Fluid Thinking. Innovative Solutions

Formulary

///Instantaneous Pore Minimizing Cream
Instantaneous Pore Minimizing Cream 2017-01-03T11:00:40+00:00

Instantaneous Pore Minimizing Cream – CSW 003-85

Instantaneous Pore Minimizing Cream is formulated with FiFlow® VF to instantaneously reduce the appearance of large pores and create a smoother skin texture. Perfect for all skin types, this light cream helps absorb excess oil and maintain a silky appearance throughout the day.

Phase A
Deionized Water 67.40%
Dissolvine® 220-S1,2 (Tetrasodium EDTA) 0.10%
Glycerin 99.7% USP Kosher1 (Glycerin) 2.00%
Phase B
Endimate® 33V1 (Caprylic/Capric Triglyceride) 3.00%
Dedraflow® 28001,3 (Hydrogenated Polyisobutene (and) Dimethicone) 3.00%
Endimate® IPP1 (Isopropyl Palmitate) 2.00%
Olivatis™ 111,4 (Polyglyceryl-3 Olivate Phosphate) 2.00%
Olivatis™ 131,4 (Polyglyceryl-3 Cetearyl Ether Olivate) 3.00%
Endimulse® EGDS1 (Glycol Distearate) 2.00%
Cetyl Stearyl Alcohol1 (Cetearyl Alcohol) 2.00%
Endimulse® CS-20D1 (Cetearyl Alcohol (and) Ceteareth-20) 2.00%
Phase C
Sharomix 7031,5 (Potassium Sorbate (and) Sodium Benzoate (and) Benzyl Alcohol (and) Water) 0.60%
Phase D
Creaspheres® SIL WL 61,3 (Silica) 0.30%
Creaspheres® PMMA WL 61,3 (Polymethyl Methacrylate) 0.25%
BNPoly® UV Crystal TR 451,3 (Boron Nitride (and) Titanium Dioxide (and) Dimethicone (and) Isododecane (and) Ethylene/VA Copolymer) 0.35%
Phase E
FiFlow® VF1,3 (Perfluorohexane (and) Perfluorodecalin (and) Perfluoroperhydrophenanthrene (Perfluorodimethylcyclohexane) 10.00%

Suppliers

  • 1Coast Southwest, Inc.
  • 2Akzo Nobel Functional Chemicals, LLC.
  • 3The Innovation Company®
  • 4Medolla Limited
  • 5Sharon-Laboratories

Properties

  • pH: 5.8 – 6.2
  • Viscosity: spindle 5.0 at 20.0 rpm = 19,500-23,500 cst

Instructions

Phase A – Add Phase A to main vessel under shear mixing and begin heating to 80°C. Phase B – In a separate vessel, add Phase B under shear mixing and heat to 80°C. Once both Phases are at temperature and uniform, add Phase B to main vessel slowly under high shear mixing. Begin cool down. Phase C – Once main vessel is below 45°C, add Phase C to main vessel and continue cool down. Phase D – Once main vessel is at room temperature, homogenize Phase D into main vessel. Phase E – Homogenize Phase E into the main vessel until uniform. Transfer to final container.

REVISION DATE: 06/23/2016

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