Magnetometric corrosion sensing under hydrodynamic conditions
Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 20...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Juzeliūnas, Eimutis [verfasserIn] Ma, Yu Pei [verfasserIn] Wikswo, John P. [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2006 |
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| Schlagwörter: |
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| Übergeordnetes Werk: |
Enthalten in: Journal of solid state electrochemistry - Berlin : Springer, 1997, 10(2006), 9 vom: 05. Mai, Seite 700-707 |
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| Übergeordnetes Werk: |
volume:10 ; year:2006 ; number:9 ; day:05 ; month:05 ; pages:700-707 |
| Links: |
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| DOI / URN: |
10.1007/s10008-006-0114-2 |
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| Katalog-ID: |
SPR007954840 |
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| 520 | |a Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. | ||
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10.1007/s10008-006-0114-2 doi (DE-627)SPR007954840 (SPR)s10008-006-0114-2-e DE-627 ger DE-627 rakwb eng 540 ASE 35.14 bkl 35.90 bkl Juzeliūnas, Eimutis verfasserin aut Magnetometric corrosion sensing under hydrodynamic conditions 2006 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. Ionic Current (dpeaa)DE-He213 Magnetic Activity (dpeaa)DE-He213 Electronic Current (dpeaa)DE-He213 Magnetic Image (dpeaa)DE-He213 Pickup Coil (dpeaa)DE-He213 Ma, Yu Pei verfasserin aut Wikswo, John P. verfasserin aut Enthalten in Journal of solid state electrochemistry Berlin : Springer, 1997 10(2006), 9 vom: 05. Mai, Seite 700-707 (DE-627)271175400 (DE-600)1478940-1 1433-0768 nnns volume:10 year:2006 number:9 day:05 month:05 pages:700-707 https://dx.doi.org/10.1007/s10008-006-0114-2 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_11 GBV_ILN_20 GBV_ILN_22 GBV_ILN_23 GBV_ILN_24 GBV_ILN_31 GBV_ILN_32 GBV_ILN_39 GBV_ILN_40 GBV_ILN_60 GBV_ILN_62 GBV_ILN_63 GBV_ILN_69 GBV_ILN_70 GBV_ILN_73 GBV_ILN_74 GBV_ILN_90 GBV_ILN_95 GBV_ILN_100 GBV_ILN_101 GBV_ILN_105 GBV_ILN_110 GBV_ILN_120 GBV_ILN_138 GBV_ILN_150 GBV_ILN_151 GBV_ILN_152 GBV_ILN_161 GBV_ILN_170 GBV_ILN_171 GBV_ILN_187 GBV_ILN_213 GBV_ILN_224 GBV_ILN_230 GBV_ILN_250 GBV_ILN_267 GBV_ILN_281 GBV_ILN_285 GBV_ILN_293 GBV_ILN_370 GBV_ILN_602 GBV_ILN_636 GBV_ILN_702 GBV_ILN_2001 GBV_ILN_2003 GBV_ILN_2004 GBV_ILN_2005 GBV_ILN_2006 