Hydrocolloids
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Nov 27, 2016
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About This Presentation
Hydrocollides, Agar, composition, properties, applications
Slide Content
Reversible Hydrocolloids ASST PROFESSOR Dr Mumtaz ul Islam B.Sc. BDS. MHR. M.Phil.
What are hydrocollides Polysaccharides colloidal suspensions in water Not solution not suspension No solid particles present not a solution Particles bears charges which repels each other Medium is water so hydro
Types Two sol and gel Sol low viscosity fluid random chains Gel viscosity increases plastic chains are aligned Fibrils in the colloidal phase produces a jelly like consistency More the fibrils structure in gel stronger jelly will form Strength depends on concentration of polysaccharides
Setting Conversion from sol to gel Gel formation commences in two ways reversible and irreversible Cooling produces alignment Van der waals forces Hydrogen bonding Reversible process reversible hydrocollides
Reversible hydrocollides (agar) Polysachrides extracted from sea weeds Primarily 15% colloidal suspension of agar in water High molecular weight more free hydroxyl groups Presentation flexible tubes, syringes Borex provides bulk retards setting of gypsum model and die materials Potassium sulphate activates the retarding effect of ----------------
Manipulation Prepared (conditioned) in conditioning bath before use Three compartments having water at different temperature Tube or syringe first immersed in 100°C bath → sol Then in 65°C till required for use mixing by squeezing Few minutes before impression tube transferred to 45°C bath Impression by conventional method
Application Different consistencies are available Crown and bridge work impressions High viscosity sol tray Low syringed over prepared tooth or teeth
Temperature hysteresis effect Present at sol to gel transition and vice versa Transition from sol to gel is slow at mouth temperature To accelerate it cold water spray or water-cooled trays used Material near the water tubes sets rapidly Near tooth can flow and record even the tray moved slightly Removal through snatching
Syneresis and imbibition Syneresis (squeezing) expulsion of water on surface Imbibition swelling of material through water uptake Agar is very much susceptible for both Impression should be rinsed and kept covered in a damp gauze Model must be poured within 30 minutes Not possible to make metal coated or epoxy resin dies
Clinical advantage Its water absorption capacity Impression of a provisional ill fitting crown difficult Gingival inflammation Increased crevicular flow First impression takes up moisture 2 nd one would be accurate Can be reused cross infection is a limitation along with others
Types & Applications Type 1 high consistency for complete and partial dentures Alone or in combination with type 2 or type 3 type 1 in tray Type 2 medium consistency multi purpose Itself used in extruded technique (combination technique) Type 3 low consistency multi purpose only syringe with type 2 or type 3 type
Properties Fluid in sol form for recording fine details Mucostatic low viscosity Reproducibility ISO 1564 copy 0.02mm line in a metallic block Compatibility with gypsum products 0.05mm line cast production Flexible for undercuts cylinder 20mm long and 12.5mm diameter Measuring load 125g then 1.25kg strain minor 4% and major 15%
Properties contd , Viscoelastic elastic recovery can be optimized Amount of permanent deformation undercut severity stressed time If stressed time reduced elastic recovery enhanced Quick Snatch recovery (snatching) Cylindrical specimen 20mm high and 12.5mm diameter compressed 4mm Recovery after one second load application must be 96%
Properties contd , Mechanically poor T ear strength is low Interproximal and sub gingival areas very difficult to record Tear resistance Ts (tear strength) Type 1material 0.75 N/mm Type 2 and type 3 materials 0.5 N/mm
Properties contd , Often small drops of water are visible on surface High water content evaporation causes shrinkage Imbibition produces swelling Dimensionally unstable Not always possible nor advised make more than one cast Duplicating material can be reused (low cost)
Duplicating Cast or model on a glass slab surrounded by duplicating flask Duplicating material is thinner heated at 50°C Poured in to fill the flask temperature kept as low as possible Contraction prevented also by cooling the flask from base Cast removed immediately after setting and poured Retarding effect avoided by treating the surface by accelerator
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