Hydrogen-enhanced dislocation emission, motion and nucleation of hydrogen-induced cracking for steel
The change in dislocation configuration ahead of a loaded crack tip before and after charging with hydrogen was in situ investigated in TEM using a special constant deflection loading device The results showed that hydrogen could facilitate dislocation emission, multiplication and motion The change...
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| Published in | Science China. Technological sciences Vol. 40; no. 5; pp. 530 - 538 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Heidelberg
Springer Nature B.V
01.10.1997
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1674-7321 1006-9321 1869-1900 1862-281X |
| DOI | 10.1007/BF02917169 |
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| Abstract | The change in dislocation configuration ahead of a loaded crack tip before and after charging with hydrogen was in situ investigated in TEM using a special constant deflection loading device The results showed that hydrogen could facilitate dislocation emission, multiplication and motion The change in displacement field ahead of a loaded notch tip for a bulk specimen before and after charging with hydrogen was in situ measured by the laser moire interferometer technique. The results showed that hydrogen could enlarge the plastic zone and increase the plastic strain The in situ observation in TEM showed that when hydrogen-enhanced dislocation emission and motion reached a critical condition, a nanocrack of hydrogen-induced cracking ( HIC) would nucleate in the dislocation-free zone (DFZ) or at the main crack tip. The reasons for hydrogen-enhanced dislocation emission, multiplication and motion, and the mechanisms of nucleation of HIC have been discussed |
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| AbstractList | The change in dislocation configuration ahead of a loaded crack tip before and after charging with hydrogen was in situ investigated in TEM using a special constant deflection loading device The results showed that hydrogen could facilitate dislocation emission, multiplication and motion The change in displacement field ahead of a loaded notch tip for a bulk specimen before and after charging with hydrogen was in situ measured by the laser moire interferometer technique. The results showed that hydrogen could enlarge the plastic zone and increase the plastic strain The in situ observation in TEM showed that when hydrogen-enhanced dislocation emission and motion reached a critical condition, a nanocrack of hydrogen-induced cracking ( HIC) would nucleate in the dislocation-free zone (DFZ) or at the main crack tip. The reasons for hydrogen-enhanced dislocation emission, multiplication and motion, and the mechanisms of nucleation of HIC have been discussed The change in dislocation configuration ahead of a loaded crack tip before and after charging with hydrogen was in situ investigated in TEM using a special constant deflection loading device. The results showed that hydrogen could facilitate dislocation emission, multiplication, and motion. The change in displacement field ahead of a loaded notch tip for a bulk specimen before and after charging with hydrogen was measured in situ by the laser moire interferometer technique. The results showed that hydrogen could enlarge the plastic zone and increase the plastic strain. The in situ observation in TEM showed that when hydrogen-enhanced dislocation emission and motion reached a critical condition, a nanocrack of hydrogen-induced cracking (HIC) would nucleate in the dislocation-free zone or at the main crack tip. The reasons for hydrogen-enhanced dislocation emission, multiplication, and motion, and the mechanisms of nucleation of HIC are discussed. (Author) The change in dislocation configuration ahead of a loaded crack tip before and after charging with hydrogen wasin situ investigated in TEM using a special constant deflection loading device. The results showed that hydrogen could facilitate dislocation emission, multiplication and motion. The change in displacement field ahead of a loaded notch tip for a bulk specimen before and after charging with hydrogen wasin situ measured by the laser moire interferometer technique. The results showed that hydrogen could enlarge the plastic zone and increase the plastic strain. Thein situ observation in TEM showed that when hydrogen-enhanced dislocation emission and motion reached a critical condition, a nanocrack of hydrogen-induced cracking (HIC) would nucleate in the dislocation-free zone (DFZ) or at the main crack tip. The reasons for hydrogen-enhanced dislocation emission, multiplication and motion, and the mechanisms of nucleation of HIC have been discussed. |
| Author | 吕宏 李密丹 张天成 褚武扬 |
| AuthorAffiliation | Department of Material Physics University of Science and Technology Beijing Beijing 100083 China China |
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| Cites_doi | 10.1016/0921-5093(94)90975-X 10.1016/0921-5093(94)90976-8 10.1016/0036-9748(79)90204-7 10.1016/0001-6160(88)90320-3 10.1016/0956-7151(90)90070-W 10.1016/0956-716X(95)90851-A 10.1016/0025-5416(85)90064-3 10.5006/1.3577921 10.1016/0036-9748(87)90370-X 10.1016/1359-6454(95)00436-X |
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| SubjectTerms | and Charging Crack tips cracking dislocation Emission hydrogen-enhanced hydrogen-induced motion Nucleation Plastic deformation Plastic zones Steel TEM |
| Title | Hydrogen-enhanced dislocation emission, motion and nucleation of hydrogen-induced cracking for steel |
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