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Fracture toughness of ductile polymers can be measured by the incremental crack growth resistance curve, where J-Integral value is plotted as a function of crack extension. The determination of the resistance curve, JR, is generally performed through the so-called multiple-specimen technique. In this procedure, several identical specimens are loaded to obtain different amounts of crack growth, thus involving a large number of tests and large quantity of test material. It is also hard to apply in situations such as under high-load- ing rate conditions, elevated temperatures and/or aggressive environments where it is dif- ﬁcult to stop the test to measure crack extension. Consequently, alternative single specimen techniques appear attractive. The theoretical basis for the single specimen J form used in the incremental JR curves is given by the Load Separation Principle. It is based on the assumption that the load can be represented as the multiplication of two separate func- tions: a crack geometry function and a material deformation function. This principle allows the introduction of the so-called g parameter which greatly simpliﬁes J calculation. The crack geometry function is general represented as a power law function which exponent coincides with g factor. By analyzing load line displacement records of several blunt notched specimens differing in their initial crack length before the starting of crack prop- agation it is possible to evaluate g factor and verify Load Separation Principle assumption. Based on the validity of this principle two methodologies have been developed: Load Sep- aration method, Spb, and Normalization Data Reduction technique. These methodologies have the inherent advantage of developing JR curves directly from a single load versus load-line displacement record without using any sophisticated automated crack length monitoring system. Load Separation method infers the growing crack length from the load ratio of two loaddisplacement records: one growing crack and other stationary crack. Nor- malization method utilizes the Material Key Curve, calibrated using one individual normal- ized loaddisplacement record, to infer the instantaneous crack length. Variants of both methodologies have been already successfully used in ductile fracture characterization of polymers by several authors.

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