-
公开(公告)号:US06902661B2
公开(公告)日:2005-06-07
申请号:US10885527
申请日:2004-07-06
CPC分类号: G01N17/02
摘要: A system using tank corrosion sensors to provide for an overall assessment and monitoring of the electro-chemical corrosion and coatings condition in ships' tanks, and particularly in ships' seawater or compensated fuel tanks. The system includes reference half-cells mounted along a suspended cable and one instrumented sacrificial anode at the end of the cable to provide optimal sensing capability within a tank structure. The reference half-cells and the sacrificial anode measure a potential and current output, respectively. Together the measurements provide objective information that can be used to predict corrosion damage and coating deterioration occurring throughout the structure of the tank. The system may be used for an overall assessment and monitoring of the electrochemical corrosion and coatings condition. In a preferred embodiment, the measurements are stored in a datalogger that is optimally contained within an associated instrument housing. If used with other systems in other tanks, the system may be used to monitor the relative tank condition, trend tank condition changes over time, range tank behavior into three categories and provide a direct analysis methodology for making tank maintenance decisions.
摘要翻译: 一种使用罐式腐蚀传感器的系统,用于对船舶坦克,特别是船舶的海水或补偿油箱中的电化学腐蚀和涂层状况进行总体评估和监测。 该系统包括沿着悬挂的电缆安装的参考半电池和在电缆端部的一个仪表化的牺牲阳极,以在罐结构内提供最佳的感测能力。 参考半电池和牺牲阳极分别测量电位和电流输出。 测量结果一起提供可用于预测在整个罐体结构中发生的腐蚀损伤和涂层变质的客观信息。 该系统可用于电化学腐蚀和涂层状况的总体评估和监测。 在优选实施例中,测量被存储在最佳地包含在相关联的仪器外壳内的数据记录器中。 如果与其他坦克中的其他系统一起使用,系统可用于监测相对油箱状况,趋势油箱状况随时间变化,将油罐行为范围分为三类,并提供油罐维修决策的直接分析方法。
-
公开(公告)号:US06896779B2
公开(公告)日:2005-05-24
申请号:US10857369
申请日:2004-05-21
CPC分类号: G01N17/02
摘要: A system using tank corrosion sensors to provide for an overall assessment and monitoring of the electro-chemical corrosion and coatings condition in ships' tanks, and particularly in ships' seawater or compensated fuel tanks. The system includes reference half-cells mounted along a suspended cable and one instrumented sacrificial anode at the end of the cable to provide optimal sensing capability within a tank structure. The reference half-cells and the sacrificial anode measure a potential and current output, respectively. Together the measurements provide objective information that can be used to predict corrosion damage and coating deterioration occurring throughout the structure of the tank. The system may be used for an overall assessment and monitoring of the electro-chemical corrosion and coatings condition. In a preferred embodiment, the measurements are stored in a datalogger that is optimally contained within an associated instrument housing. If used with other systems in other tanks, the system may be used to monitor the relative tank condition, trend tank condition changes over time, range tank behavior into three categories and provide a direct analysis methodology for making tank maintenance decisions.
摘要翻译: 一种使用罐式腐蚀传感器的系统,用于对船舶坦克,特别是船舶的海水或补偿油箱中的电化学腐蚀和涂层状况进行总体评估和监测。 该系统包括沿着悬挂的电缆安装的参考半电池和在电缆端部的一个仪表化的牺牲阳极,以在罐结构内提供最佳的感测能力。 参考半电池和牺牲阳极分别测量电位和电流输出。 测量结果一起提供可用于预测在整个罐体结构中发生的腐蚀损伤和涂层变质的客观信息。 该系统可用于对电化学腐蚀和涂层状况进行总体评估和监测。 在优选实施例中,测量被存储在最佳地包含在相关联的仪器外壳内的数据记录器中。 如果与其他坦克中的其他系统一起使用,系统可用于监测相对油箱状况,趋势油箱状况随时间变化,将油罐行为范围分为三类,并提供油罐维修决策的直接分析方法。
-
公开(公告)号:US06809506B2
公开(公告)日:2004-10-26
申请号:US09816148
申请日:2001-03-26
IPC分类号: G01N2700
CPC分类号: G01N17/02
摘要: A system using tank corrosion sensors to provide for an overall assessment and monitoring of the electro-chemical corrosion and coatings condition in ships' tanks, and particularly in ships' seawater or compensated fuel tanks. The system includes reference half-cells mounted along a suspended cable and one instrumented sacrificial anode at the end of the cable to provide optimal sensing capability within a tank structure. The reference half-cells and the sacrificial anode measure a potential and current output, respectively. Together the measurements provide objective information that can be used to predict corrosion damage and coating deterioration occurring throughout the structure of the tank. The system may be used for an overall assessment and monitoring of the electro-chemical corrosion and coatings condition. In a preferred embodiment, the measurements are stored in a datalogger that is optimally contained within an associated instrument housing. If used with other systems in other tanks, the system may be used to monitor the relative tank condition, trend tank condition changes over time, range tank behavior into three categories and provide a direct analysis methodology for making tank maintenance decisions.
