CN112779783A

CN112779783A - Preparation method of polyimide mesh fabric

Info

Publication number: CN112779783A
Application number: CN202110004256.XA
Authority: CN
Inventors: 张梦颖; 刘少飞; 韩恩林; 牛鸿庆; 武德珍
Original assignee: Jiangsu Xiannuo New Material Technology Co ltd
Current assignee: Jiangsu Xiannuo New Material Technology Co ltd
Priority date: 2021-01-04
Filing date: 2021-01-04
Publication date: 2021-05-11
Anticipated expiration: 2041-01-04
Also published as: CN112779783B

Abstract

The invention relates to a preparation method of polyimide mesh cloth, in particular to a process for shaping the mesh cloth after molding. The method comprises the following steps: treating the surface of the fiber before weaving the mesh cloth; weaving mesh cloth; after the grid cloth is woven, PAA coating, hot-press forming and cutting are carried out; and carrying out high-temperature treatment on the shaped mesh cloth. The grid cloth prepared by the invention solves the problems that the polyimide grid cloth is easy to curl and difficult to shape, and fibers are easy to break in the cutting process, improves the dimensional stability and the high temperature resistance, and reduces the shrinkage rate of the grid cloth.

Description

Preparation method of polyimide mesh fabric

Technical Field

The invention relates to the field of organic fiber fabrics, in particular to a preparation process of polyimide mesh cloth.

Background

Polyimide is a high-performance organic fiber and has the characteristics of excellent mechanical property, high and low temperature resistance, self-extinguishing property, radiation resistance, dielectric property, corrosion resistance, biocompatibility, low density, low water absorption, small thermal expansion coefficient and the like. Is determined to be one of the indispensable high polymer materials with wide development prospect in the fields of aerospace, electronics, war industry, ships, automobiles, nuclear power, fire fighting and the like. The composite material can be used for preparing products such as bulletproof fabrics, high-specific strength ropes, space suits, fire uniforms and the like, and can also be used as a reinforcing material to prepare a high-performance composite material to be applied to advanced weaponry and national defense high-tech products such as novel satellites, airships, airplanes and the like. In the environmental protection industry, the high temperature resistant polyimide fiber can be used as a dust removal filter material of an incinerator. However, the polyamide fiber is insoluble and infusible, and has the problems of difficult shaping, difficult cutting, poor dimensional stability and the like.

The grid cloth has the characteristics of good chemical stability, high strength, light weight, good dimensional stability, good positioning property, good impact resistance and the like, and can be used as a reinforced base material and also can be directly used as a finished product. However, in the existing polyimide mesh fabric preparation process, the problems that fibers are easy to fuzz, weaving holes are caused after wool balls are accumulated, quality is affected, and smooth weaving and forming cannot be achieved still exist, shaping is difficult to achieve in the mesh fabric preparation process, or even if shaping is achieved, the high temperature resistance and the dimensional stability of the prepared mesh fabric are low, and the requirements of high temperature resistance and stability in special fields cannot be met.

Disclosure of Invention

The invention aims to provide a preparation method of polyimide mesh cloth, optimize a preparation process of PI mesh cloth, solve the problems of easy fluffing, easy curling, difficult shaping, easy fiber breakage in a cutting process and the like in the preparation process of the polyimide mesh cloth in the prior art, improve the high temperature resistance and the dimensional stability of the PI mesh cloth, and reduce the shrinkage rate of the PI mesh cloth.

The method comprises the steps of immersing polyimide mesh cloth in PAA (polyamide acid, namely a precursor of polyimide), sequentially spreading the mesh cloth to a certain width by a cloth guide wheel, then passing the mesh cloth through a belt pulley with a certain width, entering a hot pressing plate for hot pressing and shaping, changing the mesh cloth into flat mesh cloth with certain hardness after the mesh cloth passes through the hot pressing plate, and cutting the mesh cloth with a certain width by a cutter after the hot pressing plate comes out.

One of the invention is to dip the surface of the polyimide fiber with epoxy slurry, eliminate surface static electricity, improve the wear resistance and bundling property of the fiber, facilitate subsequent weaving and forming, prevent fiber breakage in the cutting process and improve weaving efficiency and forming rate.

The second invention of the invention is that PAA is used, the shaping is realized by hot-pressing and drying, and the problems of easy curling and difficult shaping are solved, meanwhile, PAA is a precursor of polyimide, and the PAA can be converted into PI after treatment, thereby not only solving the problems of easy curling and difficult shaping, but also ensuring the problem of poor temperature resistance of the polyimide mesh fabric; the broken fibers are removed in the cutting process because the fibers are not bundled, and the fiber tows can be bonded into a single state through PAA with a certain concentration, so that the problem that the broken fibers are easy to remove is further solved.

