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[1854] Artykuł:

Modal approach for processing one- and three-point bend test data for DSIF-time diagram determination. Part II - Calculations and results

Czasopismo: Fatigue & Fracture of Engineering Materials & Structures   Tom: 21, Zeszyt: 8, Strony: 1015-1026
ISSN:  8756-758X
Wydawca:  BLACKWELL SCIENCE LTD, P O BOX 88, OSNEY MEAD, OXFORD OX2 0NE, OXON, ENGLAND
Opublikowano: Sierpień 1998
 
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Grupa MNiSW:  Publikacja w czasopismach wymienionych w wykazie ministra MNiSzW (część A)
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Keywords:

Instrumented impact test  Dynamic stress intensity factor  Hybrid experimentalnumerical method  Finite element method 



Abstract:

In Part I of this paper, using the modal superposition method, equations for dynamic SIF calculations are derived for an arbitrary linear model of an impact bend specimen. In this paper (Part II), modal parameters and other data which are necessary for the DSIF determination have been calculated for three types of specimen model: the Euler–Bernoulli beam model, and two- (2D) and three-dimensional (3D) solid models. For the latter two cases, calculations were performed using the finite element program ADINA. Results for the 2D model of the specimen were fitted by polynomials for a wide range of specimen geometry parameters and Poisson’s ratio values. Considerable differences were observed between the beam model parameters and the 2D or 3D ones. The differences in results for the 2D and 3D models are small and mainly connected with non-uniformity of the SIF distribution along the front of a through-crack in the 3D solid. Results of processing one- and three-point bend test data reported in the literature are presented. Numerical DSIF values are compared with the experimental ones.