Jeeraphat JantaratJoseph E.A. PalamaraCecylia LindnerHarold H. MesserMahidol UniversityUniversity of Melbourne2018-07-242018-07-242002-09-01Dental Materials. Vol.18, No.6 (2002), 486-493010956412-s2.0-0036729661https://repository.li.mahidol.ac.th/handle/123456789/20150Objectives: The aim of this study was to investigate the creep, stress relaxation and strain rate behavior of human root dentin under compressive loading. Methods: Cylindrical root dentin samples of 3.5mm outer diameter, 1.5mm internal canal diameter and 6-10mm long were prepared from freshly extracted teeth. The samples were tested in a closed-loop servohydraulic testing machine at constant load or displacement, and varied strain rate. In vivo strain rates were estimated using strain gauges bonded to human teeth. Results: A family of creep curves, determined at different loads within dentin's elastic region, was found to be consistent with a material having linear viscoelastic behavior. A positive correlation (r2=0.79, P<0.001) was found between creep rate and stress. Young's modulus (E) was found to be a function of the strain rate with rates of loading in the range 10-500,000Ns-1. Loading at constant displacement showed stress to be a decreasing function of time (i.e. stress relaxation). Significance: Dentin showed linear-viscoelastic behavior under various conditions of compressive loading. Time dependent properties of dentin should be taken into account in restorative dentistry. © 2002 Academy of Dental Materials. Published by Elsevier Science Ltd. All rights reserved.Mahidol UniversityDentistryEngineeringMaterials ScienceArticleSCOPUS10.1016/S0109-5641(01)00074-4