Huajiang Ouyang mainly focuses on Vibration, Finite element method, Stiffness, Structural engineering and Disc brake. His research integrates issues of Beam, Equations of motion, Control theory and Contact force in his study of Vibration. His biological study spans a wide range of topics, including Brake and Eigenvalue analysis.
His Stiffness study integrates concerns from other disciplines, such as Inverse problem, Vibration isolation, Classical mechanics, Damper and Spring. His research in Structural engineering intersects with topics in Mechanical engineering, Track and Nonlinear system. His Disc brake research includes themes of Brake pad, Transient analysis, Structural acoustics, Mechanics and Numerical analysis.
The scientist’s investigation covers issues in Vibration, Structural engineering, Finite element method, Mechanics and Control theory. His work in Vibration addresses subjects such as Beam, which are connected to disciplines such as Mathematical analysis. He combines subjects such as Modal, Vibration isolation, Welding and Nonlinear system with his study of Structural engineering.
In Finite element method, he works on issues like Disc brake, which are connected to Brake pad. His Mechanics research is multidisciplinary, incorporating perspectives in Slider and Equations of motion, Classical mechanics. His work deals with themes such as Stiffness matrix and Vibration control, which intersect with Control theory.
His primary areas of investigation include Vibration, Mechanics, Structural engineering, Stiffness and Finite element method. His work carried out in the field of Vibration brings together such families of science as Amplitude, Slider, Disc brake and Rotor. His research on Mechanics also deals with topics like
His Structural engineering research is multidisciplinary, incorporating elements of Modal, Vibration isolation and Displacement. Huajiang Ouyang has included themes like Resonator, Band gap and Suspension in his Stiffness study. His Finite element method study combines topics in areas such as Thread, Numerical analysis, Composite material and Computer simulation.
His main research concerns Mechanics, Vibration, Band gap, Stiffness and Resonator. His study in Mechanics is interdisciplinary in nature, drawing from both Radius, Track and Finite element method, Element model. His Vibration research incorporates themes from Mechanism, Transverse plane, Casing, Rotor and Bearing.
His study on Band gap also encompasses disciplines like
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Numerical analysis of automotive disc brake squeal: a review
Huajiang Ouyang;Wayne Nack;Yongbin Yuan;Frank Chen.
International Journal of Vehicle Noise and Vibration (2005)
Moving-load dynamic problems: A tutorial (with a brief overview)
Mechanical Systems and Signal Processing (2011)
Complex eigenvalue analysis and dynamic transient analysis in predicting disc brake squeal
Abd Rahim AbuBakar;Huajiang Ouyang.
International Journal of Vehicle Noise and Vibration (2006)
Friction-induced parametric resonances in discs: Effect of a negative friction-velocity relationship
H. Ouyang;J.E. Mottershead;M.P. Cartmell;M.I. Friswell.
Journal of Sound and Vibration (1998)
Simplified models of bolted joints under harmonic loading
Matthew Oldfield;Huajiang Ouyang;John E. Mottershead.
Computers & Structures (2005)
A novel quasi-zero-stiffness strut and its applications in six-degree-of-freedom vibration isolation platform
Jiaxi Zhou;Qingyu Xiao;Daolin Xu;Huajiang Ouyang.
Journal of Sound and Vibration (2017)
Experimental and theoretical studies of a bolted joint excited by a torsional dynamic load
H. Ouyang;M.J. Oldfield;J.E. Mottershead.
International Journal of Mechanical Sciences (2006)
Wear prediction of friction material and brake squeal using the finite element method
Abd Rahim AbuBakar;Huajiang Ouyang.
Tensile failure strength and separation angle of FDM 3D printing PLA material: Experimental and theoretical analyses
Tianyun Yao;Juan Ye;Zichen Deng;Kai Zhang.
Composites Part B-engineering (2020)
A methodology for the determination of dynamic instabilities in a car disc brake
H. Ouyang;J.E. Mottershead;D.J. Brookfield;S. James.
International Journal of Vehicle Design (2000)
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