Joseph L. Rose focuses on Guided wave testing, Acoustics, Optics, Ultrasonic sensor and Nondestructive testing. His Guided wave testing research includes elements of Group velocity, Piping, Structural engineering, Mechanics and Reflection. His Acoustics study incorporates themes from Wave propagation, Lamb waves, Longitudinal wave and Electronic engineering.
In the subject of general Wave propagation, his work in Mechanical wave and Rayleigh wave is often linked to Sound energy, thereby combining diverse domains of study. His Optics research incorporates elements of Normal mode, Dispersion, Phase and Transducer. His study in Ultrasonic sensor is interdisciplinary in nature, drawing from both Composite material, Structural health monitoring, Adhesive, Frequency domain and Transverse wave.
Joseph L. Rose mainly focuses on Acoustics, Ultrasonic sensor, Guided wave testing, Optics and Nondestructive testing. The Acoustics study combines topics in areas such as Wave propagation, Lamb waves and Structural health monitoring. His studies in Wave propagation integrate themes in fields like Isotropy and Mechanics.
His study looks at the relationship between Ultrasonic sensor and topics such as Composite material, which overlap with Anisotropy. His Guided wave testing study integrates concerns from other disciplines, such as Piping, Structural engineering, Finite element method, Dispersion and Phase velocity. The study incorporates disciplines such as Normal mode, Excitation and Boundary value problem in addition to Optics.
His primary areas of investigation include Acoustics, Guided wave testing, Ultrasonic sensor, Transducer and Optics. His Acoustics research integrates issues from Longitudinal wave, Phase, Finite element method and Structural health monitoring. His Guided wave testing research includes themes of Wavelength, Excitation, Harmonics, Nonlinear system and Reflection.
His work deals with themes such as Composite number, Composite material, Actuator, Signal and Nondestructive testing, which intersect with Ultrasonic sensor. Joseph L. Rose combines subjects such as Piezoelectricity and Beam steering with his study of Transducer. His biological study spans a wide range of topics, including Synchronism and Conductor.
His primary areas of study are Acoustics, Ultrasonic sensor, Optics, Guided wave testing and Finite element method. Joseph L. Rose has included themes like Wavelength, Wave propagation, Longitudinal wave, Nonlinear system and Numerical analysis in his Acoustics study. His Ultrasonic sensor study combines topics in areas such as Material properties, Shear, Structural health monitoring, Delamination and Nondestructive testing.
His studies deal with areas such as Optical fiber, Fiber Bragg grating, Refraction, Dispersion and Reflection as well as Nondestructive testing. As a member of one scientific family, Joseph L. Rose mostly works in the field of Guided wave testing, focusing on Transducer and, on occasion, Excitation. His research integrates issues of Floquet theory, Periodic boundary conditions and Metamaterial in his study of Finite element method.
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Ultrasonic Waves in Solid Media
Joseph L. Rose.
A Baseline and Vision of Ultrasonic Guided Wave Inspection Potential
Joseph L. Rose.
Journal of Pressure Vessel Technology-transactions of The Asme (2002)
Active health monitoring of an aircraft wing with embedded piezoelectric sensor/actuator network: I. Defect detection, localization and growth monitoring
Xiaoliang Zhao;Huidong Gao;Guangfan Zhang;Bulent Ayhan.
Smart Materials and Structures (2007)
Ultrasonic Guided Waves in Solid Media
Joseph L. Rose.
Guided wave dispersion curves for a bar with an arbitrary cross-section, a rod and rail example
Takahiro Hayashi;Won Joon Song;Joseph L Rose.
A boundary element solution for a mode conversion study on the edge reflection of Lamb waves
Younho Cho;Joseph L. Rose.
Journal of the Acoustical Society of America (1996)
The behaviour of ultrasonic pulses in concrete
Sandor Popovics;Joseph Lawrence Rose;John S. Popovics.
Cement and Concrete Research (1990)
A comparison of embedded sensor Lamb wave ultrasonic tomography approaches for material loss detection
T R Hay;R L Royer;Huidong Gao;Xiang Zhao.
Smart Materials and Structures (2006)
Implementing guided wave mode control by use of a phased transducer array
J. Li;J.L. Rose.
IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control (2001)
A guided wave inspection technique for nuclear steam generator tubing
J.L. Rose;J.J. Ditri;A. Pilarski;K. Rajana.
Ndt & E International (1994)
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