GBV_ILN_2007 GBV_ILN_2008 GBV_ILN_2009 GBV_ILN_2010 GBV_ILN_2011 GBV_ILN_2014 GBV_ILN_2015 GBV_ILN_2020 GBV_ILN_2021 GBV_ILN_2025 GBV_ILN_2026 GBV_ILN_2027 GBV_ILN_2031 GBV_ILN_2034 GBV_ILN_2037 GBV_ILN_2038 GBV_ILN_2039 GBV_ILN_2044 GBV_ILN_2048 GBV_ILN_2049 GBV_ILN_2050 GBV_ILN_2055 GBV_ILN_2057 GBV_ILN_2059 GBV_ILN_2061 GBV_ILN_2064 GBV_ILN_2065 GBV_ILN_2068 GBV_ILN_2070 GBV_ILN_2086 GBV_ILN_2088 GBV_ILN_2093 GBV_ILN_2106 GBV_ILN_2107 GBV_ILN_2108 GBV_ILN_2110 GBV_ILN_2111 GBV_ILN_2112 GBV_ILN_2113 GBV_ILN_2116 GBV_ILN_2118 GBV_ILN_2119 GBV_ILN_2122 GBV_ILN_2129 GBV_ILN_2143 GBV_ILN_2144 GBV_ILN_2147 GBV_ILN_2148 GBV_ILN_2152 GBV_ILN_2153 GBV_ILN_2188 GBV_ILN_2190 GBV_ILN_2232 GBV_ILN_2336 GBV_ILN_2446 GBV_ILN_2470 GBV_ILN_2472 GBV_ILN_2507 GBV_ILN_2522 GBV_ILN_2548 GBV_ILN_4035 GBV_ILN_4037 GBV_ILN_4046 GBV_ILN_4112 GBV_ILN_4125 GBV_ILN_4242 GBV_ILN_4246 GBV_ILN_4249 GBV_ILN_4251 GBV_ILN_4305 GBV_ILN_4306 GBV_ILN_4307 GBV_ILN_4313 GBV_ILN_4322 GBV_ILN_4323 GBV_ILN_4324 GBV_ILN_4325 GBV_ILN_4326 GBV_ILN_4333 GBV_ILN_4334 GBV_ILN_4335 GBV_ILN_4336 GBV_ILN_4338 GBV_ILN_4393 GBV_ILN_4700 35.14 ASE 35.90 ASE AR 10 2006 9 05 05 700-707 |
| spelling |
10.1007/s10008-006-0114-2 doi (DE-627)SPR007954840 (SPR)s10008-006-0114-2-e DE-627 ger DE-627 rakwb eng 540 ASE 35.14 bkl 35.90 bkl Juzeliūnas, Eimutis verfasserin aut Magnetometric corrosion sensing under hydrodynamic conditions 2006 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. Ionic Current (dpeaa)DE-He213 Magnetic Activity (dpeaa)DE-He213 Electronic Current (dpeaa)DE-He213 Magnetic Image (dpeaa)DE-He213 Pickup Coil (dpeaa)DE-He213 Ma, Yu Pei verfasserin aut Wikswo, John P. verfasserin aut Enthalten in Journal of solid state electrochemistry Berlin : Springer, 1997 10(2006), 9 vom: 05. Mai, Seite 700-707 (DE-627)271175400 (DE-600)1478940-1 1433-0768 nnns volume:10 year:2006 number:9 day:05 month:05 pages:700-707 https://dx.doi.org/10.1007/s10008-006-0114-2 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_11 GBV_ILN_20 GBV_ILN_22 GBV_ILN_23 GBV_ILN_24 GBV_ILN_31 GBV_ILN_32 GBV_ILN_39 GBV_ILN_40 GBV_ILN_60 GBV_ILN_62 GBV_ILN_63 GBV_ILN_69 GBV_ILN_70 GBV_ILN_73 GBV_ILN_74 GBV_ILN_90 GBV_ILN_95 GBV_ILN_100 GBV_ILN_101 GBV_ILN_105 GBV_ILN_110 GBV_ILN_120 GBV_ILN_138 GBV_ILN_150 GBV_ILN_151 GBV_ILN_152 GBV_ILN_161 GBV_ILN_170 GBV_ILN_171 GBV_ILN_187 GBV_ILN_213 GBV_ILN_224 GBV_ILN_230 GBV_ILN_250 GBV_ILN_267 GBV_ILN_281 GBV_ILN_285 GBV_ILN_293 GBV_ILN_370 GBV_ILN_602 GBV_ILN_636 