SU5819A1 - Method for the preparation of celluloid-like plastics from cellulose esters - Google Patents

Description

Volatile organic solvents are used to gel pyroxylin or other cellulose ethers, and the resulting celluloid-like substances are difficult to dry, and products from them even shrink and wrap around 40 ° - 50 °; In addition, the usual solvents of pyroxylin camphor, triphenyl phosphate, etc., being mixed with pyroxylin under high pressure, although pyroxylin gelatinates, but only at 100-120, i.e. at a temperature at which partial decomposition of pyroxylin already begins, which leads to mass deterioration in the sense of deterioration of its mechanical qualities, changes in color and so on, not to mention the great fire hazard associated with such work if it is conducted on mass containing no extinguishing fillers.

In the proposed method of producing plastics like celluloid from cellulose ethers, organic solvents boiling at least 150 ° C are used. after numerous onytes, it turned out that pyroxylin, as well as all other cellulose derivatives, gelled with nonvolatile solvents more easily, the smaller the number of atoms in the particle of solvent.

Thus, the solution of the problem of using nonvolatile solvents is reduced to the choice of such fatty compounds that, with a minimum number of carbon atoms (3-6), would still have a sufficiently high boiling point (not less than 150-170 °), so that these bodies are as little soluble in water as possible, chemically stable, of a neutral nature and, either by themselves or in a mixture with other high molecular weight solvents, pyroxylin and other derivatives 1 and the tricycles are gelled.

The following low molecular weight compounds gave a very good result:

1.С204 (СНз) 2 oxalometry

ether

2. () 2 shavedetovogo

3.NH2COC02CH3 methyl effr

oxamic acid ....

4.NH2COC02C2H5 ethyl effr

oxampnic acid ....

5. VDGsSOzSNz methyl ether of a carbamic kepelot (uretilan)

6.NH2C02C2H5 ethyl ether of carbamine kimota (urretan). . CHg-O-CH, ethylene ester CO -O-CHj of chitol cie.toty -O-CH3 ethylene ether

-O-CHj carbonic acid

All of these substances, taken in an amount of 25–30% by weight of pyr01; sil 11, gel pyroxylin, as well as other fiber derivatives, already at 70–90 ° under a pressure of 300–400 atmospheres.

Further, it turned out that an almost equally good effect can be obtained, the work of a mixed nonvolatile solvent 1/3 malamp, containing only the remaining / g of a coolant, can be ordinary high molecular solvents, eg camphor, triphenyl phosphate, etc.

The proposed method should be economically much more profitable, not only because the consumption of volatile solvent (alcohol) disappears, but even more because the complicated and expensive equipment-mixers and rollers perfectly disappears, and very simple ones can be used instead. and cheap instruments for the mechanical grinding and mixing of powdered masses.

In addition, plastic mass on. non-volatile solvent immediately becomes dry and, moreover, of any thickness; therefore, it is not subject to rapid changes in its shape during storage.

The subject of the patent.

1. A method for the preparation of celluloid-like plastics from cellulose ethers with organic solvents, characterized in that pyroxylin, nitro-udetil-cellulose, cellulose acetate, or the like, is dry-processed with organic solvents containing not more than six carbon atoms in the particle, but boiling ne below 150 C, such as methyl or ethyl esters of oxalic or oxamic or carbamic acids, ethylene esters of glycolic or carbonic acids or the like, and then the resulting mass is pressed at a temperature not higher than 100 under pressure of 300-600 atm.

2. Alteration of the method mentioned in claim 1, characterized in that the ethers of the fiber without dissolving are treated with the solutions indicated in paragraph 1, eaten, and then dried before pressing.

3. Alteration of the method indicated in paragraph 1, characterized in that the solvents specified in paragraph 1 are used in conjunction with the usual high molecular weight cellulose ester solvents (camphor, triphenyl phosphate, etc.), but not less than 1/3 total amount of solvents.