DE2156762B2 - Flowable hectograph masses - Google Patents

Description

Oxalkylierien fatty acid alkanolamides rubbed with addition at 800 revolutions per minute. To

Hectograph measurements, which essentially consist of 90 minutes, the resulting hectograph measurements

Dye and a wax component exist, separated from the balls and their viscosity in

even when stressed by storage with an increased Epprecht viscometer (measuring system B and Ge

the temperature, the flowability of these masses speed stage I) at 95 ° C immediately and in the course

hold and thus determined as viscosity stabilizers for a storage time of 24 hours.

are talking. _sun g gives an initial viscosity of 580 cP, the

The following examples explain the invention does not change in the course of 24 hours.

subject matter in detail. The specified mass of the same color, which without oxäthyüertes oleic acid

Parts are parts by weight. io monoethanolamide is produced, indicates an

r, ·. ,, initial viscosity of 700 cP, which in the course of

ο e ι s ρ ι e ι ι _{24 hours storage} at 95 ° C increases to 1500 cP

354 parts of water-containing crystal violet (dry content 200 parts) become Example 5 on a water bath
melted a solution. 15

the 10 parts of a reaction product of 1 mole The crystal violet color oleic acid monoethanolamide obtained according to Example 2 and 10 moles of ethylene oxide is stirred in as described in Example 4 in a. The mass is rubbed with stirring and agitator ball mill to a hectograph mass, steaming water until it solidifies. The viscosity measurement gives an initial and in the vacuum drying cabinet at 70 ° C up to an initial viscosity of 520 to 550 cP at 95 ° C, which is dried with a water content of about 2% by storage for 24 hours at 95 ° C on the same -Grinding the resulting chunks gets a level remains
Color powder, which for further processing on hectograph mass, z. B. according to Example 4 is suitable. B is ρ ie 1 6

Example 2 _{4g tea of eiQer} wax mixture of 12 parts 20 parts of a reaction product of 1 mol of carnauba wax, 12 parts of petrolatum, 17 parts of lano tallow fatty acid monoethanolamide (monoethanol mixture and 7 parts of mineral oil are mixed with 52 parts of an acid mixture of 47% oleic acid, 29 % Of the dye composition obtained according to Example 1 on a palmitic acid, 18% stearic acid, 3% myristic acid 30 three-roll mill four times at room temperature below and 3%> linoleic acid) and 12 mol of ethylene oxide are a pressure of 60 atm and twice at 95 ° C dtn mixed with 30 parts of water homogeneously and rubbed in under a pressure of 10 to 20 atmospheres. 354 parts of a dye melt according to the example! The viscosity of the hectograph produced in this way was stirred and treated further as in Example 1. The mass is the same after storage for four days at 95 ° C. A crystal violet color mass is obtained which has the initial viscosity and is 370 cP. Processing to a hectograph mass z. B. after opposite shows the comparison color composition produced without the Oxäthylierungsprodu'rt example 5 in the same period of example 3 an increase in viscosity from 480 to over 1500 cP.

300 parts crystal violet (dry content 170 parts) 40 B e i s ρ i e 1 7

and 60 parts methyl violet (dry content 30 parts)

are melted on a water bath and ride 13 parts carnauba wax, 17 parts petroleum jelly,

25 parts of a reaction product of 1 mole of oil - 13 parts of bone oil, 2 parts of oleic acid and 55 parts of acidethanolamide and 10 moles of ethylene oxide are added. Crystal violet, together with 2.75 and 5, respectively, after further processing as in Example 1, 45 or 10 parts of a reaction product obtained from 1 mol of a color composition having a water content of about 3 ⁰ Zo. Tallow fatty acid monoethanolamide and 12 mol of ethylene oxide on the three-roll mill as in Example 5

Example 4 rubbed. The viscosity measurement of the withdrawn

The hectograph mass results in 510 or 440 or 370 cP

144 parts of a wax mixture of 36 parts 50 as the initial viscosity at 95 ° C, which changes in the course Carnauba wax, 36 parts of petroleum jelly, 51 parts of storage at 95 ° C for 24 hours does not change. Lanolin and 21 parts of mineral oil are mixed with 156 parts. The corresponding mass without the addition of oxethylene Crystal violet color powder from Example 1 with 600 lation product shows an initial viscosity of Share steatite balls in an agitator ball mill 1100 cP and after 24 hours of storage at 95 ° C at 95 ° C with a speed of rotation of 55 values over 2000 cP.

