New Flowable Composite With Low Shrinkage And Excellent Physical Properties

Objective: Compare physical properties of new Kerr nano-hybrid flowable composite to 4 commercial flowable composites.

Method: Degree of conversion (DC, n=3) using FT-IR, polymerization shrinkage (VS, n=3) using buoyancy method, Radiopacity, flexural strength (FS, n=5), and flexural modulus (FM, n=5) per ISO4049, and compressive strength (CS, n=5) and diametrial tensile strength (DTS, n=5) using a universal testing machine were determined for A2 shade (Abst. #534, IADR 2001). Specimens were polymerized following manufacturer instructions. Statistical analysis of the data was performed using one-way ANOVA Test (p<0.05).

Result: The table below summarizes test results. For each column, similar letters indicate that no statistical differences were found.

Materials	DC (%)	VS(%)	Radiopacity (%Al)	FS(MPa)	FM(MPa)	CS(MPa)	DTS(MPa)
Kerr Exp. Flowable	52 (0.8)a	2.7(0.2)c	350	139(5)a	6680(280)c	361(34)b	56(10)a,b
Filtek Supreme Ultra Flow	47 (3.2)b	3.3 (0.1)b	250	127(21)a	7474(159)b	360(16)b	56(5)a,b
Tetric Evoflow	43 (2.3)b	3.9 (0.3)a	350	113(13)a	5378(243)d	455(17)a	43(2)c
Esthet X flow	47 (0.8)b	3.5 (0.1)a,b	275	120(9)a	6644(298)c	352(28)b	50(4)b,c
Estelite Flow Quick	46 (1.3)b	3.4 (0.3)a,b	<200	140(26)a	9022(406)a	500(23)a	64(7)a

Conclusion: Among the examined products, Kerr experimental nano-hybrid flowable composite showed high degree of conversion, low volume shrinkage, high radiopacity, and excellent physical properties.