CN112538783A - Super-strong glassine base paper and preparation method thereof - Google Patents

Abstract

The invention discloses an ultra-strong glassine base paper, which relates to the technical field of papermaking and mainly aims to solve the problem that the physical properties of glassine base paper cannot meet the use requirements, and comprises the following raw materials: the raw paper is prepared from the following raw materials, namely, white ash bark, paper mulberry bark, wild roses, cactus, gulfweed, cassava flour, corn starch, modified fly ash, polyester resin, styrene acrylate copolymer, rosin, alkyl ketene dimer, polyester modified dimethylpolysiloxane, glass fiber cotton, synthetic polyester staple fiber, carboxyethyl cellulose, sodium peroxide, biological enzyme, carboxymethyl chitosan, alginate, silica sol, a dispersing agent, alkyl ketene dimer, a drying cylinder stripping agent and a retention and filtration aid.

Description

Super-strong glassine base paper and preparation method thereof

Technical Field

The invention relates to the technical field of papermaking, in particular to ultra-strong glassine base paper and a preparation method thereof.

Background

The base paper of the glassine paper is compact and uniform in texture, has good internal strength and transmittance, is a common material for manufacturing bar code labels, non-setting adhesives, adhesive tapes or adhesive industrial products, and is particularly suitable for rotary and flat die cutting. The glassine paper has the functions of high temperature resistance, moisture resistance, oil resistance and the like, and is generally used for packaging in the industries of food, medicine and the like. The method is mainly used for: high-speed automatic labeling (especially suitable for high-speed label sticking) special adhesive tapes, double-sided adhesive tape base material trademarks, laser anti-counterfeiting marks and other release applications.

In the prior art, the glassine base paper is mostly manufactured by directly using chemical wood pulp as a raw material, so that the glassine base paper is limited by the self performance of natural fibers, the flexibility, the strength and the rigidity of the finished paper are insufficient, the situation of cracking, damage and the like easily occurs in the using process, and the more and more using requirements cannot be met.

Disclosure of Invention

The invention aims to provide a super-strong glassine base paper and a preparation method thereof, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the super-strong glassine base paper comprises the following raw materials in parts by weight: 400-500 parts of ash bark, 400 parts of paper mulberry bark, 100 parts of wild rose, 200 parts of cactus, 100 parts of gulfweed, 140 parts of 100 parts of manioc powder, 120 parts of corn starch, 60-80 parts of modified fly ash, 60-80 parts of polyester resin, 70-90 parts of styrene acrylate copolymer, 50-70 parts of rosin, 60-80 parts of alkyl ketene dimer, 40-60 parts of polyester modified dimethylpolysiloxane, 30-50 parts of glass fiber cotton, 20-30 parts of synthetic polyester staple fiber, 20-40 parts of carboxyethyl cellulose, 10-20 parts of sodium peroxide, 10-16 parts of biological enzyme, 12-20 parts of carboxymethyl chitosan, 8-12 parts of alginate, 6-10 parts of silica sol, 4-8 parts of dispersant, 4-20 parts of sodium hydroxide, 6-12 parts of alkyl ketene dimer, 2-8 parts of dryer stripper and 2-6 parts of retention and drainage aid.

As a further scheme of the invention: the feed comprises the following raw materials in parts by weight: 480 parts of ash bark 420-, 8-10 parts of alkyl ketene dimer, 3-7 parts of dryer stripper and 3-5 parts of retention and drainage aid.