摘要翻译: 一种使用罐式腐蚀传感器的系统,用于对船舶坦克,特别是船舶的海水或补偿油箱中的电化学腐蚀和涂层状况进行总体评估和监测。 该系统包括沿着悬挂的电缆安装的参考半电池和在电缆端部的一个仪表化的牺牲阳极,以在罐结构内提供最佳的感测能力。 参考半电池和牺牲阳极分别测量电位和电流输出。 测量结果一起提供可用于预测在整个罐体结构中发生的腐蚀损伤和涂层变质的客观信息。 该系统可用于对电化学腐蚀和涂层状况进行总体评估和监测。 在优选实施例中,测量被存储在最佳地包含在相关联的仪器外壳内的数据记录器中。 如果与其他坦克中的其他系统一起使用,系统可用于监测相对油箱状况,趋势油箱状况随时间变化,将油罐行为范围分为三类,并提供油罐维修决策的直接分析方法。
-
公开(公告)号:US20120071582A1
公开(公告)日:2012-03-22
申请号:US12887546
申请日:2010-09-22
申请人: Erick B. IEZZI , James R. Martin , Paul Slebodnick
发明人: Erick B. IEZZI , James R. Martin , Paul Slebodnick
IPC分类号: C08J5/14
CPC分类号: C09D163/00 , C08G77/26 , C08K5/544 , C09D183/08 , C09K3/149 , C08L83/04 , C08L63/00
摘要: A non-skid coating described herein attempts to overcome the deficiencies of the conventional coatings with improved external durability and color retention, a reduced level of VOCs, and direct-to-metal (DTM) adhesion using organo-siloxane chemistry. The non-skid coating has a first component having an amino-functional siloxane resin; a second component having a non-aromatic epoxy resin; a spherical filler for lowering viscosity; a pigment; a coarse aggregate; and a thixotropic agent. The amino-functional siloxane resin can be an amino-functional methyl phenyl polysiloxane, diphenyl polysiloxane or silsesquioxane-based resin. The non-aromatic epoxy resin can be cycloaliphatic or aliphatic. The first component is about 5% to 20% weight of the coating, and the second component is about 80% to 95% weight of the coating.
摘要翻译: 本文所述的防滑涂层试图通过改进的外部耐久性和保色性,降低的VOC水平和使用有机硅氧烷化学的直接与金属(DTM)粘合来克服常规涂层的缺陷。 防滑涂层具有具有氨基官能的硅氧烷树脂的第一组分; 具有非芳族环氧树脂的第二组分; 用于降低粘度的球形填料; 颜料; 粗骨料 和触变剂。 氨基官能的硅氧烷树脂可以是氨基官能的甲基苯基聚硅氧烷,二苯基聚硅氧烷或倍半硅氧烷基树脂。 非芳族环氧树脂可以是脂环族或脂肪族的。 第一组分为涂料的约5重量%至20重量%,第二组分为涂料的约80重量%至95重量%。
-
公开(公告)号:US20120238666A1
公开(公告)日:2012-09-20
申请号:US13463807
申请日:2012-05-03
申请人: Erick B. Iezzi , James R. Martin , Paul Slebodnick
发明人: Erick B. Iezzi , James R. Martin , Paul Slebodnick
IPC分类号: C09D163/00
CPC分类号: C09D163/00 , C08G77/26 , C08K5/544 , C09D183/08 , C09K3/149 , C08L83/04 , C08L63/00
摘要: A non-skid coating described herein attempts to overcome the deficiencies of the conventional coatings with improved external durability and color retention, a reduced level of VOCs, and direct-to-metal (DTM) adhesion using organo-siloxane chemistry. The non-skid coating has a first component having an amino-functional siloxane resin; a second component having a non-aromatic epoxy resin; a spherical filler for lowering viscosity; a pigment; a coarse aggregate; and a thixotropic agent. The amino-functional siloxane resin can be an amino-functional methyl phenyl polysiloxane, diphenyl polysiloxane or silsesquioxane-based resin. The non-aromatic epoxy resin can be cycloaliphatic or aliphatic. The first component is about 5% to 20% weight of the coating, and the second component is about 80% to 95% weight of the coating.
