SU38961A1 - The method of preparation of copper-ammonia solutions of cellulose - Google Patents

Description

It is already known that cellulose absorbs copper from highly dilute caustic alkali containing copper and microparticulate solutions, which was used to recapture copper from such solutions. In addition, it is known that cellulose swells and is capable of absorbing copper when it is treated with dilute copper solutions containing ammonia and alkali. This phenomenon was used to transfer to the fiber solution, pre-treated with concentrated ammonia-ammonia solutions.

According to the proposed method of preparing concentrated copper – ammonium cellulose solutions, the pretreatment of the latter is carried out with concentrated copper – ammonium solutions until

324 kg of pulp does not absorb 63.6 kg of copper or more.

i The authors found that cellulose i can absorb in a short time from copper ammonia solutions containing alkali, so much copper that fiber, pretreated with copper-free ammonia solutions, as well as water, can quickly and completely turn into solutions suitable for spleen1; . The presence of a certain amount of free alkali greatly inhibits the appearance of strong cellulose swelling, despite the absorption of copper, thereby eliminating the loss of cellulose upon dissolution.

According to the study, copper absorption is a chemical process that leads to

the concentration of copper in solution in the shortest possible time to the formation of a cellulose-copper compound with a stoichiometric ratio

ICu: 2CeHio05: oo 2NaOH.

Solutions of ammonia and copper oxide, diluted with respect to copper and ammonia, can also be used with great success for dissolving copper fibers, its fibers. Due to this, it becomes possible to significantly simplify operations for the manufacture of cellulose-copper solution. In order to absorb sufficient amounts of copper by the fiber, for the purpose of subsequent dissolution, it turns out to be more than the use of lH, which is still mechanical mixing of cellulose with copper hydroxide, and it is sufficient to clean, as usual, the used cellulosic material. Pretreatment of the fiber is also unnecessary due to the fact that it is well preserved.

In addition, it is possible to use various copper-ammonia solutions without transition through copper oxide hydrate, for example, ammonia solutions of copper sulphate, etc.

After it is absorbed by the copper fiber from the solution, the contents of the bath can be directly applied further after replacing the consumed copper. However, if, for example, when using copper sulphate, solutions are too enriched in sodium sulphate, it is advisable to isolate sulphate salts by cooling.

Example 1: 1 kg of purified cellulose is immersed in a copper ammonium solution consisting of 3.75 crystalline copper sulphate, 75 liters of 25% ammonia and 3 kg of sodium hydroxide in

25 liters of water, per vrel1 from V2 to 1 hour, until cellulose is thinned to 0.2 to 0.26 kg of copper. Then the fiber is removed from the solution, squeezed out of it, and transferred into the solution with help 1, and 5% or more of the concentrated a-m-solution with slow agitation. It is also possible for a ammonia solution of copper oxide diluted to about 0.6% to be used for growth; The ammonia ammonium solution can be reapplied after replacing the consumed copper and disappearing alkali.

Example 2. 1 kg of purified cellulose is treated as above for approximately 6 hours with 100 liters of an ammonia solution of copper oxide containing about 636 g of copper 75 liters of 25% ammonia and 1.6 kg of caustic soda. Thereafter, the solution is transferred under stirring with 20 liters of 5-UH ammonia.

The subject of the patent.

1. A method for preparing concentrated copper ammonium cellulose solutions with cellulose pretreatment with caustic soda copper ammonia solution, characterized in that cellulose pretreatment is carried out with concentrated copper ammonia solutions until 324 kg of cellulose absorbs 63.6 or more kilograms of copper.

2. Acceptance of the method according to claim 1, characterized in that the dissolution of the cellulose prepared by the method specified in paragraph 1 is produced in water, aqueous ammonia or copper-ammonia solutions diluted and copper-poor.