Why so many modern creams contain fatty alcohols instead of the usual stearic acid?

Tagged: cream, fatty-acid, fatty-alcohol

Formulating

Why so many modern creams contain fatty alcohols instead of the usual stearic acid?

Posted by Gunther on April 3, 2019 at 12:00 am

Is that because fatty alcohols are usually less irritating than fatty acids?
Fatty acids become soaps at higher pH, while alcohols don’t

On the other hand, fatty alcohols can become a bit sticky at higher concentrations.

Microformulation replied 5 years, 7 months ago 6 Members · 8 Replies
8 Replies

Fekher

Member
April 3, 2019 at 1:45 pm

@Gunther according to my experience even in low level stearic acid genearally give waxy and flacking effect wich is not the case of fatty alcohol.
ngarayeva001

Member
April 4, 2019 at 12:39 pm

I am pretty sure texture is the answer. Stearic is draggy and causes a lot of soaping (much more that cetearyl alcohol). There are vey few formulas with stearic acid that have good texture (I usually think of the formulator as a magican when I find one). Regarding stickiness, you don’t usually achieve full viscosity by fatty alcohols only, so don’t use it to the point where they become sticky.
ngarayeva001

Member
April 4, 2019 at 12:42 pm

I usually think of “granma’s hand cream in an alumimum tube from early 90’s” when feel stearic acid in a product.
Bill_Toge

Member
April 7, 2019 at 5:11 pm

from an extensive series of experiments carried out a few years ago, I’ve found the two are both surface-active (though they are not emulsifiers) and have substantially different effects on the rheology of the product

fatty alcohols increase the zero-shear viscosity of the product, i.e. make it more solid when at rest, and cause the viscosity to decrease very sharply with applied shear force

stearic/palmitic acid has very little effect on the zero-shear viscosity, but increases the viscosity at higher shear rates, i.e. makes the product feel more ‘creamy’
DAS

Member
April 7, 2019 at 11:33 pm

@Bill_Toge that’s interesting. And regarding temperature?. In my experience fatty alcohols will decrease viscosity above 35°, even using 1% or less.
Bill_Toge

Member
April 8, 2019 at 8:05 pm

DAS said:

@Bill_Toge that’s interesting. And regarding temperature?. In my experience fatty alcohols will decrease viscosity above 35°, even using 1% or less.

that depends more on what rheology modifier(s) you have in the water phase - if you use xanthan gum and/or a carbomer, there is little variation of viscosity with temperature, whereas if you use cellulose derivatives the variation is much larger
ngarayeva001

Member
April 9, 2019 at 6:40 am

@Bill_Toge, this is a very interesting point.. what about carbomers or addition of small amounts of polymeric emulsifiers (for example Aristoflex) as a rheology modifier?
Microformulation

Member
April 10, 2019 at 2:20 pm

https://knowledge.ulprospector.com/9341/pcc-the-importance-of-fatty-alcohols-in-personal-care-ingredients/?utm_source=strongmail&utm_medium=email&utm_campaign=New+Trend+Tuesday+eNewsletter