Ultrasound for Material Characterization and Processing

Ultrasound for Material Characterization and Processing

Ultrasonic waves are nowadays used for multiple purposes including both low-intensity/high frequency and high-intensity/low-frequency ultrasound. Low-intensity ultrasound transmits energy through the medium in order to obtain information about the medium or to convey information through the medium....

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Bibliographic Details
Other Authors: Lionetto, Francesca (Editor)
Format: Book Chapter
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Technology: general issues
ultrasonic lens
axicon lens
focused ultrasound
transcranial ultrasound
non-destructive inspection
damage identification
topology optimization
ultrasonic wave propagation
ultrasonic visualization
L-shaped ultrasonic wave guide rod
ultrasonic bending vibration
2A14 aluminum alloy
solidification structure
composition segregation
1060 aluminum alloy
twin-roll casting
microstructure
mechanical properties
concrete
mesostructure
Lamb wave
heterogeneity
Monte Carlo method
SHM
ultrasound
time of flight
reinforcement
resin transfer molding (RTM)
permeability
liquid composite molding
material characterization
composite manufacturing
liquid penetration
ultrasound transmission
capillary penetration
porous sheets
bulk metallic glass
ultrasonic assisted turning
finite element analysis
cutting force
guided waves
setting time
mortar and concrete
early age
thermoplastic composites
ultrasonic joints
resistance heating
elastography
viscoelastic properties
creep
stress relaxation
n/a
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Summary:Ultrasonic waves are nowadays used for multiple purposes including both low-intensity/high frequency and high-intensity/low-frequency ultrasound. Low-intensity ultrasound transmits energy through the medium in order to obtain information about the medium or to convey information through the medium. It is successfully used in non-destructive inspection, ultrasonic dynamic analysis, ultrasonic rheology, ultrasonic spectroscopy of materials, process monitoring, applications in civil engineering, aerospace and geological materials and structures, and in the characterization of biological media. Nowadays, it is an essential tool for assessing metals, plastics, aerospace composites, wood, concrete, and cement. High-intensity ultrasound deliberately affects the propagation medium through the high local temperatures and pressures generated. It is used in industrial processes such as welding, cleaning, emulsification, atomization, etc.; chemical reactions and reactor induced by ultrasonic waves; synthesis of organic and inorganic materials; microstructural effects; heat generation; accelerated material characterization by ultrasonic fatigue testing; food processing; and environmental protection. This book collects eleven papers, one review, and ten research papers with the aim to present recent advances in ultrasonic wave propagation applied for the characterization or the processing of materials. Both fundamental science and applications of ultrasound in the field of material characterization and material processing have been gathered.
Physical Description:1 electronic resource (187 p.)
ISBN:books978-3-0365-1709-4
9783036517100
9783036517094
Access:Open Access

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