阅读说明：本技术 羟基氟硅油及其制备方法 (Hydroxy fluorosilicone oil and preparation method thereof ) 是由 张育林 尤小姿 乔文强 刘继 王植源 杨善志 于 2020-07-17 设计创作，主要内容包括：本发明涉及氟硅油领域,更具体地,涉及一种羟基氟硅油及其制备方法,该方法为：将三氟丙基甲基环三硅氧烷、水及催化剂进行开环聚合反应,得到所述羟基氟硅油；其中,所述碳基固体酸催化剂由无水葡萄糖与对甲苯磺酸制备所得。本发明的制备过程简单易操作,催化剂易于除去且重复利用率高,工艺步骤简单,所得到的羟基氟硅油粘度稳定。(The invention relates to the field of fluorosilicone oil, and more specifically relates to hydroxyl fluorosilicone oil and a preparation method thereof, wherein the method comprises the following steps: performing ring-opening polymerization reaction on trifluoropropyl methyl cyclotrisiloxane, water and a catalyst to obtain the hydroxyl fluorosilicone oil; wherein the carbon-based solid acid catalyst is prepared from anhydrous glucose and p-toluenesulfonic acid. The preparation process is simple and easy to operate, the catalyst is easy to remove, the repeated utilization rate is high, the process steps are simple, and the obtained hydroxyl fluorosilicone oil is stable in viscosity.)

1. The preparation method of the hydroxyl fluorosilicone oil is characterized in that trifluoropropyl methylcyclotrisiloxane, water and a carbon-based solid catalyst are subjected to ring-opening polymerization reaction to obtain the hydroxyl fluorosilicone oil; wherein the carbon-based solid acid catalyst is prepared from anhydrous glucose and p-toluenesulfonic acid.

2. The method for preparing hydroxyfluorosilicone oil according to claim 1, wherein the carbon-based solid acid catalyst prepared from anhydrous glucose and p-toluenesulfonic acid comprises: mixing the anhydrous glucose with p-toluenesulfonic acid, carbonizing and filtering; wherein the content of the first and second substances,

the mass ratio of the anhydrous glucose to the p-toluenesulfonic acid is 1-5: 1; preferably, the mass ratio is 1-3: 1; further preferably, the mass ratio is 2: 1.

3. the method for preparing hydroxyfluorosilicone oil as claimed in claim 2, wherein the carbonization temperature is 100-300 ℃; preferably, the carbonization temperature is 150-250 ℃; further preferably, the carbonization temperature is 220 ℃.

4. The method for preparing hydroxyfluorosilicone oil according to claim 2, wherein the carbonization time is 5-15 h; preferably, the carbonization time is 8-12 h; further preferably, the carbonization time is 9 h.

5. The method for preparing hydroxyfluorosilicone oil according to claim 1, wherein the mass ratio of trifluoropropylmethylcyclotrisiloxane to water to carbon-based solid catalyst is 100: (1-10): (0.5 to 5); preferably, the mass ratio is 100: (3-6): (1-4); further preferably, the mass ratio is 100: (4-5): (2-3).

6. The method for preparing hydroxyfluorosilicone oil according to claim 1, wherein the temperature of the polymerization reaction is 60-150 ℃; preferably, the temperature is 80-120 ℃; further preferably, the temperature is 90-100 ℃.

7. The method for preparing hydroxyfluorosilicone oil according to claim 1, wherein the polymerization reaction time is 12-36 h; preferably, the time is 15-30 h; further preferably, the time is 20-25 h.

8. The method for preparing hydroxyfluorosilicone oil according to claim 1, further comprising dehydration under reduced pressure after the ring-opening polymerization reaction, wherein the dehydration temperature is less than or equal to 60 ℃ and the dehydration pressure is less than-0.085 Mpa.

9. A hydroxyfluorosilicone oil prepared by the preparation method according to any one of claims 1 to 8.

10. The hydroxyfluorosilicone oil of claim 9, wherein the viscosity of the hydroxyfluorosilicone oil is 40-400Mpa · S; preferably, the viscosity is 100-; more preferably, the viscosity is 200-.

Technical Field

The invention relates to the field of fluorosilicone oil, and particularly relates to hydroxyl fluorosilicone oil and a preparation method thereof.