As a further scheme of the invention: the feed comprises the following raw materials in parts by weight: 450 parts of fraxinus chinensis bark, 350 parts of paper mulberry bark, 150 parts of wild rose, 150 parts of cactus, 120 parts of gulfweed, 110 parts of cassava powder, 90 parts of corn starch, 70 parts of modified fly ash, 70 parts of polyester resin, 80 parts of styrene acrylate copolymer, 60 parts of rosin, 70 parts of alkyl ketene dimer, 50 parts of polyester modified dimethylpolysiloxane, 40 parts of glass fiber cotton, 25 parts of synthetic polyester staple fiber, 30 parts of carboxyethyl cellulose, 15 parts of sodium peroxide, 13 parts of biological enzyme, 16 parts of carboxymethyl chitosan, 10 parts of alginate, 8 parts of silica sol, 6 parts of dispersing agent, 9 parts of alkyl ketene dimer, 5 parts of dryer stripper and 4 parts of retention and drainage aid.

As a further scheme of the invention: the preparation method of the modified fly ash comprises the following steps: grinding desulfurized gypsum and fly ash by a ball mill to obtain a mixed material, adding a modifier into the mixed material, adding water to prepare slurry, adding the slurry into a cement paste mixer to automatically stir for 30-40min, preparing a blank after stirring, and drying the blank in a drying oven at 60-70 ℃ to obtain the modified fly ash.

As a further scheme of the invention: the biological enzyme is one of cutinase, peroxidase, beta-glucose oxidase, cellulase and pectate lyase.

As a further scheme of the invention: the retention and drainage aid is one of organic microparticles SP7200, silica sol and bentonite.

A preparation method of super-strong glassine base paper comprises the following steps:

1) putting the ash bark and the paper mulberry bark into a pool, adding the modified fly ash, stirring and mixing uniformly, then putting into a pulping machine, adding water and pulping the paper mulberry bark into slurry through the pulping machine;

2) fully crushing the wild rose, the cactus and the gulfweed, then adding the crushed wild rose, the cactus and the gulfweed into the slurry obtained in the step 1), then adding the cassava powder and the corn starch, fully stirring and uniformly mixing;

3) adding polyester resin, styrene acrylate copolymer, rosin, alkyl ketene dimer, polyester modified dimethyl polysiloxane, glass fiber cotton, synthetic polyester staple fiber and carboxyethyl cellulose into the slurry obtained in the step 2), fully and uniformly stirring, then adding biological enzyme, stirring and mixing for 2-4h, and then sterilizing at high temperature;

4) sequentially adding carboxymethyl chitosan, alginate, silica sol, a dispersing agent, alkyl ketene dimer, a dryer stripping agent and a retention and drainage aid into the slurry obtained in the step 3), and uniformly stirring;

5) carrying out papermaking, scooping up the paper pulp by scooping the pulp, and carrying out papermaking on the paper pulp on a fourdrinier paper machine by controlling the scooping of the pulp at the frequency of swinging 40 times per minute to obtain a wet paper web;

6) and (3) carrying out pressing, front drying, sizing, rear drying, press polishing, reeling and slitting on the wet paper web obtained in the step 5) to obtain the ultra-strong glassine base paper.

Compared with the prior art, the invention has the beneficial effects that:

the base paper has the advantages that the white wax bark, the paper mulberry bark and the wild rose are added as main raw materials, the toughness and the strength of the base paper are greatly improved, the dispersing agent, the alkyl ketene dimer and the drying cylinder stripping agent are added, the strength and the toughness of the base paper are further improved, the physical performance of the glassine base paper is remarkably improved by adding the glass fiber cotton and the synthetic polyester short fiber, the rosin, the glass fiber cotton and the synthetic polyester short fiber act synergistically, the rosin is an internal sizing material, the strength and the toughness of the base paper are improved, and accordingly the base paper has wide market prospect.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to specific embodiments, 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.

