Genamin T 100

Tallow Amine 10 EO
Genamin T 100 is a medium EO range tallow amine ethoxylate.
Insensitive to water hardness
Can be combined with all types at nonionic and cationic surfactants
Resistant to most chemicals at typical concentrations used

Product class: Amine ethoxylate
REACH status: Exempted due to polymer status
Cloud point method: -
Cloud point [°C]:-
Product composition: Tallow fatty amine with 10 EO
Active content (ca.): 100%
Appearance: Liquid
Water content    : 
HLB (calc.): -

Tallow fatty amine ethoxylate with 10 mol EO
Product properties *)
Active substance content: about 100 %
Appearance at 20 °C: light brownish liquid
pH of a 1% aqueous solution (20 °C): 9 - 11
Solubility at 20 °C
1 % in water: clear
1 % in mineral oil: turbid
1 % in xylene: clear
1 % in glycol: clear
Density at 50 °C (DIN 51757): 0.9 – 1.0 g/cm³
Viscosity at 50 °C (DIN 53015): approx. 50 mPas
Refractive index at 50 °C (DIN/ISO 3016): approx. 1.460
Pour point (DIN/ISO 3016): approx. - 5 °C
Flash point (DIN 51584): above 200 °C
Alkali value (mg KOH / 1 g amine): 77 - 81
Lime soap dispersing power (DIN 53903): 3 %
Surface tension (DIN 53914) (1 g/L): 38 mN/m
Dip-wetting ability (DIN 53901) 100 s at 25 °C: 10 g/L
Other Genamin T grades
Genamin T 020 special
Genamin T 150
Genamin T 200
Fatty amine ethyloxylates
The surface-active fatty amine ethoxylates are obtained by the action of ethylene oxide on fatty amine. The reaction
can be represented in summary simplified form by the following general equation:
Fatty amine Ethylene oxide Fatty amine ethoxylate
x + y = n number of molecules of ethylene oxide added
As a result of the addition of ethylene oxide to the fatty amines, dihydric alcohols with terminal hydroxyl groups are
produced. Under suitable conditions further reactions with these are possible. Moreover, the bridge nitrogen can be
Fatty amine ethoxylates are in principle basic in nature, form salts with acids and have an alkaline reaction in aqueous
solution. In view of their surface activity they must therefore be classified with the cationic compounds and, like
them, prove to be substantive.
Nevertheless, they often behave like nonionic surfactants towards many indicators and also in other applications, and
all the more so the longer the added ethylene oxide chain is.
Their physical and chemical properties, and especially the surface-active ones, are determined largely by the ratio of
the hydrophobic fatty amine radical to the hydrophilic solubilizing polyglycol chains in the molecule. The length of the
polyglycol chains is indicated by the number of molecules of ethylene oxide added per molecule of fatty amine and is
also known as degree of ethoxylation.
Since both the type of initial fatty amine and the amount of ethylene oxide can be chosen arbitrarily, there are two
possibilities for modifying the hydrophilic/hydrophobic balance. Both have been employed in producing the Genamin
product range. This consists of four groups, each of which is based on a different fatty amine and is distinguished by
corresponding code letters:

C = Coconut fatty amine
saturated C8-C18 fatty amines, predominantly C12-C14
O = Oleylamine
predominantly unsaturated C18 fatty amines
S = Stearylamine
saturated C16-C18 fatty amines
T = Tallow fatty amine
saturated and unsaturated C16-C18 fatty amines
A multistage ethoxylation series is available for each of these amines, and the number of added molecules of ethylene
oxide is expressed by an additional suffix, e.g. 080 for 8, 150 for 15 and 250 for 25 moles of ethylene oxide per
molecule of fatty amine.
The last zero in all suffixes indicates that all grades contain practically 100 % active substance.
Common degrees of ethoxylation are Genamin grades with 2, 5, 8, 20 and 25 moles of ethylene oxide.
If for special purposes a narrower range is required, this can easily be achieved by formulating corresponding blends
of neighboring products. Sometimes, however, blends of more distant products produce even better effects. The
procedure is to use the usual mixing rule and to employ the amine numbers as a basis for calculation. Moreover,
when entire production batches are taken, any degrees of ethoxylation can be produced.
To obtain completely homogeneous blends, it is preferable to employ temperatures of 50 – 60°C. It is recommended
that this temperature should be also maintained when aqueous dilutions are produced. In certain concentration ranges
(usually between 70 and 40 % active substance) the occurrence of gelatinous hydrates, which are slow to dissolve in
cold water, is avoided.
In suitable cases the gel state can be eliminated by adding solubilizers (alcohols, glycols, etc.). These are also
appropriate if stable, non-flammable, higher dilutions are to be produced from products that form a turbid solution.
In principle the solubility in water rises with increasing degree of ethoxylation. The slightly ethoxylated products are
only moderately dispersible at room temperature and therefore form turbid solutions resembling emulsions. The
medium and higher-ethoxylated products dissolve to form a clear solution.
On the other hand, the solubility in water decreases with rising temperature. Therefore turbidity can occasionally
occur even in inherently clear solutions, for example if the recommended working temperature of 50 – 60°C is
maintained when dilutions are prepared.
This is a reversible physical phenomenon that normally impairs neither further processing nor subsequent use. The
solutions become clear again as they cool. Higher-ethoxylated compounds display no turbidity in aqueous solution up
to boiling point. However, with these too the temperature limit is depressed to a greater or lesser extent by large
quantities of electrolytes, especially neutral salts or alkalis.

