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///Olivatis™ 12 Water-in-Silicone Sunscreen
Olivatis™ 12 Water-in-Silicone Sunscreen 2016-12-29T14:59:29+00:00

Olivatis 12 Water-in-Silicone Sunscreen – CSW 003-45

The Olivatis 12 water-in-silicone emulsifier imparts water resistance to potentially increase SPF capability. From bathing beauties to Triathlon swimmers, consumers experience a luxurious, moisturizing feel from the silicone in this quick-break sunscreen that won’t slip off the moment the skin gets wet. Formulators create a more interesting and complex sunscreen with the silicone phase as the external, while having the ease of a cold process emulsion.

Phase A
Endisil® FC-3451,2 (Cyclopentasiloxane) 5.00%
Endisil® EM-45181,2 (Cyclotetrasiloxane (and) Cyclopentasiloxane (and) PEG/PPG 18/18 Dimethicone) 12.00%
Olivatis™ 121,3 (Polyglyceryl-3 Pentaolivate) 8.00%
Endisil® FS-6771,2 (Phenyl Trimethicone) 1.50%
Phase B
Endimate® IPP1 (Isopropyl Palmitate) 1.50%
Endipure™ Shea1 (Butyrospermum Parkii) 2.00%
AllyEster™1,4 (Ethyl Palmate) 1.00%
Endicare® TN1 (C12-15 Alkyl Benzoate) 2.00%
Phase C
Avis1,5 (Butyl Methoxydibenzoylmethane) 2.00%
Octyne-B1,5 (Octocrylene) 2.50%
Cinnamon1,5 (Ethylhexyl Methoxycinnamate) 3.50%
Endisil® SPS-7350®1,2 (Cyclomethicone (and) Trimethylsiloxysilate) 1.00%
Phase D
Endisil® S-15011,2 (Cyclomethicone (and) Dimethiconol) 2.00%
Phase E
Deionized Water 43.50%
Sodium Chloride 0.50%
Propylene Glycol1 (Propylene Glycol) 3.00%
Sharomix DMP1,6 (Diazolidinyl Urea (and) Methylparaben (and) Propylparaben (and) Propylene Glycol) 1.00%
Phase F
Luxscreen® TR14 AF 501,7 (Titanium Dioxide (and) Hydrogenated Polydecene (and) Styrene/Acrylates Copolymer) 4.00%
Luxscreen® TR35 AF 501,7 (Titanium Dioxide (and) Hydrogenated Polydecene (and) Styrene/Acrylates Copolymer) 4.00%


  • 1Coast Southwest, Inc.
  • 2Endisil®, Inc.
  • 3Medolla Italia, s.r.l.
  • 4Allyson Enterprises
  • 5Sharon-Laboratories Ltd.
  • 6The Innovation Company


  • pH: NA
  • Viscosity: spindle 2.0 at 5.0 rpm = 6,920 cst
  • Estimated SPF value available upon request.


Phase A – In main vessel add Phase A under shear mixing. Phase B – In separate vessel, add Phase B and heat to 50-55℃ under agitation. Phase C – Add Phase C to Phase B separate vessel and continue heat to 75℃ under agitation. Once content of separate vessel reaches 75℃ and uniformity, discontinue heat and allow to cool to 50℃ under agitation. At 50℃ add to the main vessel and continue shear mixing. Phase D – Add Phase D to main vessel under shear mixing. Phase E – In separate vessel add Phase E under agitation. Once uniform, slowly add to main vessel increasing shear mixing speed as necessary so that Phase E is incorporated by the vortex and does not rest on the surface of mixture. Continue this technique until Phase E is uniformly incorporated into the mixture. It is crucial for Phase E to be added very slowly. Note: Time this process. Once mixture is uniform, let mix for the same allotted time it took to add to avoid over-shearing. Phase F – Add Phase F to main vessel under shear mixing.

REVISION DATE: 01/05/2015

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