摘要翻译: 本文所述的防滑涂层试图通过改进的外部耐久性和保色性,降低的VOC水平和使用有机硅氧烷化学的直接与金属(DTM)粘合来克服常规涂层的缺陷。 防滑涂层具有具有氨基官能的硅氧烷树脂的第一组分; 具有非芳族环氧树脂的第二组分; 用于降低粘度的球形填料; 颜料; 粗骨料 和触变剂。 氨基官能的硅氧烷树脂可以是氨基官能的甲基苯基聚硅氧烷,二苯基聚硅氧烷或倍半硅氧烷基树脂。 非芳族环氧树脂可以是脂环族或脂肪族的。 第一组分为涂料的约5重量%至20重量%,第二组分为涂料的约80重量%至95重量%。
-
公开(公告)号:US20050006251A1
公开(公告)日:2005-01-13
申请号:US10885527
申请日:2004-07-06
申请人: E. D. Thomas , K. E. Lucas , Paul Slebodnick , Elizabeth Hogan
发明人: E. D. Thomas , K. E. Lucas , Paul Slebodnick , Elizabeth Hogan
CPC分类号: G01N17/02
摘要: A system using tank corrosion sensors to provide for an overall assessment and monitoring of the electro-chemical corrosion and coatings condition in ships' tanks, and particularly in ships' seawater or compensated fuel tanks. The system includes reference half-cells mounted along a suspended cable and one instrumented sacrificial anode at the end of the cable to provide optimal sensing capability within a tank structure. The reference half-cells and the sacrificial anode measure a potential and current output, respectively. Together the measurements provide objective information that can be used to predict corrosion damage and coating deterioration occurring throughout the structure of the tank. The system may be used for an overall assessment and monitoring of the electrochemical corrosion and coatings condition. In a preferred embodiment, the measurements are stored in a datalogger that is optimally contained within an associated instrument housing. If used with other systems in other tanks, the system may be used to monitor the relative tank condition, trend tank condition changes over time, range tank behavior into three categories and provide a direct analysis methodology for making tank maintenance decisions.
-
公开(公告)号:US20050151841A1
公开(公告)日:2005-07-14
申请号:US10508850
申请日:2003-03-24
申请人: Bruce Nelson , Paul Slebodnick , Edward Lemieux , Matt Krupa , William Singleton
发明人: Bruce Nelson , Paul Slebodnick , Edward Lemieux , Matt Krupa , William Singleton
CPC分类号: G01N21/954 , G01N21/8851
摘要: An automated inspection system is provided wherein an inspection of a surface and the processing of inspection data acquired from the surface can be performed with limited or no operator involvement and wherein a high level of consistency can be s maintained between each inspection and between each processing of inspection data across multiple inspections of the surface.
摘要翻译: 提供了一种自动检查系统,其中可以在有限或无操作者参与的情况下执行对表面的检查和从表面获取的检查数据的处理,并且其中可以在每次检查之间和每次检查之间保持高水平的一致性 检查数据跨多个检查表面。
-
公开(公告)号:US09034946B2
公开(公告)日:2015-05-19
申请号:US13463807
申请日:2012-05-03
申请人: Erick B. Iezzi , James R. Martin , Paul Slebodnick
发明人: Erick B. Iezzi , James R. Martin , Paul Slebodnick
IPC分类号: C09K3/14 , C09D163/00 , C09D183/08 , C08K5/544 , C08G77/26
CPC分类号: C09D163/00 , C08G77/26 , C08K5/544 , C09D183/08 , C09K3/149 , C08L83/04 , C08L63/00
摘要: A non-skid coating described herein attempts to overcome the deficiencies of the conventional coatings with improved external durability and color retention, a reduced level of VOCs, and direct-to-metal (DTM) adhesion using organo-siloxane chemistry. The non-skid coating has a first component having an amino-functional siloxane resin; a second component having a non-aromatic epoxy resin; a spherical filler for lowering viscosity; a pigment; a coarse aggregate; and a thixotropic agent. The amino-functional siloxane resin can be an amino-functional methyl phenyl polysiloxane, diphenyl polysiloxane or silsesquioxane-based resin. The non-aromatic epoxy resin can be cycloaliphatic or aliphatic. The first component is about 5% to 20% weight of the coating, and the second component is about 80% to 95% weight of the coating.