Claims (4)

1 2 rer concentration than is required for the color claims: substances in hectograph color masses The alkoxylated fatty acid alkanolamides, which are used as 1. Flowable color compositions for hectography additives for the hectographic purposes according to the invention, characterized by a Ge 5 graphene masses are used are oxyalkyl content on alkoxylated Fettsäurealkanolaniiden in group-containing fatty acid amides, which are voreiner Amount from 1 to 20 percent by weight, based on the oxyalkylation of fatty acid alkanols on the total weight of the paint. amides obtained from these fatty acid alkanolanides 2. Processes for the production of more flowable are the ethanolamides and among these the mono-hectograph masses according to claim 1, da- io ethanolamides particularly preferred. As fatty acids characterized in that the higher fatty acids or, in particular, come as alkoxylated fatty acids acid alkanolamides reaction products of mixtures thereof, such as. B. palmitiiic acid, stearic ethylene oxide with monoethanolamides higher acid, oleic acid, tallow fatty acid, coconut fatty acid and Fatty acids are used. Similar, under consideration The fatty acid alkanolamides 3. Process for the production of flowable 15 are reacted with alkylene oxides, preferably hectograph masses according to claim 1, thereby with ethylene oxide. To the mixture of the Hektographenmassen up 15, FettsäurealkanoJamid alkylene: The molar ratio in this relabeled that the oxyalkylated fatty acid reduction is advantageously from 1: 5 to 1: 25, in the aJkanolanu'de Einzeikomponenten or ia preferably 1: 8 to J. building components are incorporated. 20 The alkoxylated fatty acid alkanolamides are 4. Process for the production of flowable in an amount of 1 to 20, preferably 2 to 10, Hectographic masses according to claim 1, da- weight percent, based on the invention characterized in that the alkoxylated fatty graphene mass before, during or after acid alkanolamides of the dyestuff component, grinding or dispersing of the dyestuff with the can be added during their preparation. he wax component incorporated into the hectograph mass It is also possible to already use the alkoxylated fatty acid alkanolamides of the dye component during their preparation or during the grinding of the Add dye or add them to the wax component 30 before grinding with the dye. The invention relates to dye compositions which are oxyalkylated when added to the dye component during the same Fatty acid alkanolamides contain, for hectography production it has been found to be particularly beneficial, showed, the alkoxylated alkanolamide in the water In the production of hectograph masses, melts of the dye that contain the dye are to be stirred in and then the dyes are to be dried in a mixture with the aid of grinders,
dispersed in a wax mass. The hectographs as dyes, which make up the main part of the hectograms, are transferred in the molten state into Lüger graphen mass, usually 30 to 60 weight containers, and for further processing to a percentage, based on the total weight of the hecto of a coating system in, for example, printing graphen mass. make up and which can be used in the context of the or squeegee method on the paper to be coated 4 ° present invention, applied. With such hectography papers, all conventional hectograph dyes can then easily be used after the transfer printing process, in particular triarylmethane dyes, copies can be made. such as crystal violet (Color Index No. 42 555), methyl When storing and processing the hectolitre violet (Color Index No. 43 535) or Victoria blue B Graphene masses in the liquid state often occur 45 (Color Index No. 44 045), with mixtures Viscosity increases to a considerable extent. of dyes can be used. The masses are so tough for the coating liquid, that the working speed is greatly reduced for hectograph masses of the usual natural and must become. When stored for a long time, the mass thickens synthetic waxes and oils, such as irreversible and is therefore used for further 50 carnauba wax, lanolin, petroleum jelly, paraffin, ozo- application for coating useless. kerite, beeswax, raw and modified (ester It has now been found that coloring compositions for wax) montan waxes, mineral oils, paraffin oil, large-scale hectography purposes, are storage-stable and flowable lead oil, spindle oil, claw oil, bone oil, peanut oil, if they are alkoxylated fatty acid alkanolamides in oil, castor oil, sunflower oil, rapeseed oil, poppy seed oil Amount of 1 to 20 percent by weight, based on 55 olein and others, alone or in a mixture,
on the total weight of the paint. The hectograph masses according to the invention lead The color compositions according to the invention also differ in the case of prolonged storage and in the case of their from the higher temperatures customary in the Soviet patent specification for further processing 215 864 described printing inks for the textile are stable and flowable and are therefore for the coating printing in that the latter to improve the 60 processing of hectography papers in excellent Color yield an addition of non-alkoxylated manner suitable. Other nonionic emulsifying fatty acid alkylolamides included, whereby these antidotes are already used to make the grain over The alkoxylated fatty acid alkylolamides only have the hardness of di- and triarylmethane dyes to be distributed non-ionic, on the other hand cation-reducing and thus for hectographic purposes have an active character. The addition is made there to make 65 more suitable. Such emulsifiers show those usual in textile printing, but none or none for hectographic purposes for hectograph dimensions but unsuitable dyes, this dyeing remarkable viscosity stabilizing effect, It was therefore surprising that the greenery of the