[1] G. Saccomandi: Simmetrie dell’equazione uxt = F (ux, ut), Rendiconti di Matematica Serie VII-8, 467–479 (1988).
[2] E. Pucci, G. Saccomandi: Symmetries and conservation laws in mi-cropolar elasticity, International Journal of Engineering Science 28, 557–
562 (1990).
[3] G. Saccomandi: Precessioni ad asse verticale del girostato pesante, Ren-diconti Accademia Nazionali Lincei, Serie 9-v 2, pp 235–240 (1991).
[4] G. Saccomandi, M.C. Salvatori: Conservation laws for the von Kar-man equations of a thin plate, Rendiconti di Matematica, VII-11, 283–294 (1991).
[5] G. Saccomandi: Distribuzione delle tensioni nei pannelli in muratura, Giornale del Genio Civile fascicolo 1,2,3, 17–26 (1991).
[6] G. Saccomandi: Group properties and invariant solutions of plane mi-cropolar flows, International Journal of Engineering Science 29, 645–648 (1991).
[7] E. Pucci, G. Saccomandi: On the weak symmetry groups of partial differential equations, Journal of Mathenatical Analysis and Applications 163, 588–598 (1992).
[8] E. Pucci, G. Saccomandi: Conservation laws in the elastic theory of materials with voids, Bolletino U.M.I. (7) 6-B, 425–450 (1992).
[9] G. Saccomandi: Some remarks about the thermoelastic theory of mate-rials with voids, Rendiconti di Matematica, Serie VII 12, 45–58 (1992).
[10] G. Saccomandi: Body loadings equivalent to a seismic dislocation in thermo-microstretch elastic solids, International Journal of Engineering Science 30, 913–917 (1992).
[11] Y. Cherruault, G. Saccomandi, B. Some: New results for conver-gence of Adomian’s method applied to integral equations, Mathematical Computer Modeling 16, 85–93 (1992).
[12] E. Pucci, G. Saccomandi: On the controllable states of elastic di-electrics and magnetoelastic solids, International Journal of Engineering Science 31, 251–256 (1993).
[13] E. Pucci, G. Saccomandi: Potential symmetries and solutions by re-duction of partial differential equations, Journal of Physics A: Math Gen.
26, 681–690 (1993).
[14] E. Pucci, G. Saccomandi: Potential symmetries of Fokker Plank equa-tions, in Modern Group Analysis: Advanced Analytical and Computa-tional Methods in Mathematical Physics, N.H. Ibragiminov et al. (eds) Kluwer Academic Publishers, Dordrecht, The Netherlands (1993).
[15] E. Pucci, G. Saccomandi: Contact transformation and solution by re-duction of partial differential equations, Journal of Physics A: Math Gen.
27, 177–184 (1994).
[16] G. Saccomandi: Some unsteady exact pseudo-plane solutions for the Navier-Stokes equations, Meccanica 29, 261–269 (1994).
[17] G. Saccomandi: Some exact pseudo-plane solutions of the first kind for the Navier-Stokes equations, Zeitschrift f¨ur Angewandte Mathematik und Physik (ZAMP) 45, 978–985 (1994).
[18] G. Saccomandi: Acceleration waves in a thermo-microstretch fluid, In-ternational Journal of Nonlinear Mechanics 29, 809–817 (1994).
[19] E. Pucci, G. Saccomandi: Quasisolutions as group-invariant solutions for partial differential equations, Studies in Applied Mathematics, 94, 211–
223 (1995).
[20] A. Belleni-Morante, G. Saccomandi: Time dependent photon trans-port in a three dimensional interstellar cloud with stochastic clumps, As-trophysics and Space Science 234, 85–105 (1995).
[21] E. Pucci, G. Saccomandi: Some universal solutions for totally in-exstensible isotropic elastic materials, Quart. Journal of Mechanics and Applied MathematicsJournal 49, 147–162 (1996).
[22] E. Pucci, G. Saccomandi: Universal relations in constrained elasticity, Mathematics and Mechanics of Solids 1, 207–217 (1996).
[23] E. Guglielmino, G. Saccomandi: On the bending of pretwisted bars by a terminal transverse load, International Journal of Engineering Science 34, 1285–1299 (1996).
[24] G. Saccomandi: A note on inhomogeneous deformations of nonlinear elastic layers, IMA Journal of Applied Mathematics 57, 311–394 (1996).
[25] E. Pucci, G. Saccomandi: Universal Relations in Finite Elasticity, in Contemporary research in the mechanics and mathematics of materials, 176–184, R.C. Batra and M.F. Beatty eds. , CIMNE, Barcelona (1996).