GBV_ILN_702 GBV_ILN_2001 GBV_ILN_2003 GBV_ILN_2004 GBV_ILN_2005 GBV_ILN_2006 GBV_ILN_2007 GBV_ILN_2008 GBV_ILN_2009 GBV_ILN_2010 GBV_ILN_2011 GBV_ILN_2014 GBV_ILN_2015 GBV_ILN_2020 GBV_ILN_2021 GBV_ILN_2025 GBV_ILN_2026 GBV_ILN_2027 GBV_ILN_2031 GBV_ILN_2034 GBV_ILN_2037 GBV_ILN_2038 GBV_ILN_2039 GBV_ILN_2044 GBV_ILN_2048 GBV_ILN_2049 GBV_ILN_2050 GBV_ILN_2055 GBV_ILN_2057 GBV_ILN_2059 GBV_ILN_2061 GBV_ILN_2064 GBV_ILN_2065 GBV_ILN_2068 GBV_ILN_2070 GBV_ILN_2086 GBV_ILN_2088 GBV_ILN_2093 GBV_ILN_2106 GBV_ILN_2107 GBV_ILN_2108 GBV_ILN_2110 GBV_ILN_2111 GBV_ILN_2112 GBV_ILN_2113 GBV_ILN_2116 GBV_ILN_2118 GBV_ILN_2119 GBV_ILN_2122 GBV_ILN_2129 GBV_ILN_2143 GBV_ILN_2144 GBV_ILN_2147 GBV_ILN_2148 GBV_ILN_2152 GBV_ILN_2153 GBV_ILN_2188 GBV_ILN_2190 GBV_ILN_2232 GBV_ILN_2336 GBV_ILN_2446 GBV_ILN_2470 GBV_ILN_2472 GBV_ILN_2507 GBV_ILN_2522 GBV_ILN_2548 GBV_ILN_4035 GBV_ILN_4037 GBV_ILN_4046 GBV_ILN_4112 GBV_ILN_4125 GBV_ILN_4242 GBV_ILN_4246 GBV_ILN_4249 GBV_ILN_4251 GBV_ILN_4305 GBV_ILN_4306 GBV_ILN_4307 GBV_ILN_4313 GBV_ILN_4322 GBV_ILN_4323 GBV_ILN_4324 GBV_ILN_4325 GBV_ILN_4326 GBV_ILN_4333 GBV_ILN_4334 GBV_ILN_4335 GBV_ILN_4336 GBV_ILN_4338 GBV_ILN_4393 GBV_ILN_4700 35.14 ASE 35.90 ASE AR 10 2006 9 05 05 700-707 |
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10.1007/s10008-006-0114-2 doi (DE-627)SPR007954840 (SPR)s10008-006-0114-2-e DE-627 ger DE-627 rakwb eng 540 ASE 35.14 bkl 35.90 bkl Juzeliūnas, Eimutis verfasserin aut Magnetometric corrosion sensing under hydrodynamic conditions 2006 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. Ionic Current (dpeaa)DE-He213 Magnetic Activity (dpeaa)DE-He213 Electronic Current (dpeaa)DE-He213 Magnetic Image (dpeaa)DE-He213 Pickup Coil (dpeaa)DE-He213 Ma, Yu Pei verfasserin aut Wikswo, John P. verfasserin aut Enthalten in Journal of solid state electrochemistry Berlin : Springer, 1997 10(2006), 9 vom: 05. Mai, Seite 700-707 (DE-627)271175400 (DE-600)1478940-1 1433-0768 nnns volume:10 year:2006 number:9 day:05 month:05 pages:700-707 https://dx.doi.org/10.1007/s10008-006-0114-2 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_11 GBV_ILN_20 GBV_ILN_22 GBV_ILN_23 GBV_ILN_24 GBV_ILN_31 GBV_ILN_32 GBV_ILN_39 GBV_ILN_40 GBV_ILN_60 GBV_ILN_62 GBV_ILN_63 GBV_ILN_69 GBV_ILN_70 GBV_ILN_73 GBV_ILN_74 GBV_ILN_90 GBV_ILN_95 GBV_ILN_100 GBV_ILN_101 GBV_ILN_105 GBV_ILN_110 GBV_ILN_120 GBV_ILN_138 GBV_ILN_150 GBV_ILN_151 GBV_ILN_152 GBV_ILN_161 GBV_ILN_170 GBV_ILN_171 GBV_ILN_187 GBV_ILN_213 GBV_ILN_224 