Description
Translucent Melt & Pour Soap Base.
This translucent glycerin soap base is one of the purest and most natural soap products you can find. Ready to melt, scent, color, mold and be used in less than a few hours. Or slice it up and use it as-is. Either way, this soap has a high glycerin content which means it will leave your skin feeling naturally soft and not chemically stripped.
We use no chemicals nor surfactants in our melt & pour soap bases. For this reason, this Translucent Melt & Pour Soap Base is not considered a fully “clear” base (meaning you cannot see thru it like you would a crystal clear base). To achieve a super clear soap, agents have to be added that will “clear up” the naturally occurring cloudiness — and we simply don’t use those types of agents in our soap. So what you get with this base is a somewhat see-through bar … we call it “translucent.”
A few additional items to consider when purchasing melt & pour bases:
* Molds … for molding your soap.
* Colorants …. for coloring, of course! You can use iron oxides, ultramarines – or check through our vast botanical additives and look for powders that will “bleed” color into your soaps. Most listings will give a brief explanation on how to use them as colorants. If you have a question – always feel free to email us.
* Scents – If you want your soap to be all-natural, check out our essential oil list. If you don’t mind synthetic scents that smell great, check out our fragrance oils.
Soaping has never been so easy!!
Gluten-free!
Ingredients: Cocos Nucifera (Coconut) Oil, Elaeis Guineensis (Palm) Oil, Carthamus Tinctorius (Safflower) Seed Oil, glycerin, Purified Water, *Sodium Hydroxide, Sorbitol, Sorbitan Oleate, and Oat Protein.
*Please note that when soap is made by natural methods, you MUST use sodium hydroxide. There just isn’t really any other way to make a “soap.” Once the bars have been made, sodium hydroxide is no longer found in them, due to the reaction it made with the oils to create “soap.”
To view other handmade bases we offer click here.