Roof Snot as a house wash soap??

It work great for us. It also leaves windows cleaner with no spots.
 
Is roof snot safe for stucco siding? Do you think it works better than Elemonator?

IMO yes it works better than eliminator. I have used both. For me it does a better job in cleaning the surface, whether it's stucco, vinyl, riffs, brick, etc etc. Plus the windows rinse close to crystal clear, even if the mix dries on the window in hot sun.
 
Has roof snot got cleaning agents in it?I thought it was just in the miristimine family that is just a surfactant please correct me if i am wrong.
 
MYRISTAMINE OXIDE



PRODUCT IDENTIFICATION


CAS NO. 3332-27-2; 217643-95-3
MYRISTAMINE OXIDE

EINECS NO. 222-059-3
FORMULA C16H35NO
MOL WT. 257.46

H.S. CODE


TOXICITY

Oral rats LD50: 5.6g/kg

SYNONYMS N,N-Dimethyl-1-tetradecanamine-N-oxide;
Myristyl dimethyl amine oxide; Myristyldimethylamine oxide; N,N-Dimethyltetradecylamine N-oxide; Dimethyl-oxido-tetradecyl-azanium;
SMILES

CLASSIFICATION

SURFACTANTS /


PHYSICAL AND CHEMICAL PROPERTIES

PHYSICAL STATE
Clear liquid


MELTING POINT
-10 C
BOILING POINT 100 C
SPECIFIC GRAVITY 0.962

SOLUBILITY IN WATER

pH 8 (10% sol.)

VISCOSITY (CPA)

5098 at 25 C

VAPOR DENSITY

REFRACTIVE INDEX



NFPA RATINGS Health: 1; Flammability: 1; Reactivity: 0
FLASH POINT
94 C

STABILITY Stable under ordinary conditions

GENERAL DESCRIPTION & APPLICATIONS

Amine N-oxides are active components in body care products such as shampoo, bubble bath, and hand-soap formulations in combination with alkyl or olefin sulfates. In acidic media, they are cationic and can act as a mild conditioner. In neutral or weak basic media, they are featured as excellent foam stabilizer and viscosity building provider. Alkyldimethyl, N-oxides are used ad a foam enhancer, stabilizer and viscosity builder. End products include light duty liquid detergents, drain cleaners, fabric washer. They are used as dye dispersant, wetting agent, emulsifier, lubricant and formulation with anionic, nonionic and cationic materials.
Amphoteric surfactants have dual functional groups (both acidic and basic groups) in the same molecule. They are polar solvents that have a high solubility in water but a poor solubility in most organic solvents. They are electrically neutral but carries positive and negative charges on different atoms in an aqueous solution. Depending on the composition and conditions of pH value, the substances can have anionic or cationic properties. In the presence of acids, they will accept the hydrogen ions but they will donate hydrogen ions to the solution in the presence of bases, which balances the pH. Such actions make buffer solutions which resist change to the pH. In the detergency ability amphoteric surfactants which change their charge according to the pH of the solution affects properties of foaming, wetting and detergentcy through a surface action that exerts both hydrophilic and hydrophobic properties. In biochemistry amphoteric surfactant is used as a detergent for purifying, cleansing and antimicrobial effects. Alkylbetains and aminoxides are amphoteric surfactants.

Members of amphoteric surfactants
•2-Alkyl-N-carboxymethyl-N-hydroxyethyl imidazolinium betaine
•Alkyldimethyl amine oxide
•Cocoamine oxide
•Cocoamphocarboxyglycinate
•Cocoamphopolycarboxyglycinate
•Cocodimethylamine oxide
•Cocoiminoglycinate
•Cocoiminopropionate
•Cocoylamidepropyldimethyl grycine
•Lauryl betaine
•Lauryldimethyl amine oxide
•Laurylhydroxy sulfobetain
•Laurylamide propyldimethyl grycine
•Lauryldimethyl betaine
•Octyliminodipropionate
•Oleylamphopolycarboxyglycinate
•Stearyl betaine
•Tallowamine oxide
•Tallowamphopolycarboxyglycinate
•Tetradecyldimethyl amine oxide

SALES SPECIFICATION

APPEARANCE

Clear liquid


AMINE OXIDE
30.0% min
PH 7 - 8 (10% Sol.)