GBV_ILN_230 GBV_ILN_250 GBV_ILN_267 GBV_ILN_281 GBV_ILN_285 GBV_ILN_293 GBV_ILN_370 GBV_ILN_602 GBV_ILN_636 GBV_ILN_702 GBV_ILN_2001 GBV_ILN_2003 GBV_ILN_2004 GBV_ILN_2005 GBV_ILN_2006 GBV_ILN_2007 GBV_ILN_2008 GBV_ILN_2009 GBV_ILN_2010 GBV_ILN_2011 GBV_ILN_2014 GBV_ILN_2015 GBV_ILN_2020 GBV_ILN_2021 GBV_ILN_2025 GBV_ILN_2026 GBV_ILN_2027 GBV_ILN_2031 GBV_ILN_2034 GBV_ILN_2037 GBV_ILN_2038 GBV_ILN_2039 GBV_ILN_2044 GBV_ILN_2048 GBV_ILN_2049 GBV_ILN_2050 GBV_ILN_2055 GBV_ILN_2057 GBV_ILN_2059 GBV_ILN_2061 GBV_ILN_2064 GBV_ILN_2065 GBV_ILN_2068 GBV_ILN_2070 GBV_ILN_2086 GBV_ILN_2088 GBV_ILN_2093 GBV_ILN_2106 GBV_ILN_2107 GBV_ILN_2108 GBV_ILN_2110 GBV_ILN_2111 GBV_ILN_2112 GBV_ILN_2113 GBV_ILN_2116 GBV_ILN_2118 GBV_ILN_2119 GBV_ILN_2122 GBV_ILN_2129 GBV_ILN_2143 GBV_ILN_2144 GBV_ILN_2147 GBV_ILN_2148 GBV_ILN_2152 GBV_ILN_2153 GBV_ILN_2188 GBV_ILN_2190 GBV_ILN_2232 GBV_ILN_2336 GBV_ILN_2446 GBV_ILN_2470 GBV_ILN_2472 GBV_ILN_2507 GBV_ILN_2522 GBV_ILN_2548 GBV_ILN_4035 GBV_ILN_4037 GBV_ILN_4046 GBV_ILN_4112 GBV_ILN_4125 GBV_ILN_4242 GBV_ILN_4246 GBV_ILN_4249 GBV_ILN_4251 GBV_ILN_4305 GBV_ILN_4306 GBV_ILN_4307 GBV_ILN_4313 GBV_ILN_4322 GBV_ILN_4323 GBV_ILN_4324 GBV_ILN_4325 GBV_ILN_4326 GBV_ILN_4333 GBV_ILN_4334 GBV_ILN_4335 GBV_ILN_4336 GBV_ILN_4338 GBV_ILN_4393 GBV_ILN_4700 35.14 ASE 35.90 ASE AR 10 2006 9 05 05 700-707 |
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10.1007/s10008-006-0114-2 doi (DE-627)SPR007954840 (SPR)s10008-006-0114-2-e DE-627 ger DE-627 rakwb eng 540 ASE 35.14 bkl 35.90 bkl Juzeliūnas, Eimutis verfasserin aut Magnetometric corrosion sensing under hydrodynamic conditions 2006 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. Ionic Current (dpeaa)DE-He213 Magnetic Activity (dpeaa)DE-He213 Electronic Current (dpeaa)DE-He213 Magnetic Image (dpeaa)DE-He213 Pickup Coil (dpeaa)DE-He213 Ma, Yu Pei verfasserin aut Wikswo, John P. verfasserin aut Enthalten in Journal of solid state electrochemistry Berlin : Springer, 1997 10(2006), 9 vom: 05. Mai, Seite 700-707 (DE-627)271175400 (DE-600)1478940-1 1433-0768 nnns volume:10 year:2006 number:9 day:05 month:05 pages:700-707 https://dx.doi.org/10.1007/s10008-006-0114-2 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_11 GBV_ILN_20 GBV_ILN_22 GBV_ILN_23 GBV_ILN_24 GBV_ILN_31 GBV_ILN_32 GBV_ILN_39 GBV_ILN_40 GBV_ILN_60 GBV_ILN_62 GBV_ILN_63 GBV_ILN_69 GBV_ILN_70 GBV_ILN_73 GBV_ILN_74 GBV_ILN_90 GBV_ILN_95 GBV_ILN_100 GBV_ILN_101 GBV_ILN_105 GBV_ILN_110 GBV_ILN_120 