Measurement of velocity profiles and stress distributions of polyethylene melts flowing into slits

Moore, I. P. T.

January 1984

No description available.

532

Linear viscoelasticity

Finite element analysis of dynamic linear viscoelastic materials

Gotts, Anthony C.

January 2002

No description available.

620

Quasi static viscoelasticity

Viscoelastic properties of ionomeric blends

Smith, Pierre.

January 1985

No description available.

Viscoelasticity

Ionomers

Polymers.

A study of the viscoelastic properties of paper by means of tensile creep tests

Brezinski, Jerome Phillip

01 January 1955

No description available.

Viscoelasticity

Paper

Testing

Constitutive models of a time dependent material at finite strain levels /

Miyazono, Toshiya.

January 2001

Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 72-76).

Time, temperature and frequency viscoelastic behavior of commercial polymers

Julius, Michael J.

January 2003

Thesis (M.S.)--West Virginia University, 2003. / Title from document title page. Document formatted into pages; contains xv, 114 p. : ill. Includes abstract. Includes bibliographical references (p. 112-114).

Polymers Polymers Viscoelasticity.

Nonlinear mechanics of composite materials

Alur, Kashyap

08 June 2015

Composite materials have been an area of active research in recent years due to the possibility of obtaining multifunctional structures. Viscoelastic layered composites with parallel plane layers consisting of a stiff constituent and a soft viscoelastic constituent are of particular interest as they have been shown to exhibit simultaneous high stiffness and high damping. Such materials would be useful in structural applications and in high vibration environments such as in a vehicle or machinery. They would provide the rigidity required while simultaneously dissipating mechanical energy. The finite deformation mechanics of parallel plane viscoelastic layered composites has not been extensively studied. Under compressive loads they are very susceptible to instabilities. Buckling, for example is an elastic instability seen in load bearing materials. Since viscoelastic materials are rate and time dependent, the buckling modes for these composites not only depend on these factors, but also on the volume fraction of the stiff constituent. Three different cases are identified in the buckling and post-buckling response of these composites: non-dilute (high volume fraction), transition (intermediate volume fraction) and dilute (small volume fraction) cases. Due to buckling from the application of prestrain, the stiffness and damping of these composites can be tuned by orders of magnitude. Adaptive and multifunctional materials can be designed taking advantage of this idea and the rate dependence of the modes of deformation.

Viscoelasticity

Layered composites

Buckling

AFM-based microrheology of biological cells : correlation of local viscoelasticity and motility

Park, Soyeun, 1970-

13 July 2011

Not available / text

Cells--Motility

Viscoelasticity

Small-scale mechanical characterization of viscoelastic adhesive systems

Shean, Tamaryn Anne Vaughan

January 2012

No description available.

620

Adhesives ; Viscoelasticity

Viscoelastic properties of hydrophobin layers

Aumaitre, Elodie

January 2013

No description available.

530

Hydrophobins ; Viscoelasticity