Preparation method of trimethyl borate

A technology of trimethyl borate and boric acid, which is applied in the field of preparation of trimethyl borate, can solve problems affecting reaction speed and conversion rate, large safety risks, and difficulties, so as to improve raw material utilization rate, increase single-pass conversion rate, reduce The effect of production costs

Inactive Publication Date: 2011-04-06
SHANDONG GUOBANG PHARMA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0011] Wherein in the first method, due to the direct reaction of boric acid and methanol, the reaction generates a large amount of water, which will affect the reaction speed and conversion rate, and the removal of these water by distillation consumes a large amount of energy
The second method, for the defect of the first method, the water of boric acid is removed in advance to make boron oxide, so that the reaction speed and conversion rate are greatly improved, and the reflux ratio in the rectification process is only 3: 1, but this The method has two disadvantages: (1) It is very difficult to prepare boron oxide from boric acid, and boric acid is gradually dehydrated when heated to 70-100 ° C, and loses a part of water to form metaboric acid (HBO 2 ), when heated to 150-160°C, another 0.25 molecule of water will be lost to produce pyroboric acid (H 2 B 4 o 7 ), when heated to above 300°C, 0.25 molecular water will be lost to generate boron oxide (B 2 o 3 )
It can be seen that the process conditions for the preparation of boron oxide from boric acid are very harsh; (2) methanol reacts with boron oxide, and a violent reaction occurs at room temperature, which has a great safety risk
And the third method has the advantage that the raw material cost is relatively low, but there are still two disadvantages: (1) there is a large amount of water in the raw material itself. (2) In the reaction process, inorganic salt sodium bisulfate is produced, which makes it difficult to handle the water in the system after the reaction, which brings environmental problems

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Heat the boric acid solid to 120°C for dehydration to obtain a metaboric acid solid, add 256g of methanol into a 500ml four-necked flask, heat up to 40°C, and add 44g of metaboric acid solid to react while stirring, and use the reacted solution The distillation tower is heated and distilled, and 126g of the azeotropic liquid of methanol and trimethyl borate with a temperature of 53-57°C at the top of the distillation tower is collected. The distillation raffinate is heated to distill methanol, then cooled and filtered to obtain boric acid, and the obtained boric acid is recycled. 126g The azeotropic liquid of methanol and trimethyl borate is separated to obtain 89 g of product trimethyl borate.

Embodiment 2

[0033] Heat the boric acid solid to 115°C for dehydration to obtain a metaboric acid solid. Add 192g of methanol into a 500ml four-neck flask, heat up to 40°C, and add 44g of metaboric acid solid to react under stirring. The reacted solution is used The distillation tower is heated and distilled, and 118g of the azeotropic liquid of methanol and trimethyl borate at a temperature of 53-57°C at the top of the distillation tower is collected. The distillation raffinate is heated to distill methanol, then cooled and filtered to obtain boric acid, and the obtained boric acid is recycled. 118g The azeotropic liquid of methyl alcohol and trimethyl borate is separated, obtains product trimethyl borate 85g.

Embodiment 3

[0035] Heat the boric acid solid to 125°C for dehydration to obtain a metaboric acid solid, add 128g of methanol into a 500ml four-necked flask, heat up to 40°C, and add 44g of metaboric acid solid to react while stirring, and use the reacted solution The distillation tower is heated and distilled, and 117g of the azeotropic liquid of methanol and trimethyl borate at a temperature of 53-57°C at the top of the distillation tower is collected. The distillation raffinate is heated to distill methanol, then cooled and filtered to obtain boric acid, and the obtained boric acid is recycled. 117g The azeotropic liquid of methanol and trimethyl borate is separated to obtain 83 g of product trimethyl borate.

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PUM

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Abstract

The invention discloses a preparation method of trimethyl borate. The method comprises the following steps of: (1) heating and dehydrating a boric acid solid to prepare metaboric acid and pyroboric acid solids; (2) adding the metaboric acid and pyroboric acid solids which are obtained in the step (1) to methanol to make the mixture react under a stirring state; (3) heating and distilling the reaction solution obtained in the step (2) to obtain an azeotrope solution of the methanol and the trimethyl borate, distilling and cooling raffinate to obtain boric acid; and (4) separating the azeotrope solution of the methanol and the trimethyl borate, which is obtained in the step (3), to obtain a trimethyl borate product. In the invention, by firstly heating and dewatering the boric acid to prepare the metaboric acid and the pyroboric acid and then making the metaboric acid and the pyroboric acid react with the methanol to prepare trimethyl borate, the reaction speed is accelerated, the conversion per pass is improved, the reaction conditions are mild and no risks exist.

Description

technical field [0001] The invention relates to the technical field of borate preparation, in particular to a preparation method of trimethyl borate. Background technique [0002] Trimethyl borate is an important organic borate, mainly used in the synthesis of organic borides and the preparation of high-purity boron, and can also be used as organic solvents, plasticizers, catalysts, welding fluxes, flame retardants and polymerization Stabilizers etc. [0003] Trimethyl borate is a main raw material for the synthesis of boron-containing compounds, which can be used to produce sodium borohydride and higher esters; secondly, it is also widely used in olefin polymerization, wood preservation, oil and lubricant additives and other fields. In addition, trimethyl borate is also used in the preparation of special glass in optical devices and the preparation of boronic acid intermediates. [0004] The preparation method of trimethyl borate mainly contains following three kinds: ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07F5/04
Inventor 廖仕学李琦斌李进伟
Owner SHANDONG GUOBANG PHARMA
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