Nut Resilience and Vibration Fatigue Limit of Bolted Joints
An increasing number of materials with a lower specific density are being used as part of the drive towards lightweight construction. Plenty of tests have been carried out on light metal bolts. However, the only bare essentials are known about the effect of nut resilience on the vibration fatigue li...
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| Published in | SAE International journal of materials and manufacturing Vol. 1; no. 1; pp. 243 - 248 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Warrendale
SAE International
01.01.2009
SAE International, a Pennsylvania Not-for Profit |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1946-3979 1946-3987 1946-3987 |
| DOI | 10.4271/2008-01-0544 |
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| Abstract | An increasing number of materials with a lower specific density are being used as part of the drive towards lightweight construction. Plenty of tests have been carried out on light metal bolts. However, the only bare essentials are known about the effect of nut resilience on the vibration fatigue limit. As bolts are subject to both static and cyclical stress during their lifetime, their load-bearing capacity under cyclical stress is hugely important.
The general measures available to improve the vibration fatigue limit will be presented. The effect of varying the modulus of elasticity of internal threads on the vibration fatigue limit of standard high-strength bolts will be shown. |
|---|---|
| AbstractList | An increasing number of materials with a lower specific density are being used as part of the drive towards lightweight construction.
Plenty of tests have been carried out on light metal bolts. However, the only bare essentials are known about the effect of
nut resilience on the vibration fatigue limit. As bolts are subject to both static and cyclical stress during their lifetime,
their load-bearing capacity under cyclical stress is hugely important.
The general measures available to improve the vibration fatigue limit will be presented. The effect of varying the modulus
of elasticity of internal threads on the vibration fatigue limit of standard high-strength bolts will be shown. An increasing number of materials with a lower specific density are being used as part of the drive towards lightweight construction. Plenty of tests have been carried out on light metal bolts. However, the only bare essentials are known about the effect of nut resilience on the vibration fatigue limit. As bolts are subject to both static and cyclical stress during their lifetime, their load-bearing capacity under cyclical stress is hugely important. An increasing number of materials with a lower specific density are being used as part of the drive towards lightweight construction. Plenty of tests have been carried out on light metal bolts. However, the only bare essentials are known about the effect of nut resilience on the vibration fatigue limit. As bolts are subject to both static and cyclical stress during their lifetime, their load-bearing capacity under cyclical stress is hugely important. The general measures available to improve the vibration fatigue limit will be presented. The effect of varying the modulus of elasticity of internal threads on the vibration fatigue limit of standard high-strength bolts will be shown. An increasing number of materials with a lower specific density are being used as part of the drive towards lightweight construction. Plenty of tests have been carried out on light metal bolts. However, the only bare essentials are known about the effect of nut resilience on the vibration fatigue limit. As bolts are subject to both static and cyclical stress during their lifetime, their load-bearing capacity under cyclical stress is hugely important. The general measures available to improve the vibration fatigue limit will be presented. The effect of varying the modulus of elasticity of internal threads on the vibration fatigue limit of standard high-strength bolts will be shown. |
| ArticleNumber | 2008-01-0544 |
| Author | Weber, J. O Arz, U Berger, C |
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| Snippet | An increasing number of materials with a lower specific density are being used as part of the drive towards lightweight construction.
Plenty of tests have been... An increasing number of materials with a lower specific density are being used as part of the drive towards lightweight construction. Plenty of tests have been... |
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| StartPage | 243 |
| SubjectTerms | Aluminum Bearing capacity Bolted joints Fatigue Fatigue limit Heat treatment Material fatigue Material resilience Moduli of elasticity Nuts Resilience Steels Vibration Vibrational stress |
| Title | Nut Resilience and Vibration Fatigue Limit of Bolted Joints |
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