Poisson's Ratio Publications
Deviation from Classical Elasticity in the Acoustic Response of Auxetic Foams,
M.D. Guild, C.M. Walker, D.C. Calvo, P.H. Mott, C.M. Roland Rubber Chemistry & Technology 90, 381 (2017).
Failure of Classical Elasticity in Auxetic Foams,
J.H. Roh, C.B. Giller, P.H. Mott, C.M. Roland AIP Advances 3, 042126 (2013).
Limits to Poisson's ratio in isotropic materials - general result for
arbitrary deformation,
P.H. Mott; C.M. Roland, Physica Scripta 87, 055404 (2013).
The role of the isothermal bulk modulus in the molecular dynamics of super-cooled liquids,
A.N. Papathanassiou, I. Sakellis, J. Grammatikakis, C.M. Roland J. Chem. Phys. 135, 244508 (2011).
Response to "Comment on paper 'The bulk modulus and Poisson's ratio of "incompressible" materials'",
P.H. Mott; C.M. Roland, J. Sound Vibr. 329, 368 (2010). [doi]
Limits to Poisson's ratio in isotropic materials,
P.H. Mott; C.M. Roland, Phys. Rev. B 80, 132104 (2009). [doi]
The bulk modulus and Poisson's ratio of "incompressible" materials,
P.H. Mott; J.R. Dorgan; C.M. Roland, J. Sound Vibr. 312, 572 (2008). [doi]
Effect of structural arrest on Poisson's ratio in nanoreinforced elastomers,
C.G. Robertson; R. Bogoslovov; C.M. Roland, Phys. Rev. E 75, 051403 (2007). [doi]
The compression of bonded rubber disks,
M.L. Anderson; P.H. Mott; C.M. Roland, Rubber Chem. Technol. 77, 293 (2004).
Effect of constraints on electrostriction,
C.M. Roland; J.T. Garrett, Nonlinear Dielectric Phenomena in Complex Liquids (S.J. Rzoska and V. Zheleny, Eds.) Kluwer Acad. Publ. (2004).
Uniaxial deformation of rubber cylinders,
P.H. Mott; C.M. Roland, Rubber Chem. Technol. 68, 739 (1995).