Mica Pigments - Olive Yellow
BUY MICA POWDER PIGMENT OLIVE YELLOW TO COLOUR SOAPS AND COSMETICS ONLINE
Particle size: 10-60 micron
Composition: mica 50-55%, titanium dioxide 44-49%
Form: powder
Colour: olive yellow
Odour: odourless
Solubility: insoluble in water
Melting point: decomposes
This multicoloured, shimmery pigment is fundamentally composed of mica and titanium dioxide. Mica are categorised as an accepted natural colourant that has been mined naturally. Every mica platelets are covered with accepted pigments to achieve the colourant. The multifaceted colour is what gives mica its inimitable shimmer and gleam. It works perfectly well when used in clear products such as clear melt and pour soap as the shimmer requires light to reflect.
One awesome point about mica is that it has a tendency not to clump in cold process soap. However, the down side though is that it has a possibility to be unstable in cold process soap. Titanium dioxide is a solidifying, blanching, lubricating ingredient added to this colourant to protect the skin. The reason for adding it is to permit a level of stability not attainable with mica. The end result of the mixture of mica and titanium dioxide is a many-coloured, shimmery pigment that is equally stable and not clumpy.
This lively colourant can be utilised to enhance products in numerous applications such as skin and body essentials. Examples of such essentials would consist of eyeshadows, face powders, and face blushers.
WHERE TO BUY MICA POWDER PIGMENT OLIVE YELLOW ONLINE?
Transform your soap and cosmetics with the captivating Olive Yellow mica pigments, only at N-essentials! Shop today to explore our extensive range of mica pigments and infuse your products with vibrant hues. Don't miss out-buy our premium and cost-effective colourants today!
The 15g option is packed in a clear vial, however, larger options are packed in reclosable ziplock standup pouches.
Warning: An injurious reaction may happen when used with metals such as magnesium, aluminum, potassium, lithium, zinc, sodium etc, at high temperatures.