Dynamic mechanical and ultrasonic properties of polyurea

► We present the storage and loss moduli of polyurea at various temperatures and frequencies. ► The master curves of the moduli are derived. ► The relaxation spectra are calculated by means of two approximate models. ► The ultrasonic wave propagation is tested at low temperatures and high frequencie...

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Published inMechanics of materials Vol. 43; no. 10; pp. 598 - 607
Main Authors Qiao, Jing, Amirkhizi, Alireza V., Schaaf, Kristin, Nemat-Nasser, Sia, Wu, Gaohui
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.10.2011
Elsevier
Subjects
Applied sciences
Deviation
Dynamic mechanical properties
Dynamics
Exact sciences and technology
Mathematical models
Mechanical analysis
Mechanical properties
Physical properties
Polymer industry, paints, wood
Polyurea
Polyureas
Properties and testing
Shear
Technology of polymers
Temperature dependence
Time–temperature superposition
Polyurea
Mechanical properties
Time–temperature superposition
Viscoelasticity
Master equation
Elastic modulus
Frequency dependence
Shear modulus
Urea polymer
Time-temperature superposition
Dynamic mechanical analysis
Time dependence
Strain wave
Activation energy
Ultrasonic method
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Abstract ► We present the storage and loss moduli of polyurea at various temperatures and frequencies. ► The master curves of the moduli are derived. ► The relaxation spectra are calculated by means of two approximate models. ► The ultrasonic wave propagation is tested at low temperatures and high frequencies. ► The two sets of results are compared using time–temperature superposition principle. Dynamic mechanical analysis (DMA) and ultrasonic measurements were carried out to study the temperature and frequency dependences of viscoelastic properties of polyurea. Master curves of Young’s storage and loss moduli were developed from the DMA data. Relaxation spectra were subsequently calculated by means of two approximate models, and the apparent activation energy of molecular rearrangements was also determined based on the temperature dependence of the time–temperature shift factor. Velocity and attenuation of longitudinal and shear ultrasonic waves in polyurea were measured in the 0.5–2 MHz frequency range between −60 and 30 °C temperatures. The complex longitudinal and shear moduli were computed from these measurements. Combining these results provided an estimate of the complex bulk and Young’s moduli at high frequencies. The results of the DMA and temperature and frequency shifted ultrasonic measurements are compared and similarities and deviations are discussed.
AbstractList ► We present the storage and loss moduli of polyurea at various temperatures and frequencies. ► The master curves of the moduli are derived. ► The relaxation spectra are calculated by means of two approximate models. ► The ultrasonic wave propagation is tested at low temperatures and high frequencies. ► The two sets of results are compared using time–temperature superposition principle. Dynamic mechanical analysis (DMA) and ultrasonic measurements were carried out to study the temperature and frequency dependences of viscoelastic properties of polyurea. Master curves of Young’s storage and loss moduli were developed from the DMA data. Relaxation spectra were subsequently calculated by means of two approximate models, and the apparent activation energy of molecular rearrangements was also determined based on the temperature dependence of the time–temperature shift factor. Velocity and attenuation of longitudinal and shear ultrasonic waves in polyurea were measured in the 0.5–2 MHz frequency range between −60 and 30 °C temperatures. The complex longitudinal and shear moduli were computed from these measurements. Combining these results provided an estimate of the complex bulk and Young’s moduli at high frequencies. The results of the DMA and temperature and frequency shifted ultrasonic measurements are compared and similarities and deviations are discussed.
Dynamic mechanical analysis (DMA) and ultrasonic measurements were carried out to study the temperature and frequency dependences of viscoelastic properties of polyurea. Master curves of Young's storage and loss moduli were developed from the DMA data. Relaxation spectra were subsequently calculated by means of two approximate models, and the apparent activation energy of molecular rearrangements was also determined based on the temperature dependence of the time-temperature shift factor. Velocity and attenuation of longitudinal and shear ultrasonic waves in polyurea were measured in the 0.5-2MHz frequency range between -60 and 30 degree C temperatures. The complex longitudinal and shear moduli were computed from these measurements. Combining these results provided an estimate of the complex bulk and Young's moduli at high frequencies. The results of the DMA and temperature and frequency shifted ultrasonic measurements are compared and similarities and deviations are discussed.
Author Amirkhizi, Alireza V.
Schaaf, Kristin
Wu, Gaohui
Qiao, Jing
Nemat-Nasser, Sia
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  givenname: Alireza V.
  surname: Amirkhizi
  fullname: Amirkhizi, Alireza V.
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  givenname: Kristin
  surname: Schaaf
  fullname: Schaaf, Kristin
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  surname: Nemat-Nasser
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  surname: Wu
  fullname: Wu, Gaohui
  organization: School of Materials Science and Engineering, Harbin Institute of Technology, Harbin 150001, China
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Issue 10
Keywords Polyurea
Mechanical properties
Time–temperature superposition
Viscoelasticity
Master equation
Elastic modulus
Frequency dependence
Shear modulus
Urea polymer
Time-temperature superposition
Dynamic mechanical analysis
Time dependence
Strain wave
Activation energy
Ultrasonic method
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Snippet ► We present the storage and loss moduli of polyurea at various temperatures and frequencies. ► The master curves of the moduli are derived. ► The relaxation...
Dynamic mechanical analysis (DMA) and ultrasonic measurements were carried out to study the temperature and frequency dependences of viscoelastic properties of...
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SubjectTerms Applied sciences
Deviation
Dynamic mechanical properties
Dynamics
Exact sciences and technology
Mathematical models
Mechanical analysis
Mechanical properties
Physical properties
Polymer industry, paints, wood
Polyurea
Polyureas
Properties and testing
Shear
Technology of polymers
Temperature dependence
Time–temperature superposition
Title Dynamic mechanical and ultrasonic properties of polyurea
URI https://dx.doi.org/10.1016/j.mechmat.2011.06.012
https://search.proquest.com/docview/919944678
Volume 43
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