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On stress intensity factor computation from the quarter-point element displacements

✍ Scribed by Lim, I. L. ;Johnston, I. W. ;Choi, S. K.

Publisher
Wiley (John Wiley & Sons)
Year
1992
Tongue
English
Weight
403 KB
Volume
8
Category
Article
ISSN
0748-8025

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✦ Synopsis

In conjunction with the quarter-point element, a wide range of stress intensity factor computation techniques may be employed. Of these, the displacement correlation technique (DCT) and the quarterpoint displacement technique (QPDT) have been in common use. It has been suggested by various investigators that the DCT is more rational in formulation and should therefore be more accurate than the QPDT. However, published numerical studies provide conflicting results on the relative performance of either technique. To resolve this anomaly, this study provides a detailed investigation on the DCT and QPDT performance. On the basis of considering the second term in Westergaard's expression and supported by numerical experiments, it is concluded that the QPDT would generally perform better than the DCT.

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✍ José Martínez; José Domínguez 📂 Article 📅 1984 🏛 John Wiley and Sons 🌐 English ⚖ 403 KB 👁 1 views

This communication studies a procedure for stress intensity factor computations using traction singular quarter-point boundary elements. Opening mode stress intensity factors are computed from the tractions' nodal values at the crack tip. A comparison is made between the factors calculated using thi