GBV_ILN_138 GBV_ILN_150 GBV_ILN_151 GBV_ILN_152 GBV_ILN_161 GBV_ILN_170 GBV_ILN_171 GBV_ILN_187 GBV_ILN_213 GBV_ILN_224 GBV_ILN_230 GBV_ILN_250 GBV_ILN_267 GBV_ILN_281 GBV_ILN_285 GBV_ILN_293 GBV_ILN_370 GBV_ILN_602 GBV_ILN_636 GBV_ILN_702 GBV_ILN_2001 GBV_ILN_2003 GBV_ILN_2004 GBV_ILN_2005 GBV_ILN_2006 GBV_ILN_2007 GBV_ILN_2008 GBV_ILN_2009 GBV_ILN_2010 GBV_ILN_2011 GBV_ILN_2014 GBV_ILN_2015 GBV_ILN_2020 GBV_ILN_2021 GBV_ILN_2025 GBV_ILN_2026 GBV_ILN_2027 GBV_ILN_2031 GBV_ILN_2034 GBV_ILN_2037 GBV_ILN_2038 GBV_ILN_2039 GBV_ILN_2044 GBV_ILN_2048 GBV_ILN_2049 GBV_ILN_2050 GBV_ILN_2055 GBV_ILN_2057 GBV_ILN_2059 GBV_ILN_2061 GBV_ILN_2064 GBV_ILN_2065 GBV_ILN_2068 GBV_ILN_2070 GBV_ILN_2086 GBV_ILN_2088 GBV_ILN_2093 GBV_ILN_2106 GBV_ILN_2107 GBV_ILN_2108 GBV_ILN_2110 GBV_ILN_2111 GBV_ILN_2112 GBV_ILN_2113 GBV_ILN_2116 GBV_ILN_2118 GBV_ILN_2119 GBV_ILN_2122 GBV_ILN_2129 GBV_ILN_2143 GBV_ILN_2144 GBV_ILN_2147 GBV_ILN_2148 GBV_ILN_2152 GBV_ILN_2153 GBV_ILN_2188 GBV_ILN_2190 GBV_ILN_2232 GBV_ILN_2336 GBV_ILN_2446 GBV_ILN_2470 GBV_ILN_2472 GBV_ILN_2507 GBV_ILN_2522 GBV_ILN_2548 GBV_ILN_4035 GBV_ILN_4037 GBV_ILN_4046 GBV_ILN_4112 GBV_ILN_4125 GBV_ILN_4242 GBV_ILN_4246 GBV_ILN_4249 GBV_ILN_4251 GBV_ILN_4305 GBV_ILN_4306 GBV_ILN_4307 GBV_ILN_4313 GBV_ILN_4322 GBV_ILN_4323 GBV_ILN_4324 GBV_ILN_4325 GBV_ILN_4326 GBV_ILN_4333 GBV_ILN_4334 GBV_ILN_4335 GBV_ILN_4336 GBV_ILN_4338 GBV_ILN_4393 GBV_ILN_4700 35.14 ASE 35.90 ASE AR 10 2006 9 05 05 700-707 |
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10.1007/s10008-006-0114-2 doi (DE-627)SPR007954840 (SPR)s10008-006-0114-2-e DE-627 ger DE-627 rakwb eng 540 ASE 35.14 bkl 35.90 bkl Juzeliūnas, Eimutis verfasserin aut Magnetometric corrosion sensing under hydrodynamic conditions 2006 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. Ionic Current (dpeaa)DE-He213 Magnetic Activity (dpeaa)DE-He213 Electronic Current (dpeaa)DE-He213 Magnetic Image (dpeaa)DE-He213 Pickup Coil (dpeaa)DE-He213 Ma, Yu Pei verfasserin aut Wikswo, John P. verfasserin aut Enthalten in Journal of solid state electrochemistry Berlin : Springer, 1997 10(2006), 9 vom: 05. Mai, Seite 700-707 (DE-627)271175400 (DE-600)1478940-1 1433-0768 nnns volume:10 year:2006 number:9 day:05 month:05 pages:700-707 https://dx.doi.org/10.1007/s10008-006-0114-2 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_SPRINGER SSG-OLC-PHA GBV_ILN_11 GBV_ILN_20 GBV_ILN_22 GBV_ILN_23 GBV_ILN_24 GBV_ILN_31 GBV_ILN_32 GBV_ILN_39 GBV_ILN_40 GBV_ILN_60 GBV_ILN_62 