Details

Title

Computational modeling of creep in complex plane for reinforced materials

Journal title

Bulletin of the Polish Academy of Sciences: Technical Sciences

Yearbook

2017

Numer

No 6

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

Polish Academy of Sciences

Date

2017

Identifier

ISSN 0239-7528, eISSN 2300-1917

References

Martin (2014), Elasticity Theory Applications and rd Academic, Edition, 13. ; Monfared (null), Rate dependent plastic deformation analysis of short fiber composites employing virtual fiber method, Comput Sci, 11, 10. ; Gaharwar (null), Elastomeric nanocomposite scaffolds made from poly ( glycerol sebacate ) chemically crosslinked with carbon nanotubes, Sci, 25, 46, doi.org/10.1039/C4BM00222A(2015 ; Sankaran (2004), Probabilistic fatigue creep life prediction of composites, null, 16, 361. ; Leonardi (null), Finite element analysis for airfield asphalt pavements rutting prediction Pol, Tech, 20, 397. ; Boyle (1983), for Creep st ed Southampton UK, Stress Analysis, 23, 1. ; Monfared (null), Effects of atomic number and atomic weight on inelastic time dependent deformations, Mater, 12, 53. ; Monfared (null), micromechanical creep model for stress analysis of non - reinforced regions of short fiber composites using imaginary fiber technique, Mater, 21, 44. ; Muskhelishvili (1954), Some Basic Problems of the Mathematical Theory of Elasticity th ed, null, 1. ; Milne (1960), Plane Elastic Systems st ed Verlag, null, 1. ; Green (1968), Theoretical Elasticity nd ed University, null. ; Barai (2011), micro - continuum model for the creep behavior of complex nanocrystalline materials, Int J Eng Sci, 49, 155. ; Loghman (2012), Semi - analytical solution for time - dependent creep analysis of rotating cylinders made of anisotropic exponentially graded material Solid, null, 313. ; Grote (2009), Handbook of, Mechanical Engineering, 22, 108. ; England (1971), Complex Variable in Elasticity st ed New York, Methods, 1. ; Tang (2012), Micromechanical analysis of thermoelastoplastic behavior of metal matrix composites, Int J Eng Sci, 161. ; Zbiciak (2013), Mathematical description of rheological properties of asphalt - aggregate mixes Pol, Tech, 19, 1. ; Kolosov (1909), On the application of complex function theory to a plane problem of the mathematical theory of elasticity st ed University, null, 18, 1. ; Hongyin (2002), Probabilistic analysis of creep of metal - matrix composites, null, 15, 587. ; Chen (1209), Continuum elasticity theory approach for spontaneous bending and twisting of ribbons induced by mechanical anisotropy arXiv preprint arXiv, null, 24, 3321. ; Duttaa (2000), Hui Creep rupture of a GFRP comoposite at elevated temperatures, Comput Struct, 14, 153. ; ASME (2000), Alternative derivation of Marguerre s displacement solution in plane isotropic elasticity, Appl Mech, 67. ; Pachalis (1992), Modeling of creep of misaligned short - fiber reinforced ceramic composites, Appl Mech, 17, 59.

DOI

10.1515/bpasts-2017-0098

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