Example 1

In the embodiment of the invention, the super-strong glassine base paper comprises the following raw materials in parts by weight: 400 parts of fraxinus chinensis bark, 300 parts of paper mulberry bark, 100 parts of wild rose, 100 parts of cactus, 100 parts of gulfweed, 100 parts of cassava powder, 80 parts of corn starch, 60 parts of modified fly ash, 60 parts of polyester resin, 70 parts of styrene acrylate copolymer, 50 parts of rosin, 60 parts of alkyl ketene dimer, 40 parts of polyester modified dimethylpolysiloxane, 30 parts of glass fiber cotton, 20 parts of synthetic polyester staple fiber, 20 parts of carboxyethyl cellulose, 10 parts of sodium peroxide, 10 parts of biological enzyme, 12 parts of carboxymethyl chitosan, 8 parts of alginate, 6 parts of silica sol, 4 parts of dispersing agent, 6 parts of alkyl ketene dimer, 2 parts of dryer stripper and 2 parts of retention and filtration aid.

The preparation method of the modified fly ash comprises the following steps: grinding desulfurized gypsum and fly ash by a ball mill to obtain a mixed material, adding a modifier into the mixed material, adding water to prepare slurry, adding the slurry into a cement paste mixer to automatically stir for 30min, preparing a blank after stirring, and drying the blank in a drying oven at 60 ℃ to obtain the modified fly ash.

The biological enzyme is cutinase.

The retention and drainage aid is organic micro-particles SP 7200.

A preparation method of super-strong glassine base paper comprises the following steps:

1) putting the ash bark and the paper mulberry bark into a pool, adding the modified fly ash, stirring and mixing uniformly, then putting into a pulping machine, adding water and pulping the paper mulberry bark into slurry through the pulping machine;

2) fully crushing the wild rose, the cactus and the gulfweed, then adding the crushed wild rose, the cactus and the gulfweed into the slurry obtained in the step 1), then adding the cassava powder and the corn starch, fully stirring and uniformly mixing;

3) adding polyester resin, styrene acrylate copolymer, rosin, alkyl ketene dimer, polyester modified dimethyl polysiloxane, glass fiber cotton, synthetic polyester staple fiber and carboxyethyl cellulose into the slurry obtained in the step 2), fully and uniformly stirring, then adding biological enzyme, stirring and mixing for 2 hours, and then sterilizing at high temperature;

4) sequentially adding carboxymethyl chitosan, alginate, silica sol, a dispersing agent, alkyl ketene dimer, a dryer stripping agent and a retention and drainage aid into the slurry obtained in the step 3), and uniformly stirring;

5) carrying out papermaking, scooping up the paper pulp by scooping the pulp, and carrying out papermaking on the paper pulp on a fourdrinier paper machine by controlling the scooping of the pulp at the frequency of swinging 40 times per minute to obtain a wet paper web;

6) and (3) carrying out pressing, front drying, sizing, rear drying, press polishing, reeling and slitting on the wet paper web obtained in the step 5) to obtain the ultra-strong glassine base paper.

Example 2

In the embodiment of the invention, the super-strong glassine base paper comprises the following raw materials in parts by weight: 420 parts of fraxinus chinensis bark, 320 parts of paper mulberry bark, 120 parts of wild rose, 130 parts of cactus, 110 parts of gulfweed, 105 parts of cassava powder, 85 parts of corn starch, 65 parts of modified fly ash, 65 parts of polyester resin, 75 parts of styrene acrylate copolymer, 55 parts of rosin, 65 parts of alkyl ketene dimer, 45 parts of polyester modified dimethylpolysiloxane, 35 parts of glass fiber cotton, 23 parts of synthetic polyester staple fiber, 25 parts of carboxyethyl cellulose, 12 parts of sodium peroxide, 12 parts of biological enzyme, 14 parts of carboxymethyl chitosan, 9 parts of alginate, 7 parts of silica sol, 5 parts of dispersing agent, 8 parts of alkyl ketene dimer, 3 parts of dryer stripper and 3 parts of retention and drainage aid.

The preparation method of the modified fly ash comprises the following steps: grinding desulfurized gypsum and fly ash by a ball mill to obtain a mixed material, adding a modifier into the mixed material, adding water to prepare slurry, adding the slurry into a cement paste mixer to automatically stir for 32min, preparing a blank after stirring, and drying the blank in a drying oven at 62 ℃ to obtain the modified fly ash.