FREE PEROXIDE
0.2% max
FREE AMINE
0.8% max


COLOR (APHA)

60 max

TRANSPORTATION
PACKING 193kgs in Drum
HAZARD CLASS
UN NO.
REMARKS
 
COCAMIDE DIETHANOLAMINE


PRODUCT IDENTIFICATION


CAS NO. 68603-42-9
COCAMIDE DIETHANOLAMINE

EINECS NO. 271-657-0
FORMULA
CH3(CH2)nC(=O)N(CH2CH2OH)2

MOL WT. 280 - 290
H.S. CODE


TOXICITY
Oral rat LD50: > 3000 mg/kg

SYNONYMS Coconut Oil Acid Diethanolamine Condensate;
Coconut fatty acid amide of diethanolamine; Coconut diethanolamide; Cocamide DEA; coconut oil diethanolamine; n,n-Bis(2-hydroxyethyl) cocoamide; n,n-Bis(2-hydroxyethyl) coconut fatty acid amide; n,n-Bis(2-hydroxyethyl) coconut oil amide; Coconut fatty acids diethanolamide; Coconut oil acids diethanolamide; Coconut oil acids, diethanolamine; Coconut oil diethanolamide; Coconut oil fatty acid diethanolamide; Coconut oil fatty acids diethanolamide; coco-n,n-Bis(hydroxyethyl)amides; N,N-bis(hydroxyethyl)coco amides; n,n-bis(hydroxyethyl) coco fatty amides; coconut oil acid diethanolamine; cocamide diethanolamine; Diethanolamides of the fatty acids of coconut oil;
DERIVATION



CLASSIFICATION




PHYSICAL AND CHEMICAL PROPERTIES

PHYSICAL STATE Viscous yellow liquid
MELTING POINT < 10 C
BOILING POINT 169 - 275 C
SPECIFIC GRAVITY 0.99

pH

9 (1% sol.)

SOLUBILITY IN WATER soluble
AUTOIGNITION
NFPA RATINGS
FLASH POINT > 100 C
STABILITY Stable under ordinary conditions

GENERAL DESCRIPTION & APPLICATIONS


Nonionic surfactants are surface active agents which do not dissociate into ions in aqueous solutions, unlike anionic surfactants which have a negative charge and cationic surfactants which have a positive charge in aqueous solution. Nonionic surfactants are more widely used as detergents than ionic surfactants because anionic surfactants are insoluble in many hard water and cationic surfactants are considered to be poor cleaners. In addition to detergency, nonionic surfactants show excellent solvency, low foam properties and chemical stability. It is thought that nonionic surfactants are mild on the skin even at high loadings and long-term exposure. The hydrophilic group of nonionic surfactants is a polymerized alkene oxide (water soluble polyether with 10 to 100 units length typically). They are prepared by polymerization of ethylene oxide, propylene oxide, and butylene oxide in the same molecule. Depending on the ratio and order of oxide addition, together with the number of carbon atoms which vary the chemical and physical properties, nonionic surfactant is used as a wetting agent, a detergent, or an emulsifier. Nonionic surfactants include alcohol ethoxylates, alkylphenol ethoxylates, phenol ethoxylates, amide ethoxylates, glyceride ethoxylates (soya bean oil and caster oil ethoxylates), fatty acid ethoxylates, and fatty amine ethoxylates. Another commercially significant nonionic surfactants are the alkyl glycosides in which the hydrophilic groups are sugars (polysaccharides).

Typically commercial coconut fatty acid has carbon chain composition of; C10 (5% max) + C12 (45 - 55%) + C14 (20 - 25%) + C16 (10 - 15 %) + C18 (10 - 15% max, including unsaturated fatty acids). Cocamide is an amide mixture of coconut fatty acids. Cocamides are manufactured by condensation of alkanolamines (mono-, di-, or triethanolamine) and coconut fatty acid. Examples are cocamide MEA (cocamide monoethanolamine), cocamide DEA (cocamide diethanolamine) and cocamide TEA (cocamide triethanolamine). They have the physical and chemical characteristics of alcohols, amines and long carbon chains in one molecule. Alkanolamides are nonionic surfactants impart excellent viscosity enhancing and foam stabilization in anionic based systems like hand washing liquids, shampoos, body cleansers and other personal care products. They act as lubricant agent, thickening agent and wetting agent. Their very good emulsifying property also provides applications in the field of pharmaceuticals, agricultural preparations, and textile processing; rust inhibiting, latex stabilizing, anti-static function in textiles, dye-leveling, waterproofing and water-in-oil additives as well as very good emulsifying.

SALES SPECIFICATION

APPEARANCE
Viscous yellow liquid
ACTIVE MATTER
83.0% max

FREE FATTY ACIDS
0.5% max


AMINE VALUE

10 - 30


MOISTURE

0.5% max


FREE OIL

4.0% max


OTHER CONTENT

10.5% max (Glycerine)

TRANSPORTATION
PACKING 200kgs in drum
HAZARD CLASS
UN NO.
OTHER CAS RN

8036-48-4; 8040-31-1; 8040-33-3; 12751-06-3; 53028-62-9; 56448-72-7; 56832-66-7; 63091-31-6; 66984-58-5; 67785-14-2; 67785-10-8; 71343-51-6; 71343-71-0; 83652-14-6; 90651-47-1; 118104-13-5;
 
Back
Top