TH54166A - Mixtures of multitol crystals and their preparation - Google Patents

Abstract

DC60 (15/09/44) The preparation process of crystalline solids containing multitol had an oil absorption of 0.1-6.9% by weight and a total density of 0.6-0.85 g / cm3. Used to grind and classify to make sure Ensure that the particles obtained at least 70% by weight should have a particle size of 16-50 μs and that the crystallization process. Mix solids containing multitol, which are combined by passing air bubbles into the multitol alkaline solution. Following this method, crystalline solids containing multitol have a high solubility and Almost no absorption It is produced with high performance and low operating costs in a short time. The preparation of crystalline solids containing multicol had an oil absorption of 0.1-6.9% by weight and a total density of 0.6-0.85 g / cm3. Used to grind and classify to make sure Ensure that the particles obtained at least 70% by weight should have a particle size of 16-50 μs and that the crystallization process. The solids containing multicol are mixed by means of air bubbles through the multitol acrylate solution. According to this method, crystalline solids containing multicol have a high and almost solubility. Will not be absorbed It is produced with high performance and low operating costs in a short time.

Claims (8)

1. A mixture of crystalline solids containing 80 to 99% of maltitol by weight and having oil absorption of 0.1 to 6.9% by weight and with a total density of 0.6-0.85 g / cm3. (As measured when solids have been ground And classify to ensure that the Received with a particle size of 16 to 50 mesh) 2. The process for the production of multitol crystalline solid mixtures consisting of (a) bubble dispersion in an aqua multitol solution, (b) feeding of the aqua solution. Received Into the kneading machine to form before the plastic shaft and (c) crushing the cubes. 3. The process for the production of multitol crystalline solids in accordance with claim 2, where the step (b) consists of the feeding of a foaming multitol acryl solution. Scattered Built in it goes in a continuous mixing kneading machine, which the kneading mixer is an extruder with a kneading area. Slender mixer / cooling to knead, mix and cool it to form multi-ton magma and continuously extrude magma. 4.Process for the production of multitool crystalline solid mixtures consisting of (a \ ') the feeding of the multitol in the kneading machine, (b \' ) Mixing while the air is Packed into solution to disperse air bubbles, (c \ ') keeping the kneading mixture. And cool down To the resulting solution to form plastic lumps and (d \ ') grinding the lumps 5. The process for the production of multitool crystalline-solid mixtures in accordance with claim 2, where the procedure (a \ ') consists of feeding the multitol solution in the machine. Continuous kneading mixer In which the mixer is an extruder with a slender cooling / mixing area, the procedure (b \ ') consists of kneading the mixture while air is loaded into the solution to provide The diffused air bubbles and stratification (c \ ') consist of maintaining the kneading, mixing and cooling the resulting solution. Able to form multi-volume magma And extruding magma continuously 6. Mixture is a crystalline solid with the multitole of claim 1, which is produced by the process. Of any of the clauses 2 to 5 7. Mixture is a crystalline solid with multitol of claim 1 where oil absorption is from 2.7 to 6.8% by weight. 8. A mixture of crystalline solids with a multitol of claim 1, where their bulk density is from 0.72 to 0.85 g / cubic centimeter.