Just like the fatty amines, the Genamin grades, especially in concentrated form, have a corrosive effect on the skin
and mucous membranes. The appropriate protective measures must therefore be taken when the products are
Genamin grades can be combined unreservedly with nonionic and other cationic surface-active substances.
Compatibility with anionic products must however be checked in each case.
The Genamin grades are largely resistant to most chemicals in the common application concentrations and are
practically indifferent to hard water.
Their specific surface-active properties make them valuable raw materials and mixing components for the chemicaltechnical
industry. They are suitable e.g. for the manufacture of dyeing and other textile auxiliaries, mineral oil
additives, crop protection products, pesticides, cosmetic starting materials and bonding agents, details of which are
beyond the scope of this data sheet.
We will gladly offer advice and information on any technical questions you may have.
Product use
Genamin grades can be combined with all types at nonionic and cationic surfactants. The compatibility with anionic
products must be checked for each case. The Genamin grades are resistant to most chemicals at typical
concentrations used. They are insensitive to water hardness.
Their specific surface active properties make them valuable bases and additives for the chemical technical industry.
They can be used to manufacture textile auxiliaries (e.g. products for dyeing) mineral oil additives, crop protection
products and pesticides, raw materials for cosmetics and adhesives. 
As ATAMAN we will be pleased to give you advice on technical details.

CAS number
Chemical Name:
Tallow amine ethoxylate (3-50EO)
TAM 105 ; Tallow alkyl amines, ethoxylated ; Toximul TA 10 ; Toximul TA 15 ; Toximul TA2 ; Toximul TA 5 ; Toximul TA 6 ; Trymeen 6606 ; Trymeen 6607 ; Trymeen TAM ; VaronicT 202 ; Varonic T 205 ; Varonic T 210 ; Varonic T 216 ; Varonic T 220 ; Varonic T220D ; Weedmaster CT Surfactant ; Witcamine 405 ; Witcamine 6606 ; Witcamine TAM105 ; Witcamine TAM 45 ; Witconol TD 1407 ; Tam 15 ; Teric 17M2 ; Teric 204 ; Terwet 3780 ; Toximul 8362 ; Agnique Tam5 ; Alkaminox T 12 ; Alkaminox T 2 ; Amiet 502 ; Amiladin D ; Amines, tallow, ethoxylated ; Amines, tallow, polyethoxylated ; Atlas G 3762 ; Atlas G 3780644 ; Atlas G 3780A ; Atmer 261 ; Berol 392 ; Chemeen T 5 ; Crisomin T 15 ; Crodamet T 15 ; Entry II ; Ethokem ; Ethomeen T ; Ethomeen T 12 ; Ethomeen T 15 ; Ethomeen T 16 ; Ethomeen T20 ; Ethomeen T 25 ; Ethomeen T 27 ; Ethomeen T 30 ; Ethomeen T 40 ; Ethomeen T 70 ; Ethox TAM 15 ; Ethox TAM 2 ; Ethox TAM 20 ; Ethox TAM 5 ; Ethoxamine SF 11 ; Ethoxamine SF 15 ; Ethoxylated tallow alkyl amines ; Ethoxylated tallow amines ; Ethylan TT 05 ; Ethylan TT 15 ; Ethylan TT 203 ; Ethylan TT 40 ; Frigate ; G 3780A ; Genamin T ; Genamin T 020 ; Genamin T 050 ; Genamin T 080 ; Genamin T 100 ; GenaminT 120 ; 
Genamin T 150 ; Genamin T 200 ; Genamin T 200NF ; Genamin T 250 ; HostastatFA 38 ; Hyspray ; Icomeen T 15 ; Icomeen T 2 ; Jeetox T 2 ; KFG 597C ; Katapol PN430 ; Katapol PN 530 ; Katapol 
PN 730 ; Katapol VP 532 ; Kemamine AS 974-1 ; MON0818 ; Mazeen T 2 ; Meteor ; Nalco NM 159 ; Newcol TA 420 ; Nissan Nymeen T 2-202 ; Nissan Nymeen T 2-230 ; Nissan Nymeen T 2-260 ; 
Noramox S ; Noramox S 1 ; Noramox S11 ; Noramox S 2 ; Noramox S 5 ; Noramox S 7 ; Prevocell 1618/3 ; Rhodameen IT50/46 ; Rhodameen PN 430 ; Rhodameen T 12/90 ; Rhodameen T 15 ;
 Rhodameen T 50 ; Rhodameen T 7 ; Rhodameen VP 532 ; Rhodameen VP 532SPB ; Surfonic AGM 510 ; Surfonic T 10 ; Surfonic T 15 ; Surfonic T 2 ; Surfonic T 20 ; Surfonic T 5 ; Surfonic T 6 ;
 PEG-N tallowamine ; Amines, tallow alkyl,ethoxylated

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