[26] G. Saccomandi: Potential symmetries and reduction methods of order two, Journal of Physics A: Math. 30, 221–227 (1997).
[27] E. Pucci, G. Saccomandi: Universal relations in continuum mechanics Continuum Mechanics and Thermodynamics 9, 61–72 (1997).
[28] G. Saccomandi, M. Vianello: On universal relations for hemitropic elastic materials Mathematics and Mechanics of Solids 2, 181–187 (1997).
[29] G. Saccomandi: On the spatial diffusion of diseases, Mathematical and Computer Modeling 25, 83–95(1997).
[30] E. Pucci, G. Saccomandi: Plane universal solutions for constrained materials, Mathematics and Mechanics of Solids 3, 201–216 (1998).
[31] L. Marino, G. Saccomandi, C. Valente: A note about three-dimensional exact dynamical solutions for neo-Hookean materi-als,International Journal of Nonlinear Mechanics 34, 1–4 (1998).
[32] A. Day, G. Saccomandi: On rates of propagation for Burgers’ equation, Rendiconti Lincei s9.V9, 145-1-48 (1998).
[33] E. Pucci, G. Saccomandi: Universal solutions for constrained sim-ple materials, International Journal of Nonlinear Mechanics 34, 469–484 (1999).
[34] G. Saccomandi: A nonlinear Boltzmann-like model of outgassing and contamination, Transport Theory & Statistical Physics 28, 102–115 (1999).
[35] A. Day, G. Saccomandi: A note on the propagation of the bulk of a disturbance for a hyperbolic equation, Quarterly of Applied Mathematics 57, 87–91 (1999).
[36] A. Day, G. Saccomandi: On the propagation of the bulk of a mass dis-tribution subject to periodic convection and diffusion, Quarterly of Applied Mathematics 57, 561–572 (1999).
[37] G. Saccomandi: On inhomogeneous deformations in finite thermoelas-ticity, IMA Journal of Applied Mathematics 63, 131–148 (1999).
[38] C. O. Horgan, G. Saccomandi: Simple torsion of isotropic, hyperelas-tic, incompressible materials with limiting chain extensibility, Journal of Elasticity 56, 159–170 (1999).
[39] C. O. Horgan, G. Saccomandi: Pure axial shear of isotropic, hy-perelastic, incompressible nonlinear elastic materials with limiting chain extensibility, Journal of Elasticity 57, 307–319 (1999).
[40] E. Pucci, G. Saccomandi: Some remarks on the Gent model of rubber elasticity Proceedings 1st Canadia Conference on Nonlinear Solid Mechan-ics, Ed. E.M. Croitoro, University of Victoria, British Columbia, Canada, June 16-20, 1999, University of Victoria Press, 163–172 (1999).
[41] E. Pucci, G. Saccomandi: Osservazioni sul modello di Van der Vaals in elasticit`a finita in Proceedings AIMETA 99 COMO (1999).
[42] M. Hayes, G. Saccomandi: The Cauchy stress tensor for a material subject to an isotropic internal constraint, Journal of Engineering Mathe-matics 37, 85–92 (2000).
[43] E. Pucci, G. Saccomandi: Evolution equations, invariant surface conditions and functional separation of variables, Physica D139, 28–47 (2000).
[44] M. Hayes, G. Saccomandi: Finite amplitude transverse waves in special incompressible viscoelastic solids Journal of Elasticity 59, 213–225 (2000).
[45] C. O. Horgan, G. Saccomandi: Pure azimuthal shear of isotropic, hyperelastic, incompressible nonlinear elastic materials with limiting chain extensibility, International Journal of Nonlinear Mechanics 36, 465–475 (2001).
[46] C. O. Horgan, G. Saccomandi: Large deformations of rotating solid cylinders for non-Gaussian isotropic, incompressible hyperelastic materi-als, Journal of Applied Mechanics (ASME) 68, 115–117 (2001).
[47] C. O. Horgan, G. Saccomandi: Anti-plane shear deformations for non-Gaussian isotropic, incompressible hyperelastic materials, Proceed-ings of the Royal Society A-457, 1999–2017 (2001).
[48] M. A. Hayes, G. Saccomandi: Finite amplitude waves superimposed on pseudoplanar motions for Mooney-Rivlin viscoelastic solids, Int. Journal of Nonlinear Mechanics 37, 1139–1146 (2002).
