Pooya Niksiar scite author profile

The use of weak magnetic fields to control the microstructural evolution of colloidal-based systems in conjunction with directional solidification is demonstrated as a convenient processing route to fabricate anisotropic ceramic scaffolds with complex microarchitectures. A variety of graded and aligned microstructures were formed by applying external static magnetic fields oriented radially, axially, and transversely with respect to the solidification direction of freezing slurries containing micro/ nanoparticles of ZrO 2 and Fe 3 O 4 . The graded structures, formed by the radial and axial fields, resemble core-shell architectures composed of dense outer perimeters surrounding porous inner cores. The aligned structures, formed by transverse fields, exhibit two modes of microstructural alignment: lamellar walls aligned by the growing ice crystals and mineral bridges aligned by the magnetic fields. The alignment of mineral bridges that connect adjacent lamellae, provide these scaffolds enhanced strength and stiffness when compressed parallel to their orientation (parallel to the direction of the magnetic field).

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External Field Assisted Freeze Casting

Niksiar

Frank

et al. 2019

Ceramics

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Freeze casting under external fields (magnetic, electric, or acoustic) produces porous materials having local, regional, and global microstructural order in specific directions. In freeze casting, porosity is typically formed by the directional solidification of a liquid colloidal suspension. Adding external fields to the process allows for structured nucleation of ice and manipulation of particles during solidification. External control over the distribution of particles is governed by a competition of forces between constitutional supercooling and electromagnetism or acoustic radiation. Here, we review studies that apply external fields to create porous ceramics with different microstructural patterns, gradients, and anisotropic alignments. The resulting materials possess distinct gradient, core–shell, ring, helical, or long-range alignment and enhanced anisotropic mechanical properties.

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Multidimensional mechanics: Performance mapping of natural biological systems using permutated radar charts

Porter

Niksiar

2018

PLoS ONE

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Comparing the functional performance of biological systems often requires comparing multiple mechanical properties. Such analyses, however, are commonly presented using orthogonal plots that compare N ≤ 3 properties. Here, we develop a multidimensional visualization strategy using permutated radar charts (radial, multi-axis plots) to compare the relative performance distributions of mechanical systems on a single graphic across N ≥ 3 properties. Leveraging the fact that radar charts plot data in the form of closed polygonal profiles, we use shape descriptors for quantitative comparisons. We identify mechanical property-function correlations distinctive to rigid, flexible, and damage-tolerant biological materials in the form of structural ties, beams, shells, and foams. We also show that the microstructures of dentin, bone, tendon, skin, and cartilage dictate their tensile performance, exhibiting a trade-off between stiffness and extensibility. Lastly, we compare the feeding versus singing performance of Darwin’s finches to demonstrate the potential of radar charts for multidimensional comparisons beyond mechanics of materials.

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Microstructural evolution of paramagnetic materials by magnetic freeze casting

Niksiar

Frank

McKittrick

et al. 2019

Journal of Materials Research and Technology

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Identifying structure-property relationships of micro-architectured porous scaffolds through 3D printing and finite element analysis

Yang

Niksiar

Meng

2022

Computational Materials Science

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Pooya Niksiar

Microstructural Control of Colloidal‐Based Ceramics by Directional Solidification Under Weak Magnetic Fields

External Field Assisted Freeze Casting

Multidimensional mechanics: Performance mapping of natural biological systems using permutated radar charts

Microstructural evolution of paramagnetic materials by magnetic freeze casting

Identifying structure-property relationships of micro-architectured porous scaffolds through 3D printing and finite element analysis

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