What is she best known for?
The fields of study she is best known for:
- Composite material
- Polymer
- Geometry
Her primary scientific interests are in Composite material, Elastic modulus, Composite number, Boundary value problem and Finite element method.
Her Micromechanics, Nanocomposite and Fiber-reinforced composite study, which is part of a larger body of work in Composite material, is frequently linked to Triply periodic minimal surface, bridging the gap between disciplines.
Her Elastic modulus research integrates issues from Shear modulus and Classical mechanics.
Her research in Composite number tackles topics such as Mathematical analysis which are related to areas like Length scale.
Iwona Jasiuk has researched Boundary value problem in several fields, including Traction, Displacement, Stiffness and Bounded function.
Her Finite element method research is multidisciplinary, relying on both Mathematical model, Minimal surface, Geometry, Lattice and Randomness.
Her most cited work include:
- Experimental trends in polymer nanocomposites—a review (845 citations)
- TEM analysis of the nanostructure of normal and osteoporotic human trabecular bone (230 citations)
- Multiscale modeling of elastic properties of cortical bone (128 citations)
What are the main themes of her work throughout her whole career to date?
Composite material, Elastic modulus, Cortical bone, Finite element method and Nanocomposite are her primary areas of study.
Her Composite number, Micromechanics, Microstructure, Elasticity and Nanoindentation investigations are all subjects of Composite material research.
Her Elastic modulus research is multidisciplinary, incorporating perspectives in Trabecular bone, Porosity and Mathematical analysis.
The Cortical bone study combines topics in areas such as Scanning electron microscope, Age related and Biomedical engineering.
Her Finite element method study incorporates themes from Volume fraction, Minimal surface and Stiffness.
Her Nanocomposite research incorporates elements of Carbon nanotube and Thermosetting polymer.
She most often published in these fields:
- Composite material (48.85%)
- Elastic modulus (16.59%)
- Cortical bone (15.21%)
What were the highlights of her more recent work (between 2017-2021)?
- Composite material (48.85%)
- Finite element method (15.21%)
- Thermosetting polymer (5.99%)
In recent papers she was focusing on the following fields of study:
Iwona Jasiuk focuses on Composite material, Finite element method, Thermosetting polymer, Chemical engineering and Cortical bone.
Composite material is closely attributed to Minimal surface in her work.
Her Finite element method research includes themes of Micromechanics, Polymer composites and 3D printing.
Her 3D printing research focuses on subjects like Digital image correlation, which are linked to Composite number.
Iwona Jasiuk has included themes like Polyester, Copolyester, Nanocomposite, Polymer science and Polymer in her Thermosetting polymer study.
Her Cortical bone research includes elements of Thermogravimetric analysis, Extended finite element method, Raman spectroscopy and Crystallite.
Between 2017 and 2021, her most popular works were:
- Mechanical properties of 3D printed polymeric Gyroid cellular structures: Experimental and finite element study (67 citations)
- An Overview on Additive Manufacturing of Polymers (41 citations)
- Acoustic band gaps and elastic stiffness of PMMA cellular solids based on triply periodic minimal surfaces (31 citations)
In her most recent research, the most cited papers focused on:
- Composite material
- Mathematical analysis
- Geometry
Iwona Jasiuk spends much of her time researching Composite material, Finite element method, Minimal surface, Thermosetting polymer and Monte Carlo method.
Her biological study spans a wide range of topics, including Extended finite element method and Crossover.
In her work, Periodic boundary conditions, Elastic modulus, Band gap and Electronic band structure is strongly intertwined with Stiffness, which is a subfield of Finite element method.
Her Minimal surface research incorporates themes from Ceramic, Neovius surface, Lattice, Modulus and Coating.
Her work in Thermosetting polymer addresses subjects such as Copolyester, which are connected to disciplines such as Nanocomposite, Polymer and Polymerization.
Her Volume fraction study also includes
- Composite number most often made with reference to Dispersion,
- Chemical physics together with Polymer nanocomposite.
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