[49] C. O. Horgan, G. Saccomandi, I. Sgura: A two-point boundary value problem for the axial shear of hardening isotropic incompressible nonlin-early elastic materials, SIAM Journal of Applied Mathematics 62, 1712-1-727 (2002).
[50] G. Saccomandi, M. F. Beatty: Universal relations for fiber reinforced materials, Mathematics and Mechanics of Solids 7, 95–110 (2002).
[51] E. Pucci, G. Saccomandi: On the reduction methods for ordinary differential equations, Journal of Physics A: Math. Gen. 35, 6145–6155 (2002).
[52] C. O. Horgan, G. Saccomandi: Constitutive modelling of rubber-like materials and biological materials with limiting chain extensibility, Math-ematics and Mechanics of Solids 7, 353–371 (2002).
[53] E. Pucci, G. Saccomandi: A note on the Gent Model for rubber-like materials, Rubber Chemistry and Technology 75, 839–851 (2002).
[54] C. O. Horgan, G. Saccomandi: A molecular-statistical basis for the Gent model of rubber elasticity Journal of Elasticity, 68, 167–176 (2002).
[55] C. O. Horgan, G. Saccomandi: Finite thermoelasticity with limiting chain extensibility, Journal of Mechanics and Physics of Solids 75, 839–851 (2003).
[56] C.O. Horgan, G. Saccomandi: A description of arterial wall mechan-ics using limiting chain extensibilty constitutive models Biomechanmechan-ics and Modeling in Mechanobiology 1, 251–266 (2003).
[57] K.R. Rajagopal, G. Saccomandi: Shear waves in some models of nonlinear viscoelasticity Quarterly of Mechanics and Applied Mathematics 56, 311–326 (2003).
[58] C.O. Horgan, G. Saccomandi: Helical shear for hardening generalized neo-Hookean elastic Materials, Mathematics and Mechanics of Solids 8, 539–559 (2003).
[59] C.O. Horgan, G. Saccomandi: Coupling of anti-plane shear defor-mations with plane defordefor-mations in generalized neo-Hookean isotropic, incompressible, hyperelastic materials Journal of Elasticity, 73, 221–235 (2003).
[60] G. Saccomandi: Elastic rods, Weierstrass’ theory and special travelling waves solutions with compact support International Journal of Nonlinear Mechanics 39, 331–339 (2004).
[61] G. Saccomandi, R.C. Batra: Additional universal relations for trans-versely isotropic materials Mathematics and Mechanics of Solids 9, 167–
174 (2004).
[62] C.O. Horgan, R.W. Ogden, G. Saccomandi: A theory of stress soft-ening of elastomers based on finite chain extensibility Proceedings Royal Society of London A 460, 1737–1754 (2004).
[63] G. Saccomandi: A remarkable class of non classical symmetries of the boundary layers equations Journal of Physics A: Math. Gen. 37, 7005–
7017 (2004).
[64] M. Destrade, G. Saccomandi: Finite amplitude inhomogeneous waves in Mooney-Rivlin viscoelastic solids Wave Motion 40, 251–262 (2004).
[65] A. Dorfmann, R.W. Ogden, G. Saccomandi: Universal relations for nonlinear magneto-elastic solids International Journal of Nonlinear Mechanics 39, 1699–1708 (2004).
[66] M.A. Hayes, G. Saccomandi: Antiplane shear motions for viscoelastic Mooney-Rivlin materials Quarterly of Mechanics and Applied Mathemat-ics 57, 379–392 (2004).
[67] R.W. Ogden, G. Saccomandi, I. Sgura: Fitting hyperelastic models to experimental data Computational Mechanics 34, 484–502 (2004).
[68] M. Destrade, G. Saccomandi: Some results on finite amplitude waves propagating in rotating media Acta Mechanica 173, 19–31 (2004).
[69] R. Vitolo, G. Saccomandi: Null Lagrangians in a theory for nematic elastomers Fundam. Prikl. Mat. 10, 17–28 (2004).
[70] C.O. Horgan, G. Saccomandi: Constitutive models for compressible nonlinearly elastic materials with limiting chain extensibility Journal of Elasticity 77, 123–138 (2004).
[71] C O. Horgan, G. Saccomandi: Elasticity of Atactic Polymers in R.
Monaco, S. Pennisi, S. Rionero and T. Ruggeri (eds), Proceedings of WAS-COM 2003, World Scientific, Singapore, 281–293 (2004).
[72] G. Saccomandi: A personal overview of reductions methods for partial differential equations Note di Matematica, 23, 2, 217–248 (2004-2005).
