Correspondence principles for complex shear characteristics in a nonisothermal model of monoharmonic approximation for physically nonlinear materials

Abstract: The Bodner-Partom nonisothermal flow model and the generalized method of harmonic linearization are used to calculate the complex shear modulus and compliance for AMg-6 aluminum alloy. The strainand stress-controlled cycles of loading in the temperature range 20-400°C are considered. The correspondence between the shear modulus and the compliance is studied. It is similar to the inverse proportionality condition in the theory of linear viscoelasticity. It is established that representing the modulus and compli… Show more

“…The dissipation of energy in viscoelastic bodies undergoing intensive vibrations may cause significant increase in temperature [8,12]. After the temperature reaches the softening or melting point, the material sustains thermal fatigue failure [4,6,12]. At the same time, some polymer technologies, including ultrasonic welding are based on the self-heating phenomenon [5].…”

“…Relevant results are reviewed in [10][11][12]14]. The thermal instability of a rectangular prism with a cylindrical inclusion was examined in [10].…”

Thermal instability of a layered rectangular viscoelastic prism under high-frequency compressive loading

“…The dissipation of energy in viscoelastic bodies undergoing intensive vibrations may cause significant increase in temperature [8,12]. After the temperature reaches the softening or melting point, the material sustains thermal fatigue failure [4,6,12]. At the same time, some polymer technologies, including ultrasonic welding are based on the self-heating phenomenon [5].…”

“…Relevant results are reviewed in [10][11][12]14]. The thermal instability of a rectangular prism with a cylindrical inclusion was examined in [10].…”

Thermal instability of a layered rectangular viscoelastic prism under high-frequency compressive loading

“…The heating process reaches a steady thermal state under kinematic loading and may become avalanche-like (which is typical of thermal instability) under mechanical loading Keywords: viscoelastic material, vibrational heating, layered prism, shear loading Introduction. The vibrational heating of viscoelastic bodies is of theoretical and practical importance for the assessment of the fatigue strength of polymeric, including mechanical-rubber products [3, 5,17] and for the development of efficient polymer processes such as ultrasonic welding [4].Vibrational-heating models for linear and nonlinear viscoelastic and viscoplastic bodies are justified in numerous studies [8,13,15,19,23], their results being systematized and generalized in the monograph [5] and reviews [11,12,22]. An analysis of the experimental and theoretical studies [14,19,23] reveals that the coupled thermomechanical behavior of inelastic bodies under harmonic loading is well described with the help of the concept of complex moduli [14,16,18,20].…”

“…Vibrational-heating models for linear and nonlinear viscoelastic and viscoplastic bodies are justified in numerous studies [8,13,15,19,23], their results being systematized and generalized in the monograph [5] and reviews [11,12,22]. An analysis of the experimental and theoretical studies [14,19,23] reveals that the coupled thermomechanical behavior of inelastic bodies under harmonic loading is well described with the help of the concept of complex moduli [14,16,18,20].…”

Vibration and dissipative heating of a layered rectangular viscoelastic prism under harmonic shear loading