The application and optimization of rolling processing technology in improving the efficiency of deep hole processing
With the advancement of technology, the field of deep hole processing faces dual challenges of increased precision and increased production. Although traditional honing and grinding processes dominate, they are inefficient and do not adapt to large-scale production. Rolling processing technology has...
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| Main Authors: | , , , |
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| Format: | Article |
| Language: | English |
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SAGE Publishing
2024-12-01
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| Series: | Advances in Mechanical Engineering |
| Online Access: | https://doi.org/10.1177/16878132241296904 |
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| _version_ | 1850104042451107840 |
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| author | Tian Chunlei Cao Yan Chen Tian Yuan Tianlong |
| author_facet | Tian Chunlei Cao Yan Chen Tian Yuan Tianlong |
| author_sort | Tian Chunlei |
| collection | DOAJ |
| description | With the advancement of technology, the field of deep hole processing faces dual challenges of increased precision and increased production. Although traditional honing and grinding processes dominate, they are inefficient and do not adapt to large-scale production. Rolling processing technology has become an alternative solution with its advantages of high precision and high efficiency. This study aims to apply rolling processing to deep hole processing to improve efficiency. An elastic-plastic model was constructed to clarify the relationship between stress, strain, and displacement, and it was transformed into a simulated flow plastic stress equation. A finite element model was established, and its accuracy was verified through experiments, revealing the effects of various parameters on stress and strain. In the experimental stage, the amount of interference, feed speed, and rotation speed were identified as the main influencing factors, and a multi-objective optimization model was established accordingly. Comparative analysis showed that the grinding accuracy was the highest (0.13 μm), while the multi-objective optimization combination and variance combination reached 0.22 and 0.31 μm, respectively. In terms of processing efficiency, rolling is ten times that of grinding. Rolling processing can replace some grinding processes under specific conditions, significantly improving efficiency, which is of great significance for the development of deep hole processing technology. |
| format | Article |
| id | doaj-art-310fa63c0a8a4be8995e60595b9f13ef |
| institution | DOAJ |
| issn | 1687-8140 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | SAGE Publishing |
| record_format | Article |
| series | Advances in Mechanical Engineering |
| spelling | doaj-art-310fa63c0a8a4be8995e60595b9f13ef2025-08-20T02:39:25ZengSAGE PublishingAdvances in Mechanical Engineering1687-81402024-12-011610.1177/16878132241296904The application and optimization of rolling processing technology in improving the efficiency of deep hole processingTian Chunlei0Cao Yan1Chen Tian2Yuan Tianlong3Faculty of Mechanical and Electrical Engineering, Xi’an Technical University, Xi’an, ChinaFaculty of Computer Science and Engineering, Xi’an Technical University, Xi’an, ChinaFaculty of Mechanical and Electrical Engineering, Xi’an Technical University, Xi’an, ChinaFaculty of Mechanical and Electrical Engineering, Xi’an Technical University, Xi’an, ChinaWith the advancement of technology, the field of deep hole processing faces dual challenges of increased precision and increased production. Although traditional honing and grinding processes dominate, they are inefficient and do not adapt to large-scale production. Rolling processing technology has become an alternative solution with its advantages of high precision and high efficiency. This study aims to apply rolling processing to deep hole processing to improve efficiency. An elastic-plastic model was constructed to clarify the relationship between stress, strain, and displacement, and it was transformed into a simulated flow plastic stress equation. A finite element model was established, and its accuracy was verified through experiments, revealing the effects of various parameters on stress and strain. In the experimental stage, the amount of interference, feed speed, and rotation speed were identified as the main influencing factors, and a multi-objective optimization model was established accordingly. Comparative analysis showed that the grinding accuracy was the highest (0.13 μm), while the multi-objective optimization combination and variance combination reached 0.22 and 0.31 μm, respectively. In terms of processing efficiency, rolling is ten times that of grinding. Rolling processing can replace some grinding processes under specific conditions, significantly improving efficiency, which is of great significance for the development of deep hole processing technology.https://doi.org/10.1177/16878132241296904 |
| spellingShingle | Tian Chunlei Cao Yan Chen Tian Yuan Tianlong The application and optimization of rolling processing technology in improving the efficiency of deep hole processing Advances in Mechanical Engineering |
| title | The application and optimization of rolling processing technology in improving the efficiency of deep hole processing |
| title_full | The application and optimization of rolling processing technology in improving the efficiency of deep hole processing |
| title_fullStr | The application and optimization of rolling processing technology in improving the efficiency of deep hole processing |
| title_full_unstemmed | The application and optimization of rolling processing technology in improving the efficiency of deep hole processing |
| title_short | The application and optimization of rolling processing technology in improving the efficiency of deep hole processing |
| title_sort | application and optimization of rolling processing technology in improving the efficiency of deep hole processing |
| url | https://doi.org/10.1177/16878132241296904 |
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