[73] A. Dorfmann, R. W. Ogden, G. Saccomandi: The effect of rotation on the nonlinear magnetoelastic response of a circular cylindrical tube In-ternational Journal of Solids and Structures 42, 3700–3715 (2005).
[74] C.O. Horgan, G. Saccomandi: A new constitutive theory for fiber-reinforced incompressible nonlinearly elastic solids Journal of Mechanics and Physics of Solids 53, 1985–2025 (2005).
[75] G. Saccomandi: Small amplitude waves in Mooney-Rivlin viscoelastic Solids Mathematics and Mechanics of Solids 10, 361–376 (2005).
[76] G. Saccomandi: Some generalized pseudo-plane deformations for the neo-Hookean material IMA Journal of Applied Mathematics 70, 550–563 (2005).
[77] M. Destrade, G. Saccomandi: On finite amplitude elastic waves prop-agating in compressible solids Physical Review E 72, #0016620 (2005).
[78] C.O. Horgan, G. Saccomandi: A short review of phenomenological hy-perelastic strain-stiffening constitutive models for rubber in in P. E. Aus-trell and L. Kari (eds), Constitutive Models for Rubber IV. Proceedings ECCMR05, Balkema Publishers, Leiden, 381–386 (2005)
[79] K.R. Rajagopal, G. Saccomandi: On internal constraints in contin-uum mechanics Differential Equations and Nonlinear Mechanics ID 18572 DOI 101155/DENM/2006/18572(2006).
[80] R. Ogden, G. Saccomandi, I. Sgura: A phenomenological 3-D theory of the worm-like chain Proceedings Royal Society A 462, 749–768 (2006).
[81] M. Destrade, G. Saccomandi: Waves and vibrations in a solid of second grade in Proceedings of the 13th Conference on WASCOM 2005 edited by Roberto Monaco, Giuseppe Mulone, Salvatore Rionero & Tom-maso Ruggeri, World Scientific, Singapore, 182–192 (2006).
[82] C.O. Horgan, G. Saccomandi: Phenomenological hyperelastic strain-stiffening constitutive models for rubber Rubber Chemistry and Technol-ogy 71, 152–169 (2006).
[83] M. Destrade, G. Saccomandi: Solitary and compact-like shear waves in the bulk of solids Physical Review E 73, # 065604(R) (2006).
[84] D. De Tommasi, G. Puglisi, G. Saccomandi: A micro-mechanical based model for the Mullins effect Journal of Rheology 50, 495–512 (2006).
[85] K.R. Rajagopal, G. Saccomandi: Unsteady exact solution for flows of fluids with pressure dependent viscosity Proceedings Royal Irish Society 106A155–170 (2006).
[86] J. Merodio, G. Saccomandi: Some remarks on the cavitation problem in the framework of the theory for fiber-reinforced incompressible nonlin-early elastic solids European Journal of Mechanics A., 25, 778–792 (2006).
[87] G. Saccomandi, I. Sgura: The relevance of nonlinear stacking inter-actions in simple models of double-stranded DNA Journal of the Royal Society Interfaces, 3, 655–667 (2006).
[88] R. Quintanilla, G. Saccomandi: Spatial behaviour for a fourth order dispersive equation Quarterly of Applied Mathematics 64, 547–560 (2006).
[89] K.R. Rajagopal, G. Saccomandi: On the dynamics of non-linear vis-coelastic solids with material moduli that depend upon pressure Interna-tional Journal of Engineering Science 45, 41–54 (2007).
[90] M. Destrade, G. Gaeta, G. Saccomandi: Weierstrass’s criterion and compact solitary waves Physical Review E 75 047601 (2007).
[91] R. Ogden, G. Saccomandi, I. Sgura: Computational aspects of the worm-like chain interpolation formulas Computers and Mathematics with Applications 53, 276–286 (2007).
[92] J. Merodio, G. Saccomandi, I. Sgura: The rectilinear shear of fiber-reinforced incompressible non-linearly elastic solids International Journal of Nonlinear Mechanics 42, 342–354 (2007).
[93] R. Quintanilla, G. Saccomandi: The importance of the compatibility of non-Linear constitutive theories with their linear counterparts Journal of Applied Mechanics (ASME) 74, 455–460 (2007).
[94] R. W. Ogden, G. Saccomandi: Introducing Mesoscopic information into the constitutive equations for arterial walls Biomechanics and Mod-eling in Mechanobiology 6, 333–344 (2007).