A preparation method for preparing polyimide gridding cloth comprises the following steps:

step 1), treating the surface of polyimide fiber;

step 2), weaving the polyimide fibers subjected to the surface treatment in the step 1) into polyimide mesh cloth;

step 3), carrying out PAA coating, hot-press shaping, cutting and net folding on the polyimide mesh cloth woven in the step 2);

and 4) performing high-temperature treatment on the polyimide mesh cloth shaped and cut in the step 3).

In the step 1), the method for treating the surface of the polyimide fiber comprises the following steps: the polyimide fiber is soaked in the epoxy slurry, and a thin layer of the epoxy slurry is coated on the surface of the polyimide fiber to form a thin layer of slurry film, so that the wear resistance and bundling performance of the fiber are improved, and the weaving efficiency and the forming rate are improved.

The preparation method of the epoxy slurry comprises the following steps: the compound containing amino group is reacted with epoxy and then combined with weak acid to produce weak cationic water-thinned epoxy emulsion. The epoxy emulsion is used at a mass concentration of 1-10%, and the slurry soaking time is 5-60 s, preferably, the epoxy emulsion is used at a concentration of 5% and the epoxy emulsion is used at a time of 10 s. The amino group-containing compound is aminoethanesulfonic acid, ethylenediamine, or the like.

The epoxy with weak cations of amino groups refers to epoxy emulsion with amino groups, wherein the amino groups have strong electron-withdrawing capability and can combine hydrogen ions into weak cations with N atoms combined with one hydrogen ion in water. For example:

(ii) Aminoethanesulfonic acid epoxy

Amino ethanesulfonic acid weak cation epoxy

(II) amino epoxy

Amino weak cationic epoxy

In the step 3), PAA coating and hot-press shaping are required after the mesh fabric is woven, and the PAA coating and hot-press shaping are performed by adopting a dipping equipment continuous dipping drying hot-press shaping method. Firstly, soaking PAA in the mesh cloth through a glue dipping tank, wherein the concentration of the PAA is 1-30%, and the glue dipping time is 5-60 s, preferably 10% for 10 s; then, redundant slurry on the grid cloth is filtered and pressed into a slurry tank through a slurry filtering roller, so that the slurry is saved; then sequentially passes through a belt pulley, a hot pressing plate, a cutting device and a net collecting device.

Consider thick liquid roller promptly mud jacking rod, the upper wheel is the rubber wheel, the lower round is the stainless steel wheel, causes upper and lower roller extrusion net cloth through applying certain pressure to the upper roll, rubber mud jacking roller does benefit to abundant PAA on the abundant filter-pressing net cloth.

The belt pulley is a conveying belt with chains on two sides, the width of the two sides can be adjusted, and a plurality of rows of upright rivets are fixed on the conveying belt, so that the shaping width of the mesh cloth can be fixed. The hot pressing temperature can reach room temperature to 500 ℃, the pressure is 0 to 30MPa, preferably 400 ℃ and 10 MPa; the hot pressing plate has two main functions, namely, drying the gridding cloth to finish shaping the gridding cloth; and secondly, the node positions of the mesh cloth are bonded together by the PAA in the pressurizing process, so that the phenomenon of fiber breakage in the cutting process is prevented.

And cutting the mesh cloth into mesh cloth with a certain width by adopting a high-speed rotating cutter at the position of the belt pulley outlet.

The step 4) of carrying out high-temperature treatment on the shaped mesh cloth, wherein the high-temperature condition is 300 ℃ for 4 hours, and aims to carry out hot cyclization on the PAA coated on the surface of the mesh cloth, so that the stability of the mesh cloth is further improved.

The mesh fabric prepared by the method can resist the high temperature of 300 ℃ for a long time and keep the shape unchanged.

The invention has the beneficial effects that:

1) before the grid cloth is prepared, the surface of the polyimide fiber is treated, and a thin epoxy slurry film is formed on the surface of the polyimide fiber, so that the wear resistance and bundling property of the fiber are improved, the subsequent interface combination with other materials of the grid cloth is not influenced, and the weaving efficiency and the forming rate are improved. The invention adopts weak cation epoxy with amino to prepare epoxy slurry: firstly, negative electricity generated on the surface of the fiber in the weaving process is removed, and secondly, the introduction of amino groups is beneficial to later surface modification of the mesh cloth.

