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Stress intensity factor solutions for cracks in threaded fasteners

Conference ·
OSTI ID:755395
 [1];
  1. Bettis Atomic Power Laboratory
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Nondimensional stress intensity factor (K) solutions for continuous circumferential cracks in threaded fasteners were calculated using finite element methods that determined the energy release rate during virtual crack extension. Assumed loading conditions included both remote tension and nut loading, whereby the effects of applying the load to the thread flank were considered. In addition, K solutions were developed for axisymmetric surface cracks in notched and smooth round bars. Results showed that the stress concentration of a thread causes a considerable increase in K for shallow cracks, but has much less effect for longer cracks. In the latter case, values of K can be accurately estimated from K solutions for axisymmetric cracks in smooth round bars. Nut loading increased K by about 50% for shallow cracks, but this effect became negligible at crack depth-to-minor diameter ratios (a/d) greater than 0.2. An evaluation of thread root acuity effects showed that root radius has no effect on K when the crack depth exceeds 2% of the minor diameter. Closed-form K solutions were developed for both remote-loading and nut-loading conditions and for a wide range of thread root radii. The K solutions obtained in this study were compared with available literature solutions for threaded fasteners as well as notched and smooth round bars.
Research Organization:
Bettis Atomic Power Lab., West Mifflin, PA (US)
Sponsoring Organization:
US Department of Energy (US)
DOE Contract Number:
AC11-98PN38206
OSTI ID:
755395
Report Number(s):
B-T-3244
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
AXISYMMETRIC CRACKS
AXISYMMETRIC FINITE ELEMENT ANALYSIS
CRACK PROPAGATION
CRACKS
FASTENERS
NUMERICAL SOLUTION
STRESS INTENSITY FACTOR SOLUTIONS
STRESS INTENSITY FACTORS
THREADED FASTENERS
THREADED JOINTS