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1.发明申请公开(公告)号:US20190265104A1
公开(公告)日:2019-08-29
申请号:US16284292
申请日:2019-02-25
Applicant: TDW Delaware, Inc.
Inventor: Kenneth James Greene , Chris Caraway , Gregory Donikowski , Joel Troyer
Abstract: A system and method for non-destructive, in situ, positive material identification of a pipe selects a plurality of test areas that are separated axially and circumferentially from one another and then polishes a portion of each test area. Within each polished area, a non-destructive test device is used to collect mechanical property data and another non-destructive test device is used to collect chemical property data. An overall mean for the mechanical property data, and for the chemical property data, is calculated using at least two data collection runs. The means are compared to a known material standard to determine, at a high level of confidence, ultimate yield strength and ultimate tensile strength within +/−10%, a carbon percentage within +/−25%, and a manganese percentage within +/−20% of a known material standard.
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Patent Agency Ranking
2.发明授权公开(公告)号:US09880056B2
公开(公告)日:2018-01-30
申请号:US14565206
申请日:2014-12-09
Applicant: TDW Delaware, Inc.
Inventor: Kenneth James Greene , Chris Caraway , Gregory Donikowski , Joel Troyer
CPC classification number: G01J3/443 , F16L2201/60 , G01J3/0275 , G01M3/022 , G01M3/04 , G01M3/38 , G01N3/42 , G01N33/20 , G01N2203/0244 , G01N2203/0274
Abstract: A system and method for non-destructive, in situ, positive material identification of a pipe selects three test areas that are separated axially and circumferentially from one another and then polishes a portion of each test area. Within each polished area, a non-destructive test device is used to collect mechanical property data and another non-destructive test device is used to collect chemical property data. An overall mean for the mechanical property data, and for the chemical property data, is calculated using at least two data collection runs. The means are compared to a known material standard to determine, at a high level of confidence, ultimate yield strength and ultimate tensile strength within +/−10%, a carbon percentage within +/−25%, and a manganese percentage within +/−20% of a known material standard.
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3.发明授权公开(公告)号:US10690546B2
公开(公告)日:2020-06-23
申请号:US16284292
申请日:2019-02-25
Applicant: TDW Delaware, Inc.
Inventor: Kenneth James Greene , Chris Caraway , Gregory Donikowski , Joel Troyer
Abstract: A system and method for non-destructive, in situ, positive material identification of a pipe selects a plurality of test areas that are separated axially and circumferentially from one another and then polishes a portion of each test area. Within each polished area, a non-destructive test device is used to collect mechanical property data and another non-destructive test device is used to collect chemical property data. An overall mean for the mechanical property data, and for the chemical property data, is calculated using at least two data collection runs. The means are compared to a known material standard to determine, at a high level of confidence, ultimate yield strength and ultimate tensile strength within +/−10%, a carbon percentage within +/−25%, and a manganese percentage within +/−20% of a known material standard.
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4.发明授权公开(公告)号:US10215638B2
公开(公告)日:2019-02-26
申请号:US15882295
申请日:2018-01-29
Applicant: TDW Delaware, Inc.
Inventor: Kenneth James Greene , Chris Caraway , Gregory Donikowski , Joel Troyer
Abstract: A system and method for non-destructive, in situ, positive material identification of a pipe selects a plurality of test areas that are separated axially and circumferentially from one another and then polishes a portion of each test area. Within each polished area, a non-destructive test device is used to collect mechanical property data and another non-destructive test device is used to collect chemical property data. An overall mean for the mechanical property data, and for the chemical property data, is calculated using at least two data collection runs. The means are compared to a known material standard to determine, at a high level of confidence, ultimate yield strength and ultimate tensile strength within +/−10%, a carbon percentage within +/−25%, and a manganese percentage within +/−20% of a known material standard.
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5.发明申请公开(公告)号:US20180217000A1
公开(公告)日:2018-08-02
申请号:US15882295
申请日:2018-01-29
Applicant: TDW Delaware, Inc.
Inventor: Kenneth James Greene , Chris Caraway , Gregory Donikowski , Joel Troyer
CPC classification number: G01J3/443 , F16L2201/60 , G01J3/0275 , G01M3/022 , G01M3/04 , G01M3/38 , G01N3/42 , G01N33/20 , G01N2203/0244 , G01N2203/0274
Abstract: A system and method for non-destructive, in situ, positive material identification of a pipe selects a plurality of test areas that are separated axially and circumferentially from one another and then polishes a portion of each test area. Within each polished area, a non-destructive test device is used to collect mechanical property data and another non-destructive test device is used to collect chemical property data. An overall mean for the mechanical property data, and for the chemical property data, is calculated using at least two data collection runs. The means are compared to a known material standard to determine, at a high level of confidence, ultimate yield strength and ultimate tensile strength within +/−10%, a carbon percentage within +/−25%, and a manganese percentage within +/−20% of a known material standard.
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6.发明申请System And Method For Non-Destructive, In Situ, Positive Material Identification Of A Pipe 有权系统和方法用于非破坏性,原位,正确的材料鉴定管道公开(公告)号:US20150377707A1
公开(公告)日:2015-12-31
申请号:US14565206
申请日:2014-12-09
Applicant: TDW Delaware, Inc.
Inventor: Kenneth James Greene , Chris Caraway , Gregory Donikowski , Joel Troyer
CPC classification number: G01J3/443 , F16L2201/60 , G01J3/0275 , G01M3/022 , G01M3/04 , G01M3/38 , G01N3/42 , G01N33/20 , G01N2203/0244 , G01N2203/0274
Abstract: A system and method for non-destructive, in situ, positive material identification of a pipe selects three test areas that are separated axially and circumferentially from one another and then polishes a portion of each test area. Within each polished area, a non-destructive test device is used to collect mechanical property data and another non-destructive test device is used to collect chemical property data. An overall mean for the mechanical property data, and for the chemical property data, is calculated using at least two data collection runs. The means are compared to a known material standard to determine, at a high level of confidence, ultimate yield strength and ultimate tensile strength within +/−10%, a carbon percentage within +/−25%, and a manganese percentage within +/−20% of a known material standard.
Abstract translation: 用于管道的非破坏性,原位,正面材料识别的系统和方法选择沿轴向和周向彼此分离的三个测试区域,然后抛光每个测试区域的一部分。 在每个抛光区域内,使用非破坏性测试装置来收集机械性能数据,另一种非破坏性测试装置用于收集化学性质数据。 使用至少两个数据采集运行计算机械性能数据和化学性质数据的总体平均值。 将该装置与已知材料标准进行比较,以高置信度确定+/- 10%内的极限屈服强度和极限拉伸强度,+/- 25%内的碳百分比,+ / -20%的已知材料标准。
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