[95] R. De Pascalis, M. Destrade, G. Saccomandi: The stress field in a pulled cork and some subtle points in the semi-inverse method of nonlinear elasticity Proceedings Royal Society A 463, 2945–2959 (2007).
[96] M. Destrade, G. Saccomandi: Creep, recovery, and waves in a non-linear fiber-reinforced viscoelastic solid SIAM Journal of Applied Mathe-matics 68, 80–97 (2007).
[97] M. Destrade, G. Saccomandi: Nonlinear transverse waves in de-formed dispersive solids Wave Motion 45, 325–336 (2008)
[98] D. De Tommasi, G. Puglisi, G. Saccomandi: Localized versus dif-fuse damage in amorphous materials Physics Review Letters 100, 085502 (2008).
[99] R. Quintanilla, G. Saccomandi: Quasistatic anti-plane motion in the simplest theory of nonlinear viscoelasticity Nonlinear Analysis (Real World Applications) 9, 1499–1517 (2008).
[100] M. Destrade, G. Saccomandi A note about waves in dissipative and dispersive solids in ”‘Wascom 2007”: XIV International Conference on Waves and Stability in Continuous Media, Eds. N. Manganaro, R. Monaco, S. Rionero, World Scientific, Singapore, 210–217. (2008).
[101] M. Gilchrist, M. Destrade, D. Prikazchikov, G. Saccomandi:
Surface instability of sheared soft tissues ASME Journal of Biomechanical Engineering 130, 061007 (6 pages) (2008).
[102] K.R. Rajagopal, G. Saccomandi, L. Vergori: On the Oberbeck−Boussinesq approximation in fluids with pressure-dependent vis-cosities Nonlinear Analysis (Real World Applications) 10, 1139–1150 (2009).
[103] L. Filograna, M. Racioppi, G. Saccomandi, I. Sgura: A sim-ple model of nonlinear viscoelasticity taking into account stress relaxation Acta Mechanica 204, 21–36 (2009).
[104] M. Destrade, R. W. Ogden, G. Saccomandi: Small amplitude waves and stability for a prestressed viscoelastic solid Zeitschrift f¨ur Angewandte Mathematik und Physik (ZAMP) 60, 511–528 (2009).
[105] B. Durikovich, A. Goriely, G. Saccomandi: Compact waves on pla-nar elastic rods International Journal of Nonlinear Mechanics 44, 538–544 (2009).
[106] E. Pucci, G. Saccomandi: Parametric resonance in elasticity Interna-tional Journal of Nonlinear Mechanics 44, 560–569 (2009).
[107] R. Quintanilla, G. Saccomandi: Some qualitative properties proper-ties for the equations of pre-stressed viscoelastic solids Mechanics Research Communication 36 547–555 (2009).
[108] K.R. Rajagopal, G. Saccomandi, L. Vergori: Stability analysis of the Rayleigh-Benard convection for a fluid with temperature and pressure dependent viscosity Zeitschrift f¨ur Angewandte Mathematik und Physik (ZAMP) 60 739–755 (2009).
[109] M. Destrade, P. Jordan, G. Saccomandi: Compact travelling waves in viscoelastic solids Europhys. Lett. 87 48001 (2009).
[110] R. De Pascalis, K.R.. Rajagopal, G. Saccomandi: Remarks on the use and misuse of the semi-inverse method in the nonlinear theory of elasticity Quarterly Journal of Mechanics and Applied Mathematics 62 451–464 (2009).
[111] K.R. Rajagopal, G. Saccomandi: The mechanics and mathematics of the effect of pressure on the shear modulus of elastomers Proceedings Royal Society A465 3859–3874 (2009)
[112] M. Destrade, G. Saccomandi, I. Sgura: Inhomogeneous shear of or-thotropic incompressible non-linearly elastic solids: singular solutions and biomechanical interpretation International Journal of Engineering Science 47 1170–1181 (2009).
[113] D. De Tommasi, S. Marzano, G. Puglisi, G. Saccomandi: Lo-calization and stability in a multi-scale model for damageable amorphous solids Continuum Mechanics and Thermodynamics 22 42–67 (2010) (DOI:
10.1007/s00161-009-0122-4).
[114] G. Saccomandi: On the motion of the center of mass of a system of particles European Journal of Physics 31 657–670 (2010).
[115] D. De Tommasi, G. Puglisi, G. Saccomandi: Damage, self-healing and hysteresis in spider silk Biophysical Journal 98 1941-1948 (2010).
