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Fracture Toughness of Moldable Low-Temperature Carbonized Elastomer-Based Composites Filled with Shungite and Short Carbon Fibers.

Semen D IgnatyevEugene S StatnikDmitriy Yu OzherelkovDmitry D ZherebtsovAlexey I SalimonDilyus I ChukovVictor Victorovich TcherdyntsevAndrey A StepashkinAlexander M Korsunsky
Published in: Polymers (2022)
This work evaluated the fracture toughness of the low-temperature carbonized elastomer-based composites filled with shungite and short carbon fibers. The effects of the carbonization temperature and filler content on the critical stress intensity factor ( K 1 c ) were examined. The K 1 c parameter was obtained using three-point bending tests for specimens with different l / b ratio (notch depth to sample thickness) ranging from 0.2 to 0.4. Reliable detection of the initiation and propagation of cracks was achieved using an acoustic sensor was attached to the samples during the bending test. The critical stress intensity factor was found to decrease linearly with increasing carbonization temperature. As the temperature increased from 280 to 380 °C, the K 1 c parameter was drastically reduced from about 5 to 1 MPa·m 1/2 and was associated with intense outgassing during the carbonization step that resulted in sample porosity. The carbon fiber addition led to some incremental toughening; however, it reduced the statistical dispersion of the K 1 c values.
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