Reza Kolahchi

What is he best known for?

The fields of study he is best known for:

• Composite material
• Thermodynamics
• Mechanics

Reza Kolahchi spends much of his time researching Boundary value problem, Viscoelasticity, Nonlinear system, Orthotropic material and Equations of motion. His Boundary value problem study frequently links to adjacent areas such as Classical mechanics. His Classical mechanics research is multidisciplinary, relying on both Mechanics, Aspect ratio and Differential equation.

The concepts of his Viscoelasticity study are interwoven with issues in Structural engineering and Material properties. His Material properties study introduces a deeper knowledge of Composite material. His Orthotropic material study incorporates themes from Plate theory and Mathematical analysis.

His most cited work include:

• Dynamic stability analysis of temperature-dependent functionally graded CNT-reinforced visco-plates resting on orthotropic elastomeric medium (93 citations)
• A comparative study on the bending, vibration and buckling of viscoelastic sandwich nano-plates based on different nonlocal theories using DC, HDQ and DQ methods (89 citations)
• NONLOCAL VIBRATION AND INSTABILITY OF EMBEDDED DWBNNT CONVEYING VISCOSE FLUID (78 citations)

What are the main themes of his work throughout his whole career to date?

Reza Kolahchi mainly focuses on Composite material, Mechanics, Boundary value problem, Buckling and Piezoelectricity. Reza Kolahchi interconnects Nanoparticle and Plate theory in the investigation of issues within Composite material. His Mechanics study integrates concerns from other disciplines, such as Nyström method, Equations of motion, Classical mechanics and Timoshenko beam theory.

His Boundary value problem research includes elements of Numerical analysis, Knudsen number, Deflection and Nonlinear system. Buckling is a subfield of Structural engineering that he studies. His work in Piezoelectricity addresses issues such as Creep, which are connected to fields such as Radial stress.

He most often published in these fields:

• Composite material (44.52%)
• Mechanics (32.88%)
• Boundary value problem (32.88%)

What were the highlights of his more recent work (between 2019-2021)?

• Piezoelectricity (28.08%)
• Composite material (44.52%)
• Equations of motion (27.40%)

In recent papers he was focusing on the following fields of study:

The scientist’s investigation covers issues in Piezoelectricity, Composite material, Equations of motion, Boundary value problem and Deflection. Reza Kolahchi has researched Composite material in several fields, including Nanoparticle, Beam, Timoshenko beam theory and Bearing. His Equations of motion study combines topics in areas such as Viscoelasticity and Buckling.

Reza Kolahchi interconnects Numerical analysis and Carbon nanocone in the investigation of issues within Viscoelasticity. His studies in Buckling integrate themes in fields like Nanocomposite, Instability, Transverse plane, Carbon nanotube and Plate theory. His Boundary value problem research incorporates themes from Vertex angle, Mechanics, Shell element and Viscosity.

Between 2019 and 2021, his most popular works were:

• Application of differential cubature method for nonlocal vibration, buckling and bending response of annular nanoplates integrated by piezoelectric layers based on surface-higher order nonlocal-piezoelasticity theory (26 citations)
• Optimization of dynamic buckling for sandwich nanocomposite plates with sensor and actuator layer based on sinusoidal-visco-piezoelasticity theories using Grey Wolf algorithm: (25 citations)
• Dynamic buckling optimization of laminated aircraft conical shells with hybrid nanocomposite martial (20 citations)

In his most recent research, the most cited papers focused on:

• Composite material
• Thermodynamics
• Structural engineering

His main research concerns Piezoelectricity, Buckling, Deflection, Equations of motion and Structural engineering. Reza Kolahchi regularly ties together related areas like Nanocomposite in his Buckling studies. His Deflection research also works with subjects such as

• Nanostructure together with Boundary value problem,
• Shear deformation theory that connect with fields like Nyström method.

In his research, Vertex angle, Conical surface, Mathematical analysis and Instability is intimately related to Dispersion, which falls under the overarching field of Boundary value problem. His Equations of motion research includes themes of Micromechanics, Young's modulus, Composite material, Viscoelasticity and Zigzag. The study incorporates disciplines such as Layer, Algorithm, Work and Actuator in addition to Structural engineering.

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