Background

A hydroxyl terminated polymethyl (3, 3, 3-trifluoropropyl) siloxane fluid, commonly referred to as hydroxyfluorosilicone oil. The hydroxyl fluorosilicone oil is colorless or faint yellow oily liquid, not only has the properties of high and low temperature resistance and fuel oil resistance of common fluorosilicone polymers, but also has great chemical activity due to the existence of a large number of silicon hydroxyl groups, so that the application of the hydroxyl fluorosilicone oil is wider. For example, the modified polyether polyurethane can be used as an intermediate of a high molecular weight fluorosilicone polymer, can be used as a processing aid of heat vulcanized silicone rubber and room temperature vulcanized silicone rubber, can also be used as a defoaming agent of an organic solvent, an additive in cosmetics and the like, and in addition, the modified polyether polyurethane is modified by taking hydroxyl fluorosilicone oil as a raw material to obtain the polyfluorosiloxane-polyurethane block copolymer, so that the modified polyether polyurethane block copolymer has a good development prospect.

At present, the preparation method of the hydroxyl fluorosilicone oil mainly comprises a hydrolytic condensation preparation method and a ring-opening polymerization preparation method. The organofluorine industry, 1994 No. 4, pages 21-23, discloses a method for directly hydrolyzing trifluoropropylmethyldichlorosilane, which has the problems of wide molecular weight distribution, unstable hydroxyl group, easy condensation, more wastewater and low yield although the process is simple and the raw materials are easily available.

In summary, in order to solve the problems that the system viscosity is difficult to control, the repeated stability of the reaction process is poor, and the product treatment process steps are troublesome in the existing preparation process of the hydroxyl fluorosilicone oil, the invention provides a preparation method of the hydroxyl fluorosilicone oil, which has the advantages of simple and easy operation of the preparation process, easy removal of the catalyst, high repeated utilization rate, simple process steps, and stable viscosity of the obtained hydroxyl fluorosilicone oil.

Disclosure of Invention

In order to solve the technical problems, the invention provides hydroxyl fluorosilicone oil and a preparation method thereof,

in one aspect, a method for preparing hydroxyfluorosilicone oil is provided, which comprises the following steps: performing ring-opening polymerization reaction on trifluoropropyl methyl cyclotrisiloxane, water and a carbon-based solid catalyst to obtain the hydroxyl fluorosilicone oil; wherein the carbon-based solid catalyst is prepared from anhydrous glucose and p-toluenesulfonic acid.

Further, the mass ratio of the anhydrous glucose to the p-toluenesulfonic acid is 1-5: 1; preferably, the mass ratio is 1-3: 1; further preferably, the mass ratio is 2: 1.

further, the carbonization temperature is 100-300 ℃; preferably, the carbonization temperature is 150-250 ℃; further preferably, the carbonization temperature is 220 ℃.

Further, the carbonization time is 5-15 h; preferably, the carbonization time is 8-12 h; further preferably, the carbonization time is 9 h.

Further, the mass ratio of the trifluoropropylmethylcyclotrisiloxane to the water to the catalyst is 100: (1-10): (0.5 to 5); preferably, the mass ratio is 100: (3-6): (1-4); further preferably, the mass ratio is 100: (4-5): (2-3).

Further, the temperature of the polymerization reaction is 60-150 ℃; preferably, the temperature is 80-120 ℃; further preferably, the temperature is 90-100 ℃.

Further, the time of the polymerization reaction is 12-36 h; preferably, the time is 15-30 h; further preferably, the time is 20-25 h.

Further, the ring-opening polymerization reaction also comprises reduced pressure dehydration, wherein the dehydration temperature is less than or equal to 60 ℃, and the dehydration pressure is less than-0.085 Mpa.

In another aspect, a hydroxyfluorosilicone oil prepared according to the above method is also provided.

Further, the viscosity of the hydroxyl fluorosilicone oil is 40-400 Mpa.S; preferably, the viscosity is 100-; more preferably, the viscosity is 200-.

The hydroxyl fluorosilicone oil, the preparation method and the preparation method thereof have the following advantages:

1. the reaction controllability is strong, the process steps are simple, and the production cost can be reduced;

2. the solid acid has wide raw material source, simple preparation condition and convenient operation;

3. the hydroxyl fluorosilicone oil prepared by the method has stable viscosity and higher yield.

4. The catalyst is easy to remove in the preparation process of the method and has high repeated utilization rate.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the example serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a flow chart of preparation of hydroxyfluorosilicone oil according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention without any inventive step, are within the scope of protection of the invention.

FIG. 1 is a process for preparing hydroxy fluorosilicone oil of the present invention, which comprises: performing ring-opening polymerization reaction on trifluoropropyl methyl cyclotrisiloxane, water and a carbon-based solid catalyst to obtain the hydroxyl fluorosilicone oil; wherein the carbon-based solid catalyst is prepared from anhydrous glucose and p-toluenesulfonic acid.

