Laboratory tests for assessing adaptability and stickiness of dental composites

AbstractObjective ng (stickiness, adaptability) of a dental composite does strongly influence quality and success of a dental restoration. The purpose was to develop an in vitro test, which allows for evaluating adaptability and stickiness. s tists were asked for providing individual assessment (school scores 1–6) of five dental composites addressing adaptability and stickiness. Composites were applied with a dental plugger (d = 1.8 mm) in a class I cavity (human tooth 17). The tooth was fixed on a force gauge for simultaneous determination of application forces with varying storage (6/25 °C) and application temperatures (6/25 °C). On basis of these data tensile tests were performed with a dental plugger (application force 1 N/2 N; v = 35 mm/min) on PMMA- or human tooth plates. Composite was dosed onto the tip of the plugger and applied. Application and unplugging was performed once and unplugging forces (UF) and length of the adhesive flags (LAF) were determined at different storage (6/25 °C) and application temperatures (25/37 °C). Unplugging work (UW) was calculated from area of UF and LAF data. s dividual assessment revealed significantly different temperature-dependent application forces between 0.58 N and 2.23 N. Adaptability was assessed between 2.1 and 2.8 school scores. Stickiness varied significantly between the materials (scores: 2–3.2). UW differed significantly between the materials with values between 3.20 N mm and 37.83 N mm. Between PMMA substrate or tooth slides and between 1 N or 2 N application force only small UW differences were found. icance esented in vitro unplugging work allows for an in vitro estimation of the handling parameters adaptability and stickiness.