Nima Shafaghi scite author profile

Nima Shafaghi

5Publications

15Citation Statements Received

38Citation Statements Given

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154

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Boğaziçi University

Publications

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Experimental and computational investigation of the effect of phase transformation on fracture parameters of an SMA

Haghgouyan

Shafaghi

Aydıner

et al. 2016

Smart Mater. Struct.

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A comprehensive, multi-method experimental characterization of fracture is conducted on shape memory alloy NiTi that exhibits superelasticity due to austenite-to-martensite stress induced phase transformation. This characterization includes (i) load-based measurement of critical stress intensity factor (K max ) using ASTM standard E399, (ii) measurement of crack tip opening displacement (CTOD) per ASTM standard E1290, (iii) the digital image correlation (DIC) characterization of the transformation zone as well as the displacement-field based measurement of K max from the DIC data. Samples have also been tested at T=100 °C to suppress the martensitic transformation to investigate transformation toughening. The experimental investigation is complemented with finite element (FE) analysis that uses Auricchio-Taylor-Lubliner constitutive model. A direct observation with DIC revealed a small scale transformation (K-dominance). K max of the transforming material is higher than that of the transformationsuppressed material tested at 100 °C, suggesting transformation toughening. At 100 °C, the material becomes quite brittle with a very small crack-tip plastic zone when the transformation mechanism is blocked. By measures of critical CTOD, the gap widens even more between the superelastic and transformation-suppressed cases, particularly because of the side effect that, in this very interesting material, material modulus increases with temperature. Evaluating the transformation zone from the DIC strains with reference to the uniaxial stress-strain curve, an equivalent strain form is proposed in conjunction with the plane stress FE prediction.

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Experimental and Computational Evaluation of Crack-tip Displacement Field and Transformation Zone in NiTi

Shafaghi

Haghgouyan

Aydıner

et al. 2015

Materials Today: Proceedings

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Texture-dependent character of strain heterogeneity in Magnesium AZ31 under reversed loading

Kapan

Shafaghi

Uçar

et al. 2017

Materials Science and Engineering: A

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Cyclic Strain Heterogeneity and Damage Formation in Rolled Magnesium Via In Situ Microscopic Image Correlation

2020

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Strain Localization Structures in Textured Magnesium AZ31 Under Reversed Loading via Microscopic Digital Image Correlation

Kapan

Shafaghi

Uçar

et al. 2017

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Nima Shafaghi

Experimental and computational investigation of the effect of phase transformation on fracture parameters of an SMA

Experimental and Computational Evaluation of Crack-tip Displacement Field and Transformation Zone in NiTi

Texture-dependent character of strain heterogeneity in Magnesium AZ31 under reversed loading

Cyclic Strain Heterogeneity and Damage Formation in Rolled Magnesium Via In Situ Microscopic Image Correlation

Strain Localization Structures in Textured Magnesium AZ31 Under Reversed Loading via Microscopic Digital Image Correlation

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