is attached to a desired substrate, an intermediate material is interposed between the body and the substrate, and the intermediate material joins the substrate and body together by high pressure/high temperature process.
摘要翻译：本发明的热稳定的超硬结构包括超硬材料体，其包括邻近本体表面定位的热稳定区域。热稳定区域由在大于约750℃的温度下是热稳定的固结材料形成。热稳定区域可以占据超硬材料体的一部分或全部。超硬材料体可以包括单独的超硬材料元件的复合材料，其各自形成身体的不同区域，至少一个区域是热稳定的。超硬材料体附接到所需的基板上，中间材料插入在主体和基板之间，中间材料通过高压/高温工艺将基板和主体结合在一起。

9. 发明申请

US20060266558A1 Thermally stable ultra-hard material compact construction 有权
标题翻译：热稳定超硬材料结构紧凑
公开(公告)号：US20060266558A1
公开(公告)日：2006-11-30
申请号：US11140482
申请日：2005-05-26
申请人： Stewart Middlemiss , J. Belnap , Nephi Mourik , Thomas Oldham , Anthony Griffo
发明人： Stewart Middlemiss , J. Belnap , Nephi Mourik , Thomas Oldham , Anthony Griffo
IPC分类号： E21B10/36
CPC分类号： E21B10/567 , B22F7/062 , B22F2998/10 , C22C26/00 , E21B10/5735 , B22F3/14 , B22F3/10
摘要： Thermally stable ultra-hard compact constructions of this invention comprise an ultra-hard material body that includes a thermally stable region positioned adjacent a surface of the body. The thermally stable region is formed from consolidated materials that are thermally stable at temperatures greater than about 750° C. The thermally stable region can occupy a partial portion of or the entire ultra-hard material body. The ultra-hard material body can comprise a composite of separate ultra-hard material elements that each form different regions of the body, at least one of the regions being thermally stable. The ultra-hard material body is attached to a desired substrate, an intermediate material is interposed between the body and the substrate, and the intermediate material joins the substrate and body together by high pressure/high temperature process.
摘要翻译：本发明的热稳定的超硬结构包括超硬材料体，其包括邻近本体表面定位的热稳定区域。热稳定区域由在大于约750℃的温度下是热稳定的固结材料形成。热稳定区域可以占据超硬材料体的一部分或全部。超硬材料体可以包括单独的超硬材料元件的复合材料，其各自形成身体的不同区域，至少一个区域是热稳定的。超硬材料体附接到所需的基板上，中间材料插入在主体和基板之间，中间材料通过高压/高温工艺将基板和主体结合在一起。

10. 发明申请

US20080223621A1 THERMALLY STABLE ULTRA-HARD MATERIAL COMPACT CONSTRUCTION 有权
标题翻译：热稳定超硬材料紧凑型结构
公开(公告)号：US20080223621A1
公开(公告)日：2008-09-18
申请号：US12127656
申请日：2008-05-27
申请人： Stewart N. Middlemiss , J. Daniel Belnap , Nephi Mourik , Thomas W. Oldham , Anthony Griffo
发明人： Stewart N. Middlemiss , J. Daniel Belnap , Nephi Mourik , Thomas W. Oldham , Anthony Griffo
IPC分类号： E21B10/46
CPC分类号： E21B10/567 , B22F7/062 , B22F2998/10 , C22C26/00 , E21B10/5735 , B22F3/14 , B22F3/10
摘要： Thermally stable ultra-hard compact constructions of this invention comprise an ultra-hard material body that includes a thermally stable region positioned adjacent a surface of the body. The thermally stable region is formed from consolidated materials that are thermally stable at temperatures greater than about 750° C. The thermally stable region can occupy a partial portion of or the entire ultra-hard material body. The ultra-hard material body can comprise a composite of separate ultra-hard material elements that each form different regions of the body, at least one of the regions being thermally stable. The ultra-hard material body is attached to a desired substrate, an intermediate material is interposed between the body and the substrate, and the intermediate material joins the substrate and body together by high pressure/high temperature process.
摘要翻译：本发明的热稳定的超硬结构包括超硬材料体，其包括邻近本体表面定位的热稳定区域。热稳定区域由在大于约750℃的温度下是热稳定的固结材料形成。热稳定区域可以占据超硬材料体的一部分或全部。超硬材料体可以包括单独的超硬材料元件的复合材料，其各自形成身体的不同区域，至少一个区域是热稳定的。超硬材料体附接到所需的基板上，中间材料插入在主体和基板之间，中间材料通过高压/高温工艺将基板和主体结合在一起。

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