The catalyst is easy to remove in the preparation process of the catalyst, the catalyst can be removed only by filtering, the viscosity of the product is easy to control, the operation process is simple, the product can be obtained only by mixing various products and reacting according to a certain proportion and temperature, and the yield of the fluorosilicone oil prepared by the method reaches over 90 percent.

Further, the carbon-based solid acid catalyst is prepared from anhydrous glucose and p-toluenesulfonic acid, and comprises the following components: mixing the anhydrous glucose with p-toluenesulfonic acid, carbonizing and filtering; wherein the mass ratio of the anhydrous glucose to the p-toluenesulfonic acid is 1-5: 1 preferably, the mass ratio is 1-3: 1; further preferably, the mass ratio is 2: 1.

if the acid is excessive, the excessive p-toluenesulfonic acid can block formed pore channels, so that the adsorption and diffusion of reactants on the inner surface of the catalyst are influenced, namely the activity is reduced; on the contrary, the anhydrous glucose is too much, a part of the pore channels do not have sulfonic acid groups, and the activity is also reduced. Therefore, the selection of proper ratio of anhydrous glucose and p-toluenesulfonic acid has great influence on the activity of the catalyst.

Further, the carbonization temperature is 100-300 ℃; preferably, the carbonization temperature is 150-250 ℃; further preferably, the carbonization temperature is 220 ℃.

Because a multi-stage frame porous structure is formed after carbonization, the aperture is reduced when the temperature is over 300 ℃, particularly 220 ℃, so that reactant molecules are prevented from being immersed into the inner surface of the catalyst, and the activity of the catalyst is influenced; when the carbonization temperature is lower than 100 ℃, the full carbonization cannot be realized, and the porous structure of the catalyst is influenced.

Further, the carbonization time is 5-15 h; preferably, the carbonization time is 8-12 h; further preferably, the carbonization time is 9 h.

The carbonization time is less than 5h, the specific surface area and the pore diameter are too small, the carbonization time is too long, and the specific surface area and the pore diameter are too small when the carbonization time is more than 15 h; the carbonization time is 9h, and the specific surface area is maximum.

Further, the trifluoropropylmethylcyclotrisiloxane (D)₃F) The mass ratio of water to the catalyst is 100: 1-10: 0.5 to 5; preferably, the mass ratio is 100: 3-6: 1-4; further preferably, the mass ratio is 100: 4-5: 2 to 3. Wherein D is₃F can be represented by the formula (CH)₃SiCH₂CH₂CF₃O)₃And (4) showing.

When the water consumption is excessive, the generated fluorosilicone oil chain link is short and has too low viscosity, and when the water consumption is excessive, the fluorosilicone oil chain link is long and has too high viscosity; when the amount of the catalyst used is too small, the reaction is not complete, and when the amount of the catalyst used is too large, waste is caused.

Further, the temperature of the polymerization reaction is 60-150 ℃; preferably, the temperature is 80-120 ℃; further preferably, the temperature is 90-100 ℃.

When the temperature is lower than 60 ℃, reactants hardly react, and when the temperature reaches 150 ℃, the viscosity tends to be stable, and the energy is wasted due to overhigh temperature.

Further, the polymerization reaction time is 12-36 h; preferably, the time is 15-30 h; further preferably, the time is 20-25 h.

The reaction time is too short and incomplete, and when the reaction time is 12-36h, the fluorosilicone oil with the required viscosity can be obtained, and the viscosity of the fluorosilicone oil tends to be stable.

Further, the ring-opening polymerization reaction also comprises reduced pressure dehydration, wherein the dehydration temperature is less than or equal to 60 ℃, and the dehydration pressure is less than-0.085 Mpa.

The invention also provides the hydroxy fluorosilicone oil prepared by the method.

Further, the viscosity of the hydroxyl fluorosilicone oil is 40-400 Mpa.S; preferably, the viscosity is 100-; more preferably, the viscosity is 200-.

The general formula of the hydroxyl fluorosilicone oil is shown in the specification

Wherein: n is a polymerization degree and is a positive integer of 3 or more.

The fluorosilicone oil obtained by the method has the advantages of easy regulation and control of viscosity, capability of reaching the required target viscosity and high repeated preparation rate.

The specific embodiment of the preparation method of the catalyst is as follows, the structure of the catalyst is an amorphous condensed ring aromatic network structure, sulfonic acid groups are connected to the surface of a carbon carrier through covalent bonds, and the catalytic function is derived from the sulfonic acid groups combined on the surface of the carbon carrier.