[116] M. Destrade, M. Gilchrist, G. Saccomandi: Third- and fourth-order constants of incompressible soft solids can be measured by acousto-elastic effect The Journal of the Acoustical Society of America 127 2759–
2763 (2010).
[117] K.R. Rajagopal, G. Saccomandi, L. Vergori: A systematic ap-proximation for the equations governing convection–diffusion in a porous medium Nonlinear Analysis: Real World Applications 11 2366–2375 (2010). (doi:10.1016/j.nonrwa.2009.07.010) .
[118] D. De Tommasi, G. Puglisi, G. Saccomandi, G. Zurlo: Pull-in and wrinkling mechanism of electroactive dielectric actuator Journal of Physics D: Applied Physics 43 325501 (2010).
[119] E. Pucci, G. Saccomandi: Parametric resonance in nonlinear viscoelas-ticity: differential models IMA Journal of Applied Mathematics 75 492–
505 (2010) (doi:10.1093/imamat/hxq017).
[120] E. Pucci, G. Saccomandi: On a special class of nonlinear viscoelas-tic solids Mathemaviscoelas-tics and Mechanics of Solids 15 (2010) 803–811 (doi:10.1177/1081286509104540).
[121] M. Destrade, G. Saccomandi: Some Remarks about the Rectilinear Shear of Compressible and Incompressible Elastic Slabs Made of Isotropic and Anisotropic Materials, International Journal of Engineering Science 48 (2010) 1202–1211 (doi:10.1016/j.ijengsci.2010.09.012).
[122] G. Saccomandi, L. Vergori: Piezo-viscous flows over an inclined sur-face Quarterly of Applied Mathematics 68 (2010), 747–763.
[123] K.R. Rajagopal, G. Saccomandi, L. Vergori: Couette Flow with Frictional Heating in a Fluid with Temperature and Pressure Dependent Viscosity International Journal of Heat and Mass Transfer 54 (2011) 783–
789.
[124] K.R. Rajagopal, G. Saccomandi, L. Vergori: Linear stability of Hagen-Poiseuille flow in a chemically reacting fluid Computers & Math-ematics with Applications 61 (2011) 460–469.
[125] K.R. Rajagopal, G. Saccomandi, L. Vergori: Stability analy-sis of the Rayleigh-B´enard convection in a porous medium Zeitschrift f¨ur Angewandte Mathematik und Physik (ZAMP) 62 (2011) 149–160 (doi:10.1007/s00033-010-0062-7).
[126] M. Destrade, A. Goriely, G. Saccomandi: Scalar evolution equa-tions for shear waves in incompressible solids: a simple derivation of the Z, ZK, KZK and KP equations Proceedings Royal Society A 467 (2011) 1823–1834 (doi: 10.1098/rspa.2010.0508).
[127] K.R. Rajagopal, G. Saccomandi: Response of an elastic body whose heat conduction is pressure dependent Journal of Elasticity 105 (2011) 173–185.
[128] M. Destrade, G. Saccomandi: Transverse waves in nonlinearly elas-tic solids and the Milne-Pinney (or Ermakov) equation Mathemaelas-tics and Mechanics of Solids 16 (2011) 586–593, (doi:10.1177/1081286510387704).
[129] R. Ogden, G. Saccomandi, I. Sgura: Phenomenological modeling of DNA overstretching Journal of Nonlinear Mathematical Physics 18 Sup-plementary Issue 2 (2011) 411–427 (doi: 10.1142/S140292511100160X).
[130] G. Saccomandi, R. Vitolo :The Translation of the T. Levi-Civita pa-per: Interpretazione Gruppale degli Integrali di un Sistema Canonico, Reg-ular & Chaotic Dynamics 17 (2012) 105–112 .
[131] M. Destrade, J. Murphy, G. Saccomandi: Simple shear is not so simple International Journal of Nonlinear Mechanics 47 (2012) 210–214 . (doi:10.1016/j.ijnonlinmec.2011.05.008).
[132] R. Quintanilla, G. Saccomandi: Phragmen-Lindelof alternative of exponential type for the solutions of a fourth order dispersive equation Rendiconti Lincei Appl. 23 (2012) 105–113 (doi: 10.4171/RLM/620).
[133] A. Annaidh, K. Bruyyere, M. Destrade, M.D. Gilchrist, C.
Maurini, M. Ottenio, G. Saccomandi: Automated estimation of col-lagen fibre dispersion in the dermis and its contribution to the anisotropic behaviour of skin Annals of Biomedical Engineering 40 (2012) 1666–1678 (doi: 10.1007/s10439-012-0542-3).
