Heow Pueh Lee

What is he best known for?

The fields of study he is best known for:

• Composite material
• Mechanical engineering
• Structural engineering

Heow Pueh Lee focuses on Structural engineering, Mechanics, Finite element method, Vibration and Composite material. His Structural engineering research incorporates elements of Nanoscopic scale and Surface. His work carried out in the field of Mechanics brings together such families of science as Beam, Timoshenko beam theory, Viscoelasticity and Pain relief.

His studies deal with areas such as Boundary value problem, Moving load and Microelectromechanical systems as well as Beam. The various areas that he examines in his Vibration study include Noise control, Numerical analysis and Classical mechanics. His research integrates issues of Thin film, Generalization and Nonlinear system in his study of Plate theory.

His most cited work include:

• PROPER ORTHOGONAL DECOMPOSITION AND ITS APPLICATIONS—PART I: THEORY (444 citations)
• A comparison of PCA, KPCA and ICA for dimensionality reduction in support vector machine (388 citations)
• Modeling and analysis of micro piezoelectric power generators for micro-electromechanical-systems applications (377 citations)

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

His main research concerns Finite element method, Acoustics, Mechanics, Composite material and Vibration. Finite element method is the subject of his research, which falls under Structural engineering. His work deals with themes such as Beam and Equations of motion, which intersect with Mechanics.

The concepts of his Beam study are interwoven with issues in Numerical analysis and Euler's formula. His Equations of motion study is related to the wider topic of Classical mechanics. His study in Boundary value problem extends to Vibration with its themes.

He most often published in these fields:

• Finite element method (19.66%)
• Acoustics (16.22%)
• Mechanics (15.72%)

What were the highlights of his more recent work (between 2017-2021)?

• Acoustics (16.22%)
• Composite material (15.97%)
• Noise (7.86%)

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

Heow Pueh Lee mostly deals with Acoustics, Composite material, Noise, Noise control and Finite element method. Heow Pueh Lee has included themes like Resonator and Metamaterial in his Acoustics study. His study in Noise is interdisciplinary in nature, drawing from both Noise reduction, Acceleration and Fuselage.

His Noise control study combines topics in areas such as Noise level, Traffic noise, Absorption and Architectural acoustics. His biological study spans a wide range of topics, including End mill, Attenuation, Mathematical analysis and Vibration. His Fiber study incorporates themes from Dispersion and Stiffness.

Between 2017 and 2021, his most popular works were:

• Effects of hybridization and hybrid fibre dispersion on the mechanical properties of woven flax-carbon epoxy at low carbon fibre volume fractions (51 citations)
• Effect of Porosity on Mechanical Properties of 3D Printed Polymers: Experiments and Micromechanical Modeling Based on X-ray Computed Tomography Analysis. (43 citations)
• Microstructure-based experimental and numerical investigations on the sound absorption property of open-cell metallic foams manufactured by a template replication technique (31 citations)

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

• Composite material
• Mechanical engineering
• Surgery

His primary areas of study are Composite material, Acoustics, Noise control, Metamaterial and Noise. His Composite material research integrates issues from Transverse plane and Transverse shear deformation. His Acoustics research includes themes of Attenuation and Finite element method.

His work deals with themes such as Micromechanics, Fibre-reinforced plastic, Protein filament, Homogenization and Viscoelasticity, which intersect with Finite element method. The concepts of his Noise control study are interwoven with issues in Flax fiber, Broadband, Absorption, Resonator and Architectural acoustics. His biological study spans a wide range of topics, including Vibration, Polypropylene, Polymer composites and Finite element simulation.

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