Venus Flow is an submicron-hybrid composite.
Due to their composition, flowable composites are not as resistant as standard composites and are less capable of withstanding the stress in the occlusal load-bearing areas of extensive class I or II cavities
Yes! As Venus and Venus Flow exhibit the same shades, no separate shade guide is required for Venus Flow.
Yes, all Venus Flow shades were matched to the Venus shades during development. This rules out variations in shade when both products are used for the same restoration.
Yes, Venus Flow fillings are easily recognised on X-rays.
As Venus Flow is extremely thixotropic, it flows into minute cavities homogeneously and effectively. It forms a bath-shaped floor in the cavity with margins that taper upwards and towards the cavity walls. This rounded shape forms a dense seal with the bonding agent and the composite that is used for filling the cavity completely.
Venus Flow can be combined with all commercially available (meth)acrylate-based composites.
Thanks to its excellent thixotropy, Venus Flow is very well suited for this indication.
Halogen and LED light-curing units must produce at least 400 – 500 mW / cm². When using stronger light-curing units (e.g. plasma light curing units that have an output greater than 1200 mW / cm²), the polymerisation time can be reduced by 25%. Shades A1, A2, A3, A3.5, B2, B3 and SB1, SB2, T2, HKA2.5 must be polymerised for 20 sec. All other shades must be polymerised for 40 sec.
Venus Flow contains approximately 62 % by weight, or 38 % by volume inorganic fillers such as Ba-AI-F silicate glass and SiO2. The filler particle size is between 0.005 μm and 5 μm.
The Venus Flow Baseliner acts as a "stress breaker" and forms a bath-shaped floor in the cavity with margins tapering upwards and towards the cavity walls. This rounded shape forms a dense seal with the bonding agent and the composite that is used for filling the cavity completely. The opaque-white colour of the Baseliner makes the cavitiy lining very visible.