[134] E. Pucci, G. Saccomandi: On the nonlinear theory of viscoelasticity of differential type Mathematics and Mechanics of Solids 17 (2012) 624–
630.(doi:10.1177/1081286511427081).
[135] D. Lacitignola, G. Saccomandi: An anomalous feature in a semi-inverse solution of a simple model of non-newtonian fluid me-chanics International Journal of Engineering Science 60 (2012) 94–98 (doi:10.1016/j.ijengsci.2012.05.001).
[136] K.R. Rajagopal, G. Saccomandi, L. Vergori: Flow of fluids with pressure and shear dependent viscosity down an inclined plane Journal of Fluid Mechanics 706 (2012) 173–189 (doi:10.1017/jfm.2012.244).
[137] P. Jordan, G. Saccomandi: Compact acoustic travelling waves in a class of fluids with nonlinear material dispersion Proceedings Royal Soci-ety A. 468 (2012) 3441–3457 (doi:10.1098/rspa.2012.0321).
[138] E. Pucci, G. Saccomandi: A note on antiplane motions in nonlinear elastodynamic AAPP | Physical, Mathematical, And Natural Sciences, 91/(S1) (2013) (doi:10.1478/AAPP.91S1A16).
[139] M. Destrade, G. Saccomandi, M. Vianello: Proper formulation of viscous dissipation for nonlinear waves in solids Journal Acoustical Society of America 133 (2013) 1255–1259.
[140] K.R. Rajagopal, G. Saccomandi, L. Vergori: Unsteady flows of fluids with pressure dependent viscosity Journal of Mathematical Analysis and its Applications 404 (2013) 362–372 (doi:10.1016/j.jmaa.2013.03.025) [141] E. Pucci, G. Saccomandi: Secondary motions associated with anti-plane shear in nonlinear isotropic elasticity Quarterly Jour-nal of Mechanics and Applied Mathematics 66 (2013) 221–239 (doi:10.1093/qjmam/hbt002).
[142] M.D. Gilchrist, B. Rashid, J. Murphy, G. Saccomandi: Quasi-static deformations of biological soft tissues Mathematics and Mechanics of Solids 18 (2013) 622–633 (doi: 10.1177/1081286513485770).
[143] M. G˘ar˘ajeu, H. Gouin, G. Saccomandi Scaling Navier-Stokes equations in nanotubes Physics of Fluids 25 (2013) 082003 (http://dx.doi.org/10.1063/1.4818159).
[144] E. Pucci, G. Saccomandi: The anti-plane shear problem in non-linear elasticity revisited Journal of Elasticity 113 (2013) 167–177 (doi:10.1007/s10659-012-9416-z).
[145] D. De Tommasi, N. Millardi, G. Puglisi, G. Saccomandi:
An energetic model for macromolecules unfolding in stretching experi-ments Journal of the Royal Society Interface 10 (2013) 20130651 (doi:
10.1098/rsif.2013.0651).
[146] M. Destrade, B. Mac Donald, J.G. Murphy, G. Saccomandi:
Finite element analysis as a constitutive tool in the modeling of trans-versely anisotropic soft tissue Computational Mechanics 52 (2013) 959–
969. (doi:10.1007/s00466-013-0857-4).
[147] E. Pucci, G. Saccomandi: On the use of universal relations in the modeling of transversely isotropic materials International Journal of Solids and Structure 51 (2014) 377–380. (doi:10.1016/j.ijsolstr.2013.10.010).
[148] J. Ciambella, G. Saccomandi A continuum hyperelastic model for auxetic materials Proceedings Royal Society A 470 (2014) 20130691 (http://dx.doi.org/10.1098/rspa.2013.0691).
[149] P. Jordan, R.S. Keiffer, G. Saccomandi: Anomalous propagation of acoustic traveling waves in thermoviscous fluids under the Rubin-Rosenau-Gottlieb theory of dispersive media Wave Motion 51 (2014), 382–388.
(doi:10.1016/j.wavemoti.2013.08.009).
[150] D. Lacitignola, G. Saccomandi: Parametric resonance in DNA Bul-letin of Mathematical Biology 76 (2014) 515–540 (doi:10.1007/s11538-013-9930-6).
[151] C. Rogers, G. Saccomandi, L. Vergori: Carroll-type deformations in nonlinear elastodynamics Journal of Physics A: Math. Theor. 47 (2014) 205204 (doi:10.1088/1751-8113/47/20/205204).
