@misc{Mańkowski_Jarosław_Digital,
 author={Mańkowski, Jarosław and Lipnicki, Jakub},
 howpublished={online},
 publisher={Zielona Góra: Uniwersytet Zielonogórski},
 language={eng},
 abstract={The authors tried to identify the parameters of numerical models of digital materials, which are a kind of composite resulting from the manufacture of the product in 3D printers. With the arrangement of several heads of the printer, the new material can result from mixing of materials with radically different properties, during the process of producing single layer of the product.},
 abstract={The new material has properties dependent on the base materials properties and their proportions. Digital materials tensile characteristics are often non-linear and qualify to be described by hyperelastic materials models. The identification was conducted based on the results of tensile tests models, its various degrees coefficients of the polynomials to various degrees coefficients of the polynomials. The Drucker`s stability criterion was also examined. Fourteen different materials were analyzed.},
 type={artykuł},
 title={Digital materials - evaluation of the possibilities of using selected hyperelastic models to describe constitutive relations},
 keywords={digital materials, hyperelastic, identification of models, FEM, 3D printing, PolyJet Matrix technology},
}