Mechanical and Viscoelastic Responses of Glassy Polymers and Their Nanocomposites
Some Publications
1. S.C.H. Mangalara and G.B. McKenna*, "Mechanical hole-burning spectroscopy of PMMA deep in the glassy state," J. Chem. Phys., 152, 074508 (2020).
2. Z. Qian and G.B. McKenna*,"Mechanical spectral hole burning of an entangled polymer solution in the stress-controlled
domain," Phys. Rev. E., 98, 012501 (2018).
3. Nabila Shamim and Gregory B. McKenna*, "Mechanical spectral hole burning in polymer solutions: Comparison with large amplitude
oscillatory shear fingerprinting," Journal of Rheology, 58, 43-62 (2014).
4. Q. Qin, H. Doen and G.B. McKenna*, "Mechanical Spectral Hole Burning in Polymer Solutions," J. Polymer Science. Part B. Polymer Physics, 47, 2047-2062 (2009).
5. Q. Qin, X. Shi and G.B. McKenna*, "Mechanical Holeburning Spectroscopy in an SIS Tri-Block Copolymer," J. Polymer Science. Part B.: Polymer Physics, 46, 3277-3284 (2007).
Funding
- National Science Foundation. Division of Civil, Mechanical and Manufacturing Innovation Mechanics of Materials and Structures (MOMS).
- National Science Foundation. Division of Materials Research (DMR, Polymers Program).
- American Chemical Society Petroleum Research Fund.
- John R. Bradford Endowment at Texas Tech University.
- Paul Whitfield Horn Professorship at Texas Tech University.
Polymers and Condensed Matter Physics Group
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Address
P.O. Box 43121, Lubbock, TX 79409−3121 -
Phone
806.742.3553 -
Email
webmaster.coe@ttu.edu