[152] K. Kannan, K.R. Rajagopal, G. Saccomandi: Unsteady mo-tions of a new class of elastic solids Wave Motion 51 (2014) 833–843 (doi:10.1016/j.wavemoti.2014.02.004).
[153] G. Saccomandi, R. Vitolo: On the mathematical and geometri-cal structure of the determining equations for shear waves in nonlinear isotropic incompressible elastodynamics Journal of Mathematical Physics 55, 081502 (2014) (doi:10.1063/1.4891602).
[154] G. Manno, F. Oliveri, G. Saccomandi, R. Vitolo: Ordinary differ-ential equations characterized by their symmetries Journal of Geometry and Physics 85, 2–15 (2014).
[155] D. Lacitignola, G. Saccomandi, I. Sgura: Parametric resonance in a mesoscopic discrete DNA model Acta Applicandae Mathematicae 132, 391–404 (2014) (doi:10.1007/s10440-014-9925-9).
[156] K.R. Rajagopal, G. Saccomandi: Circularly polarized waves propa-gation in a class of bodies defined by a new class of implicit constitutive relations Zeitschrift f¨ur Angewandte Mathematik und Physik (ZAMP) 65, 1003–1010 (2014) (doi:10.1007/s00033-013-0362-9).
[157] S. Colonelli, G. Saccomandi, G. Zurlo: Damage induced dissipation in eletroactive polymer harvesters Applied Physics Letters 105, #163904 (2014) (doi: 10.1063/1.4900485).
[158] G. Puglisi, G. Saccomandi: The Gent constituive equation for rubber-like materials: an appraisal of a genial and simple idea International Journal of Nonlinear Mechanics 68, 17–24 (2015) (doi:10.1016/j.ijnonlinmec.2014.05.007).
[159] J. Murphy, G. Saccomandi Exploitation of the linear theory in the non-linear modeling of soft tissue Mathematics and Mechanics of Solids 20, 190–203 (2015) (doi:10.1177/1081286514544261)
[160] E. Pucci, K.R. Rajagopal, G. Saccomandi: On the determination of semi-inverse solutions of nonlinear elasticity: the not so simple case of anti-plane shear International Journal of Engineering Science 88, 3–14 (2015) (doi:10.1016/j.ijengsci.2014.02.033).
[161] D. De Tommasi, G. Puglisi, G. Saccomandi: Multiscale me-chanics of macromolecular materials with unfolding domains Jour-nal of the Mechanics and Physics of Solids, 78, 54–172 (2015) (doi:10.1016/j.jmps.2015.02.002).
[162] C. Rogers, G. Saccomandi, L. Vergori: Nonlinear elastodynamics of materials with strong ellipticity condition: Carroll-type solutions Wave Motion, 56, 147–164 (2015) (doi:10.1016/j.wavemoti.2015.02.009).
[163] J. Ciambella, Abderezzaz Bezaki, G. Saccomandi, F. Scarpa:
Nonlinear elasticity of auxetic open cell foams modeled as contin-uum solids, Journal of Applied Physics 117, #184902 (2015) (doi:
10.1063/1.4921101).
[164] M. Destrade, M.D. Gilchrist, J.G. Murphy, M. Ottenio, B.
Rashid, G. Saccomandi Extreme softness of brain matter in simple shear, International Journal of Nonlinear Mechanics 75, 54–58 (2015) (doi:10.1016/j.ijnonlinmec.2015.02.014).
[165] K. R. Rajagopal, G. Saccomandi, L. Vergori: On the approxima-tion of isochoric moapproxima-tions of fluids under different flow condiapproxima-tions Proc.
R. Soc. A 471: 20150159 (2015). (doi:10.1098/rspa.2015.0159)
[166] S. Colonelli, G. Saccomandi, G. Zurlo: The role of material behav-ior in the performances of electroactive polymer energy harvesters Journal of Polymer Science, Part B: Polymer Physics, 53, 1303–1314 (2015) (doi:
10.1002/polb.23761).
[167] E. Pucci, G. Saccomandi Some remarks about a simple history depen-dent nonlinear viscoelastic model Mechanics Research Communications, 68, 70–76 (2015) (doi:10.1016/j.mechrescom.2015.04.007).
[168] L. Fusi, A. Farina, G. Saccomandi Buckley-Leverett equation with viscosities and relative permeabilities depending on pressure SIAM Journal
[168] L. Fusi, A. Farina, G. Saccomandi Buckley-Leverett equation with viscosities and relative permeabilities depending on pressure SIAM Journal