摘要翻译: 本文所述的防滑涂层试图通过改进的外部耐久性和保色性,降低的VOC水平和使用有机硅氧烷化学的直接与金属(DTM)粘合来克服常规涂层的缺陷。 防滑涂层具有具有氨基官能的硅氧烷树脂的第一组分; 具有非芳族环氧树脂的第二组分; 用于降低粘度的球形填料; 颜料; 粗骨料 和触变剂。 氨基官能的硅氧烷树脂可以是氨基官能的甲基苯基聚硅氧烷,二苯基聚硅氧烷或倍半硅氧烷基树脂。 非芳族环氧树脂可以是脂环族或脂肪族的。 第一组分为涂料的约5重量%至20重量%,第二组分为涂料的约80重量%至95重量%。
-
公开(公告)号:US09006307B2
公开(公告)日:2015-04-14
申请号:US12887546
申请日:2010-09-22
申请人: Erick B. Iezzi , James R. Martin , Paul Slebodnick
发明人: Erick B. Iezzi , James R. Martin , Paul Slebodnick
IPC分类号: C09K3/14 , C09D163/00 , C09D183/08 , C08K5/544 , C08G77/26
CPC分类号: C09D163/00 , C08G77/26 , C08K5/544 , C09D183/08 , C09K3/149 , C08L83/04 , C08L63/00
摘要: A non-skid coating described herein attempts to overcome the deficiencies of the conventional coatings with improved external durability and color retention, a reduced level of VOCs, and direct-to-metal (DTM) adhesion using organo-siloxane chemistry. The non-skid coating has a first component having an amino-functional siloxane resin; a second component having a non-aromatic epoxy resin; a spherical filler for lowering viscosity; a pigment; a coarse aggregate; and a thixotropic agent. The amino-functional siloxane resin can be an amino-functional methyl phenyl polysiloxane, diphenyl polysiloxane or silsesquioxane-based resin. The non-aromatic epoxy resin can be cycloaliphatic or aliphatic. The first component is about 5% to 20% weight of the coating, and the second component is about 80% to 95% weight of the coating.
摘要翻译: 本文所述的防滑涂层试图通过改进的外部耐久性和保色性,降低的VOC水平和使用有机硅氧烷化学的直接与金属(DTM)粘合来克服常规涂层的缺陷。 防滑涂层具有具有氨基官能的硅氧烷树脂的第一组分; 具有非芳族环氧树脂的第二组分; 用于降低粘度的球形填料; 颜料; 粗骨料 和触变剂。 氨基官能的硅氧烷树脂可以是氨基官能的甲基苯基聚硅氧烷,二苯基聚硅氧烷或倍半硅氧烷基树脂。 非芳族环氧树脂可以是脂环族或脂肪族的。 第一组分为涂料的约5重量%至20重量%,第二组分为涂料的约80重量%至95重量%。
-
公开(公告)号:US20050000831A1
公开(公告)日:2005-01-06
申请号:US10857369
申请日:2004-05-21
申请人: Elvin Thomas , Keith Lucas , Paul Slebodnick , Elizabeth Hogan
发明人: Elvin Thomas , Keith Lucas , Paul Slebodnick , Elizabeth Hogan
CPC分类号: G01N17/02
摘要: A system using tank corrosion sensors to provide for an overall assessment and monitoring of the electro-chemical corrosion and coatings condition in ships' tanks, and particularly in ships' seawater or compensated fuel tanks. The system includes reference half-cells mounted along a suspended cable and one instrumented sacrificial anode at the end of the cable to provide optimal sensing capability within a tank structure. The reference half-cells and the sacrificial anode measure a potential and current output, respectively. Together the measurements provide objective information that can be used to predict corrosion damage and coating deterioration occurring throughout the structure of the tank. The system may be used for an overall assessment and monitoring of the electro-chemical corrosion and coatings condition. In a preferred embodiment, the measurements are stored in a datalogger that is optimally contained within an associated instrument housing. If used with other systems in other tanks, the system may be used to monitor the relative tank condition, trend tank condition changes over time, range tank behavior into three categories and provide a direct analysis methodology for making tank maintenance decisions.
-
-
-
-
-
-
-
-
-