BASIS HI ACRYLIC RESIN

BASIS  HI ACRYLIC RESIN
BASIS  HI ACRYLIC RESIN
BASIS  HI ACRYLIC RESIN

BASIS HI ACRYLIC RESIN

Vendor
Yamahachi
$59.95
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BASIS HI is an acrylic elastomere, high impact resistance heat-curing resin for denture bases.
An adaptable and aesthetically pleasing denture of excellent temperature stability is achievable without any air bubble formation or shrinkage.
High impact resistance – guarantees worry-free application and use for patients and dental professionals.
Heat-Curing Method: Immerse the flask in a container of tap water.
Apply heat gradually for about 30minutes until boil.
Let the resin completely cure for 30 – 40 minutes in boiling water.
Cool the flask for about 30 minutes at room temperature.
Recover denture after cooling completely.

Heat-Curing Method: Immerse the flask in a container of tap water.
Apply heat until boil. Let the resin completely cure for 30 – 40 minutes (Curing time starts when the water with the flask has started to boil).
Cool the flask for about 30 minutes at room temperature.
Recover denture after cooling completely.

 

Features:
  • High Impact Resistance.
    BASIS HI is a mixture of acrylic and elastomeric polymers exhibiting both the advantages of typical plastic and rubbery materials.
    These combined characteristics resulted in BASIS HIʼs superb durability.
  • Excellent Temperature Stability.
    BASIS HI acrylic elastomeric formulation is designed to withstand thermal effect during denture production and usage.
    Denture integrity against deformation due to thermal effect is preserved.
  • Non-Creeping.
    The right proportion of copolymerʼs cross-linking prevents the tendency of the denture from slow deformation inside the mouths stress.
    Longevity of denture is guaranteed.
  • Outstanding Color Stability.
    The problem over color tarnishing and fading is prevented by BASIS HIʼs stable copolymersʼ cross-linking.
  • Allows More Sufficient Working Time.
    An adaptable and aesthetically pleasing denture is achievable without any air bubble formation or shrinkage in a less working time.

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