2) After the grid cloth is woven, the PAA coating and the hot-press shaping are carried out by adopting a gum dipping device continuous dipping drying hot-press shaping method, wherein the PAA coating is carried out for improving the bundling property of fibers and facilitating the cutting of the grid cloth, and the hair is not dropped in the cutting process. Without PAA, the scrim would be uneven and difficult to cut. The grid cloth can be dried by adopting the hot press plate, so that the grid cloth is shaped, and the PAA bonds the node positions of the grid cloth together in the pressurizing process, thereby further preventing the phenomenon of broken fibers in the cutting process.

3) After the shaped mesh cloth is subjected to high-temperature treatment, the PAA coated on the surface of the mesh cloth is subjected to hot cyclization, so that the stability of the mesh cloth is further improved. The prepared mesh fabric can resist the high temperature of 300 ℃ for a long time and keep the shape unchanged.

4) The grid cloth prepared by the invention overcomes the problems that the polyimide grid cloth is easy to curl and difficult to shape and the fiber is easy to break in the cutting process, improves the dimensional stability and the high-temperature stability, and reduces the shrinkage rate and the area density of the PI grid cloth. The density of the grid cloth cover prepared by adopting 200D fiber and the method of the invention is 10-20g/m²。

Drawings

FIG. 1 is a schematic view of a continuous shaping process of polyimide mesh cloth according to the present invention;

FIG. 2 is a plan view of the polyimide mesh fabric continuous sizing process of the present invention;

FIG. 3 shows a polyimide scrim prepared in example 1 of the present invention

Detailed Description

The invention relates to a continuous shaping process of polyimide mesh cloth.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

With reference to the attached figures 1-3,

1. the net releasing equipment is specifically a cloth releasing frame and is used for releasing the grid cloth from a creel;

2. glue dipping tank

3. Glass cover capable of reducing volatilization of solution

4. Squeezing roller

5. The overflow trough can save solution

6. A belt pulley for conveying the mesh cloth and simultaneously adjusting the width of the mesh cloth

7. Hot press plate for heat setting of mesh cloth

8. A cutting device for cutting the mesh cloth into a fixed width

9. Receive net equipment, what specifically adopted is receive cloth frame for with net cloth rolling

10. Cloth guide wheel for fixing grid cloth

11. Pressing the mesh cloth on the rivet

Example 1:

preparation of epoxy slurry: aminoethanesulfonic acid is adopted to react with epoxy and then is combined with weak acid to generate weak cation aqueous epoxy emulsion.

Preparing polyimide mesh cloth;

soaking polyimide fibers in 5% epoxy slurry for 10s, and coating a thin layer of epoxy slurry on the surfaces of the polyimide fibers;

weaving polyimide fibers into polyimide gridding cloth, and placing the polyimide gridding cloth on the cloth placing frame 1;

PAA coating and hot-press shaping are carried out by adopting a continuous dipping drying hot-press shaping method: soaking the polyimide mesh fabric in PAA with the mass concentration of 10% in a dipping tank 2 for 10s for coating; then applying 6MPa pressure through a mud jacking roller 4, and carrying out filter pressing on the redundant serous fluid on the gridding cloth to an overflow groove 5;

conveying the mesh cloth through a belt pulley 6, adjusting the width of the mesh cloth at the same time, drawing the mesh cloth into a fixed length, and controlling the hot-pressing temperature of a hot-pressing plate 7 to be 400 ℃ and the pressure to be 10 MPa;

then, a cutter rotating at a high speed in the cutting equipment 8 cuts the mesh cloth into mesh cloth with a certain width, and the mesh cloth enters the mesh collecting equipment 9 for collecting meshes after being cut; and (4) treating the shaped and cut mesh fabric at the high temperature of 300 ℃ for 4 h.

No curling in the preparation process, no broken fiber in the cutting process, easy shaping, and the prepared grid cloth cover density of 19g/m²The thickness is 0.43mm, and the product can resist 300 ℃ high temperature for a long time and keep the shape unchanged.

Example 2:

Preparing polyimide mesh cloth;

PAA coating and hot-press shaping are carried out by adopting a continuous dipping drying hot-press shaping method: soaking the polyimide mesh fabric in 10% PAA in a dipping tank 2 for 10s for coating; then applying 2MPa pressure through a mud jacking roller 4;

No curling in the preparation process, no broken fiber in the cutting process, easy shaping, and the cloth cover density of the prepared grid is 19g/m²The thickness is 0.55mm, and the product can resist 300 ℃ high temperature for a long time and keep the shape unchanged.

