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Fractional Viscoelastic Models

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Title: Fractional Viscoelastic Models


1
Fractional Viscoelastic Models
  • Li Yan
  • Institute of Applied Math,
  • School of Mathematics and System Sciences,
  • Shandong University, 250100, P.R.China.
  • E-mail yan_at_cc.usu.edu

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  • Tao Zhan
  • President Professor
  • Analysis Number Theory

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  • MingYu Xu
  • Professor
  • Theory and Applications of the Fractional
    Calculus,
  • Biofluid Mechanics,
  • Mathematical Modeling in BME,
  • xumingyu_at_sdu.edu.cn

6
  • Project Name
  • ????????????????
  • The project of sending first-class graduate
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  • 5000 peoples project

7
  • ? The Ministry of Education of the P.R.China has
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    to send about 5,000 students a year to study in
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  • ? Students will be chosen from the best
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8
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9
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  • For more details, please see
  • http//www.eol.cn/liu_xue_kuai_xun_3291/20070404/t
    20070404_226362.shtml

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Fractional Viscoelastic Models
  • Li Yan
  • Institute of Applied Math,
  • School of Mathematics and System Sciences,
  • Shandong University, 250100, P.R.China.
  • E-mail yan_at_cc.usu.edu

12
Section 1. Introduction
  • ? Riemann-Liouville (R-L) Fractional Operator
  • ? Integral
  • For pgt0
  • In special
  • ? Derivative
  • For pgt0

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  • ? Some Properties of R-L Fractional Operator
  • For p,qgt0

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  • For p,q?R
  • In special
  • where c is a constant

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  • (2) Generalized Mittag-Leffler Function
  • When ß1
  • Whats more

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  • ? Phenomena of Viscoelastic Materials
  • 1. Relaxation and Creep
  • If the strain is held constant, the stress
    decreases with time (Relaxation)
  • Relaxation Modulus is the stress
    response of the unit step strain.
  • If the stress is held constant, the strain
    increases with time (Creep)
  • Creep Modulus is the strain response
    of the unit step stress.
  • The unit step function is

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  • 2. Hysteresis and Precondition
  • If cyclic loading is applied, Hysteresis (a
    phase lag) occurs, leading to a dissipation of
    mechanical energy.

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  • In strain-stress coordinates

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  • If cyclic loading is applied, the output will
    experience a process of Precondition and then
    enter a relative stable condition.
  • 3. Summary of Viscoelastic Phenomena
  • Relaxation,
  • Creep,
  • Hysteresis,
  • Precondition.

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  • (3) Viscoelastic Models
  • Spring-Dashpot models

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  • ? Spring (Hookes Law)
  • where E is the Youngs Modulus.
  • ? Fractional Dashpot
  • When a1
  • where ? is the viscosity.

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  • ? Fractional Viscoelastic Models
  • 1. Fractional Maxwell Model
  • Constitutive Equation
  • Relaxation Modulus
  • Creep Modulus

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  • In Laplace Domain
  • Constitutive Equation
  • Relaxation Modulus
  • Creep Modulus

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  • 2. Fractional Kelvin Model
  • Constitutive Equation
  • Relaxation Modulus
  • Creep Modulus

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  • In Laplace Domain
  • Constitutive Equation
  • Relaxation Modulus
  • Creep Modulus

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  • 3. Fractional Standard Linear Solid Model
  • Constitutive Equation
  • Relaxation Modulus
  • Creep Modulus

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  • In Laplace Domain
  • Constitutive Equation
  • Relaxation Modulus
  • Creep Modulus

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  • 4. Constitutive Relationship of Stress and Strain
  • In Laplace domain
  • where e(0)s(0)0
  • Moreover

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  • Hint

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  • 5. Discussion
  • 5-1 Fractional and Integral Maxwell model
  • 5-2 Fractional and Integral Kelvin model

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  • 5-3 The first order derivative of relaxation and
    creep modulus at original point.

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  • The unit step function

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  • 5-4 Declining Speed of Power law and M-L
    Functions.
  • So declines faster than ,
  • where ? is an arbitrary positive number.

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  • Whats more
  • So, for large t

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  • 6. Conclusion
  • The fractional calculus extends the application
    of viscoelastic models.
  • The fractional models are more closely to
    reality than integral models.
  • The results of fractional viscoelastic models
    fit well with experimental methods.

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  • 7. In the future
  • Description of microcosmic systems
  • Simulation of high-speed strain

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  • Publications
  • Yan Li and Mingyu Xu. Hysteresis and precondition
    of viscoelastic solid models, Mechanics of
    time-dependent materials, Vol.10, No.2, June
    2006.
  • Yan Li and Mingyu Xu. Hysteresis loop and energy
    dissipation of viscoelastic solid models,
    Mechanics of time-dependent materials, Vol.11,
    No.1, March 2007.

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  • Thank You !
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