Wrinkling, fracture, and necking: The various failure modes in maritime crash:
Depending on the state of stress, material can fait in a number of different modes during a collision. Three modes are identified here as material separation in the absence of necking, material separation after the onset of necking, and localized buckling/wrinkling. Through a series of case studies,...
| Main Authors: | , , , |
|---|---|
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
2016
|
| Subjects: | |
| Online Access: | http://resolver.tudelft.nl/uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 |
| _version_ | 1821788627595689984 |
|---|---|
| author | Atli-Veltin, B. Dekker, R. Brunner, S.K. Walters, C.L. |
| author_facet | Atli-Veltin, B. Dekker, R. Brunner, S.K. Walters, C.L. |
| author_sort | Atli-Veltin, B. |
| collection | TU Delft: Institutional Repository (Delft University of Technology) |
| description | Depending on the state of stress, material can fait in a number of different modes during a collision. Three modes are identified here as material separation in the absence of necking, material separation after the onset of necking, and localized buckling/wrinkling. Through a series of case studies, the states of stress present in a collision are analyzed. Of particular interest is leakage in a scaled fuel tank that could not have been predicted by FEA due to resolution and may have been ignored even with sufficient resolution because it was in a region of generally compressive stresses. Following the review of case studies, the aforementioned failure mechanisms are reviewed, and the corresponding states of stress are summarized. It is shown that the current state of technology for failure after the onset of necking is insufficient but quickly improving. Concepts are taken from the sheet metal industry to understand the onset of buckling/wrinkling, but there is little readily available to simulate failure after the initial onset. |
| format | Article in Journal/Newspaper |
| genre | Arctic |
| genre_facet | Arctic |
| id | fttno:oai:tudelft.nl:uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 |
| institution | Open Polar |
| language | English |
| op_collection_id | fttno |
| op_relation | uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 551106 http://resolver.tudelft.nl/uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 |
| op_source | Proceedings of the ASME 2016 35th International Conference on Ocean and Arctic Engineering, 1-12 |
| publishDate | 2016 |
| record_format | openpolar |
| spelling | fttno:oai:tudelft.nl:uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 2025-01-16T19:52:32+00:00 Wrinkling, fracture, and necking: The various failure modes in maritime crash: Atli-Veltin, B. Dekker, R. Brunner, S.K. Walters, C.L. 2016-01-01 http://resolver.tudelft.nl/uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 en eng uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 551106 http://resolver.tudelft.nl/uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 Proceedings of the ASME 2016 35th International Conference on Ocean and Arctic Engineering, 1-12 Marine Finite element simulations Failure strain Plasticity buckling Stress-strain relation Crashworthiness Multiaxial Maritime & Offshore Energy Fluid & Solid Mechanics SD - Structural Dynamics TS - Technical Sciences article 2016 fttno 2022-04-10T16:32:48Z Depending on the state of stress, material can fait in a number of different modes during a collision. Three modes are identified here as material separation in the absence of necking, material separation after the onset of necking, and localized buckling/wrinkling. Through a series of case studies, the states of stress present in a collision are analyzed. Of particular interest is leakage in a scaled fuel tank that could not have been predicted by FEA due to resolution and may have been ignored even with sufficient resolution because it was in a region of generally compressive stresses. Following the review of case studies, the aforementioned failure mechanisms are reviewed, and the corresponding states of stress are summarized. It is shown that the current state of technology for failure after the onset of necking is insufficient but quickly improving. Concepts are taken from the sheet metal industry to understand the onset of buckling/wrinkling, but there is little readily available to simulate failure after the initial onset. Article in Journal/Newspaper Arctic TU Delft: Institutional Repository (Delft University of Technology) |
| spellingShingle | Marine Finite element simulations Failure strain Plasticity buckling Stress-strain relation Crashworthiness Multiaxial Maritime & Offshore Energy Fluid & Solid Mechanics SD - Structural Dynamics TS - Technical Sciences Atli-Veltin, B. Dekker, R. Brunner, S.K. Walters, C.L. Wrinkling, fracture, and necking: The various failure modes in maritime crash: |
| title | Wrinkling, fracture, and necking: The various failure modes in maritime crash: |
| title_full | Wrinkling, fracture, and necking: The various failure modes in maritime crash: |
| title_fullStr | Wrinkling, fracture, and necking: The various failure modes in maritime crash: |
| title_full_unstemmed | Wrinkling, fracture, and necking: The various failure modes in maritime crash: |
| title_short | Wrinkling, fracture, and necking: The various failure modes in maritime crash: |
| title_sort | wrinkling, fracture, and necking: the various failure modes in maritime crash: |
| topic | Marine Finite element simulations Failure strain Plasticity buckling Stress-strain relation Crashworthiness Multiaxial Maritime & Offshore Energy Fluid & Solid Mechanics SD - Structural Dynamics TS - Technical Sciences |
| topic_facet | Marine Finite element simulations Failure strain Plasticity buckling Stress-strain relation Crashworthiness Multiaxial Maritime & Offshore Energy Fluid & Solid Mechanics SD - Structural Dynamics TS - Technical Sciences |
| url | http://resolver.tudelft.nl/uuid:232559c1-20f5-4ba0-96c0-4e4a2a969791 |