Example 3:

preparation of epoxy slurry: the method adopts the reaction of ethylene diamine and epoxy, and combines the reaction with weak acid to generate the weak cationic waterborne epoxy emulsion.

Preparing polyimide mesh cloth;

PAA coating and hot-press shaping are carried out by adopting a continuous dipping drying hot-press shaping method: soaking the polyimide mesh fabric in 10% PAA in a dipping tank 2 for 10s for coating; then applying 6MPa pressure through a mud jacking roller 4, and carrying out filter pressing on the redundant serous fluid on the gridding cloth to an overflow groove 5;

No curling in the preparation process, no broken fiber in the cutting process, easy shaping, and the cloth cover density of the prepared grid is 19g/m²The thickness is 0.43mm, and the product can resist 300 ℃ high temperature for a long time and keep the shape unchanged.

Comparative example 1:

the procedure was the same as in example 1 except that the polyimide fibers were not impregnated with the epoxy slurry.

In the process of preparing the mesh fabric, fibers are easy to fuzz, and the accumulated hair balls cause weaving holes, so that the quality is influenced, and the mesh fabric cannot be smoothly woven and formed.

Comparative example 2:

the procedure was the same as in example 1, except that no PAA impregnation was performed.

The prepared mesh cloth is difficult to shape, even if the shaping is realized, the temperature resistance of the mesh cloth is low, the integral temperature resistance of the mesh cloth is influenced, and the high-temperature requirement of a special field cannot be met.

Claims

1. A preparation method of polyimide mesh cloth is characterized by comprising the following steps:

step 1), treating the surface of polyimide fiber;

step 3), performing polyamide acid coating, hot-pressing and shaping, cutting and net collecting on the polyimide mesh cloth woven in the step 2);

2. The method for preparing polyimide mesh fabric according to claim 1, wherein in the step 1), the method for treating the surface of the polyimide fiber comprises the following steps: the polyimide fiber is soaked in epoxy slurry, a thin layer of epoxy slurry is coated on the surface of the polyimide fiber, the concentration of the epoxy slurry is 1-10%, and the slurry soaking time is 5-60 s.

3. The method for preparing polyimide mesh fabric according to claim 2, wherein the method for preparing the epoxy slurry comprises the following steps: the compound containing amino group is reacted with epoxy and then combined with weak acid to produce weak cationic water-thinned epoxy emulsion.

4. The method for preparing the polyimide mesh fabric according to claim 3, wherein the compound containing the amino group is one or two of aminoethanesulfonic acid and ethylenediamine; the concentration of the epoxy slurry is 5%, and the slurry soaking time is 10 s.

5. The method for preparing polyimide mesh fabric according to claim 1, wherein in the step 3), polyamic acid coating and hot-press forming are performed by a dipping device continuous dipping drying hot-press forming method.

6. The method for preparing polyimide mesh fabric according to any one of claims 1 to 4, wherein the step 3) comprises the following steps: soaking the polyimide mesh fabric in polyamic acid through a dipping tank, wherein the concentration of the polyamic acid is 1-30%, and the dipping time is 5-60 s; then, the redundant slurry on the grid cloth is filtered and pressed into a slurry tank through a slurry filtering roller; then sequentially passing through a belt pulley, hot pressing, cutting and net collecting; preferably, the concentration of PAA is 10% and the dipping time is 10 s.

7. The method for preparing polyimide mesh cloth according to claim 5, wherein the slurry filtering roller is a slurry pressing roller, the upper wheel is a rubber wheel, the lower wheel is a stainless steel wheel, the upper and lower rollers press the mesh cloth by applying a certain pressure on the upper roller, and the rubber slurry filtering roller is beneficial to fully press and press redundant polyamic acid on the mesh cloth; the belt pulley is a conveying belt with chains on two sides, the width of the two sides can be adjusted, and a plurality of rows of upright rivets are fixed on the conveying belt.

8. The preparation method of the polyimide mesh fabric according to claim 5, wherein the hot pressing temperature of the hot pressing plate is room temperature to 500 ℃, and the pressure is 0 to 30MPa, preferably 400 ℃ and 10 MPa.

9. The method for preparing polyimide mesh cloth according to claim 1, wherein the cutting device cuts the mesh cloth into a mesh cloth having a certain width at the position of the outlet of the pulley by using a cutter rotating at a high speed.

10. The method for preparing polyimide mesh fabric according to claim 1, wherein the step 4) of subjecting the shaped mesh fabric to high temperature treatment is performed at 300 ℃ for 4 hours, and the mesh fabric can resist 300 ℃ for a long time and keep the shape unchanged.