Mainly polysiloxane and its derivatives, the English names are Silicone, Dimethicone, Polydimethylsiloxane, Cyclopentasiloxane, etc. Through the introduction of functional groups, changing the structure, emulsification, etc., daily chemical silicone is produced in the form of liquid (silicone oil and its emulsion), gel , solid (silicone wax), resin and other forms exist. With unique properties such as good affinity with the skin, good compatibility with the base material, good hydrophobicity and breathability, resistance to chemical media erosion, moisturizing but not greasy, cosmetics containing silicone can be greatly improved while retaining their original properties. Enhance its lubrication, breathability, softness, antistatic, film-forming, smoothness, anti-mildew, anti-fouling, radiation resistance and other properties, so that cosmetics can stay on the surface of the skin or the area where they are applied for a longer period of time.
You might like
-
Optimizing the Cost-Effectiveness of T12 Organotin Catalyst in Polyurethane Production
-
The Synergistic Effects of Dibutyltin Dilaurate and Additives in Polyurethane Formulations
-
The Role of Tin Octoate in Modulating the Mechanical Properties of Polymeric Materials
-
Innovative Formulations Leveraging Dibutyltin Dilaurate for Next-Gen Polymer Products
-
Fine – Tuning Cure Kinetics in Epoxy Resin Formulations with Tin Octoate
-
Catalytic Process Optimization in Polyurethane Coating Production with Tin Octoate
-
Troubleshooting Polymerization Defects: The Corrective Role of Tin Octoate
-
Tin Octoate: Improving the Adhesion Properties of Adhesive Formulations
-
Troubleshooting Polymerization Defects with Strategic Use of Dibutyltin Dilaurate
-
Scaling Up Polyurethane Production with T12 Organotin Catalyst: Industrial-Scale Considerations
