SARADEFOAM | Non-silicone defoamer

Product Information

Saradefoam is a 100% active, non-silicone defoamer designed for all textile processing operations, i.e. sizing, desizing, scouring, bleaching, dyeing, printing, coating, etc. where foam control is essential. It may be used in jets, overflow dyeing machines, package dyeing machines, winches, jiggers and printing machines. Saradefoam does not lead to any objectionable build-up on equipments or substrate.

Key Features & Benefits
Key Features Benefits
Silicone free
No silicone spots & value loss
Can be added in pretreatment, dyeing and printing
Compatibile with anionic, cationic and non ionic products
General Characteristics
Physical appearance
Straw white to light amber viscous liquid
Ionic nature Nonionic
pH of 1% solution 6 +/- 1
Miscibility Miscible with water
Compatible with anionic, cationic and non-ionic products
Stable to dilute acids and dilute alkalies.

0.5-1 g/l Saradefoam is recommended in the bath to supress the foam generated during the process.

Saradefoam has excellent bath stability and compatibility with all ingredients in dyeing and printing.

It also eliminates foam build-up during cooling down phase on HT jet and overflow machines.

Note :

Due to its chemical constitution Saradefoam has a tendency to separate on standing, hence stir well before use. Saradefoam should be used as such and no dilution should be carried out.


Storage : Store in cool, ventilated shed away from heat and direct sunlight. Storage temperature should not exceed 35 deg C.Close lids firmly to avoid contact with air and moisture.

Shelf Life : 9 months from the date of manufacturing, if stored under controlled conditions.

The above information is given in good faith and is without warranty

Related Products

Product Name Short Description Description
SARASIL-D Silicon-based defoamer

A silicone defoamer designed for all textile processing operations where foam control is essential.

SARASIL-JS (CONC). Silicone-based defoamer

A Silicone-based defoamer stable to alkaline conditions at high temperature as well as stable to shear forces.