Akademik Veri Yönetim Sistemi
Digest Journal Of Nanomaterials And Biostructures, cilt.2, sa.2, ss.243-252, 2017 (SCI-Expanded)
This work was aimed to study the effect of water absorption on the mechanical properties of
several zinc polycarboxylate cements by changing the samples’ storage times. The water
absorption of four commercial zinc polycarboxylate cements were measured using specimens
immersed for 1 h to 840 h (35days) in distilled water. Hardness and compressive strength
values were measured using specimens immersed for 1 day and 35 days in distilled water. All
samples took up most of the water during the first 24 h. Poly-F Plus (PFP) and Durelon (D)
cements absorbed less water than Adhesor Carbofine (AC) and Polycarboxylate WP (P)
cements. Adhesor Carbofine (AC) is the most hydrophilic material among the polycarboxylate
cements. Water altered the physical properties of polycarboxylate cements after 35 days of
water storage. Water sorption also provoked an expansion in volume of the immersed
specimens, ranging from 1.72% to 9.19%. PFP, AC and D cements were shown an important
increase in the hardness for 1 day and 35 days in the water (PFP:32%, AC:22%, D:9%).
However, P cement showed a decrease in the hardness (52%). The highest compressive
strength was obtained with D (110 MPa), whereas the lowest value was observed with P (60
MPa). Water sorption (µg/mm3
), volume change (∆V%), hardness (HV) and compressive
strength (MPa) of zinc polycarboxylate cements were listed from high to low value:
AC>P>PFP>D; AC>P>PFP>D; PFP>AC>P>D and D>PFP>AC>P.