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EVAGUARD® 104
EVAGUARD® 104 is a liquid preservative with a wide range of effects, consisting of a mixture of methylparaben, butylparaben, ethylparaben, propyl paraben in phenoxyethanol.
It is a preservative system that does not contain formaldehyde and formaldehyde-releasing components, is resistant to heat and has a high resistance to lipid systems. Pre-dissolution of parabens in a liquid medium makes their inclusion in formulations faster and easier.
EVAGUARD® 104 is a safe and effective blend offering the benefits of internationally recognized cosmetic preservatives with a long history of use with unsurpassed chemical stability and compatibility.
- Liquid
- Preserving agent
- 3-8
- Hair care
- Facial and eye care
- Make Up products
- Shaving products
- Body care
- Sunscreens
- Bath products
- Baby care products
- Wet wipes
- Deodorants and antiperspirants
- 80°С
- Overall 0.4-1.2%
- In rinse-off products 0.4-0.8%
- In leave-on products 0.6-1.0%
- The maximum permitted dosage in the Russian Federation is 1.39%
- Broad spectrum of antimicrobial activity
- Based on safe and internationally recognized ingredients
- Effective in a wide pH range from 3 to 8
- Relatively low input levels and synergy with other preservatives
- A versatile system for many cosmetic applications
A broad-spectrum liquid preservative based on nature-identical substances - benzyl alcohol, glycerin and organic acids. Can be used to preserve a wide range of rinse-off and leave-on cosmetic products with a slightly acidic pH of up to 5.5. The recommended input level is 0.6–1.2%.
EVAPEARL® MS1 is a pearlescent concentrate in the form of a pearly white or creamy dispersion, based on glycol distearate. This ingredient is stabilized by anionic and nonionic surfactants, which ensures its high emulsifying properties and stability in the formulation. The recommended addition level is 1.0 - 6.0%.
An effective broad-spectrum preservative based on a combination of chloromethyl/methylisothiazolinone for various industries. It is characterized by high efficiency at low input concentration.