GBV_ILN_63 GBV_ILN_69 GBV_ILN_70 GBV_ILN_73 GBV_ILN_74 GBV_ILN_90 GBV_ILN_95 GBV_ILN_100 GBV_ILN_101 GBV_ILN_105 GBV_ILN_110 GBV_ILN_120 GBV_ILN_138 GBV_ILN_150 GBV_ILN_151 GBV_ILN_152 GBV_ILN_161 GBV_ILN_170 GBV_ILN_171 GBV_ILN_187 GBV_ILN_213 GBV_ILN_224 GBV_ILN_230 GBV_ILN_250 GBV_ILN_267 GBV_ILN_281 GBV_ILN_285 GBV_ILN_293 GBV_ILN_370 GBV_ILN_602 GBV_ILN_636 GBV_ILN_702 GBV_ILN_2001 GBV_ILN_2003 GBV_ILN_2004 GBV_ILN_2005 GBV_ILN_2006 GBV_ILN_2007 GBV_ILN_2008 GBV_ILN_2009 GBV_ILN_2010 GBV_ILN_2011 GBV_ILN_2014 GBV_ILN_2015 GBV_ILN_2020 GBV_ILN_2021 GBV_ILN_2025 GBV_ILN_2026 GBV_ILN_2027 GBV_ILN_2031 GBV_ILN_2034 GBV_ILN_2037 GBV_ILN_2038 GBV_ILN_2039 GBV_ILN_2044 GBV_ILN_2048 GBV_ILN_2049 GBV_ILN_2050 GBV_ILN_2055 GBV_ILN_2057 GBV_ILN_2059 GBV_ILN_2061 GBV_ILN_2064 GBV_ILN_2065 GBV_ILN_2068 GBV_ILN_2070 GBV_ILN_2086 GBV_ILN_2088 GBV_ILN_2093 GBV_ILN_2106 GBV_ILN_2107 GBV_ILN_2108 GBV_ILN_2110 GBV_ILN_2111 GBV_ILN_2112 GBV_ILN_2113 GBV_ILN_2116 GBV_ILN_2118 GBV_ILN_2119 GBV_ILN_2122 GBV_ILN_2129 GBV_ILN_2143 GBV_ILN_2144 GBV_ILN_2147 GBV_ILN_2148 GBV_ILN_2152 GBV_ILN_2153 GBV_ILN_2188 GBV_ILN_2190 GBV_ILN_2232 GBV_ILN_2336 GBV_ILN_2446 GBV_ILN_2470 GBV_ILN_2472 GBV_ILN_2507 GBV_ILN_2522 GBV_ILN_2548 GBV_ILN_4035 GBV_ILN_4037 GBV_ILN_4046 GBV_ILN_4112 GBV_ILN_4125 GBV_ILN_4242 GBV_ILN_4246 GBV_ILN_4249 GBV_ILN_4251 GBV_ILN_4305 GBV_ILN_4306 GBV_ILN_4307 GBV_ILN_4313 GBV_ILN_4322 GBV_ILN_4323 GBV_ILN_4324 GBV_ILN_4325 GBV_ILN_4326 GBV_ILN_4333 GBV_ILN_4334 GBV_ILN_4335 GBV_ILN_4336 GBV_ILN_4338 GBV_ILN_4393 GBV_ILN_4700 35.14 ASE 35.90 ASE AR 10 2006 9 05 05 700-707 |
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Enthalten in Journal of solid state electrochemistry 10(2006), 9 vom: 05. Mai, Seite 700-707 volume:10 year:2006 number:9 day:05 month:05 pages:700-707 |
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Enthalten in Journal of solid state electrochemistry 10(2006), 9 vom: 05. Mai, Seite 700-707 volume:10 year:2006 number:9 day:05 month:05 pages:700-707 |
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Ionic Current Magnetic Activity Electronic Current Magnetic Image Pickup Coil |
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Journal of solid state electrochemistry |
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Juzeliūnas, Eimutis @@aut@@ Ma, Yu Pei @@aut@@ Wikswo, John P. @@aut@@ |
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Juzeliūnas, Eimutis |
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Juzeliūnas, Eimutis ddc 540 bkl 35.14 bkl 35.90 misc Ionic Current misc Magnetic Activity misc Electronic Current misc Magnetic Image misc Pickup Coil Magnetometric corrosion sensing under hydrodynamic conditions |
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540 ASE 35.14 bkl 35.90 bkl Magnetometric corrosion sensing under hydrodynamic conditions Ionic Current (dpeaa)DE-He213 Magnetic Activity (dpeaa)DE-He213 Electronic Current (dpeaa)DE-He213 Magnetic Image (dpeaa)DE-He213 Pickup Coil (dpeaa)DE-He213 |
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magnetometric corrosion sensing under hydrodynamic conditions |
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Magnetometric corrosion sensing under hydrodynamic conditions |
| abstract |
Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. |
| abstractGer |
Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. |
| abstract_unstemmed |
Abstract SQUID (Superconducting QUantum Interference Device) magnetometer operating in liquid helium with a special resolution of ca. 1 mm was used to study the magnetic fields produced by corrosion reactions under electrolyte flow conditions. Macroscopic magnetic field images were obtained on AA 2024 samples corroding in naturally aerated and oxygen-saturated NaCl solutions and 0.1 M NaOH. The fields originated from the macroscopic surface currents (ionic and electronic), which appear due to corrosion potential differences that resulted from differences in electrolyte flow characteristics (velocity, direction, and turbulence). The measurements demonstrated SQUID capability of remote corrosion sensing across the integrated media consisting of gaseous and solid dielectrics, metal, and electrolyte. The results have shown the potential of magnetometry for practical corrosion detection in the restricted locations (“hidden” corrosion) where solution flow is applied. |
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9 |
| title_short |
Magnetometric corrosion sensing under hydrodynamic conditions |
| url |
https://dx.doi.org/10.1007/s10008-006-0114-2 |
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true |
| author2 |
Ma, Yu Pei Wikswo, John P. |
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Ma, Yu Pei Wikswo, John P. |
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| doi_str |
10.1007/s10008-006-0114-2 |
| up_date |
2024-07-03T16:21:10.732Z |
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| score |
7.402237 |