The biological enzyme is peroxidase.

The retention and drainage aid is silica sol.

A preparation method of super-strong glassine base paper comprises the following steps:

1) putting the ash bark and the paper mulberry bark into a pool, adding the modified fly ash, stirring and mixing uniformly, then putting into a pulping machine, adding water and pulping the paper mulberry bark into slurry through the pulping machine;

2) fully crushing the wild rose, the cactus and the gulfweed, then adding the crushed wild rose, the cactus and the gulfweed into the slurry obtained in the step 1), then adding the cassava powder and the corn starch, fully stirring and uniformly mixing;

3) adding polyester resin, styrene acrylate copolymer, rosin, alkyl ketene dimer, polyester modified dimethyl polysiloxane, glass fiber cotton, synthetic polyester staple fiber and carboxyethyl cellulose into the slurry obtained in the step 2), fully and uniformly stirring, then adding biological enzyme, stirring and mixing for 2.5h, and then sterilizing at high temperature;

4) sequentially adding carboxymethyl chitosan, alginate, silica sol, a dispersing agent, alkyl ketene dimer, a dryer stripping agent and a retention and drainage aid into the slurry obtained in the step 3), and uniformly stirring;

5) carrying out papermaking, scooping up the paper pulp by scooping the pulp, and carrying out papermaking on the paper pulp on a fourdrinier paper machine by controlling the scooping of the pulp at the frequency of swinging 40 times per minute to obtain a wet paper web;

6) and (3) carrying out pressing, front drying, sizing, rear drying, press polishing, reeling and slitting on the wet paper web obtained in the step 5) to obtain the ultra-strong glassine base paper.

Example 3

In the embodiment of the invention, the super-strong glassine base paper comprises the following raw materials in parts by weight: 450 parts of fraxinus chinensis bark, 350 parts of paper mulberry bark, 150 parts of wild rose, 150 parts of cactus, 120 parts of gulfweed, 110 parts of cassava powder, 90 parts of corn starch, 70 parts of modified fly ash, 70 parts of polyester resin, 80 parts of styrene acrylate copolymer, 60 parts of rosin, 70 parts of alkyl ketene dimer, 50 parts of polyester modified dimethylpolysiloxane, 40 parts of glass fiber cotton, 25 parts of synthetic polyester staple fiber, 30 parts of carboxyethyl cellulose, 15 parts of sodium peroxide, 13 parts of biological enzyme, 16 parts of carboxymethyl chitosan, 10 parts of alginate, 8 parts of silica sol, 6 parts of dispersing agent, 9 parts of alkyl ketene dimer, 5 parts of dryer stripper and 4 parts of retention and drainage aid.

The preparation method of the modified fly ash comprises the following steps: grinding desulfurized gypsum and fly ash by a ball mill to obtain a mixed material, adding a modifier into the mixed material, adding water to prepare slurry, adding the slurry into a cement paste mixer to automatically stir for 35min, preparing a blank after stirring, and drying the blank in a drying oven at 65 ℃ to obtain the modified fly ash.

The biological enzyme is beta-glucose oxidase.

The retention and drainage aid is bentonite.

A preparation method of super-strong glassine base paper comprises the following steps:

1) putting the ash bark and the paper mulberry bark into a pool, adding the modified fly ash, stirring and mixing uniformly, then putting into a pulping machine, adding water and pulping the paper mulberry bark into slurry through the pulping machine;

2) fully crushing the wild rose, the cactus and the gulfweed, then adding the crushed wild rose, the cactus and the gulfweed into the slurry obtained in the step 1), then adding the cassava powder and the corn starch, fully stirring and uniformly mixing;

3) adding polyester resin, styrene acrylate copolymer, rosin, alkyl ketene dimer, polyester modified dimethyl polysiloxane, glass fiber cotton, synthetic polyester staple fiber and carboxyethyl cellulose into the slurry obtained in the step 2), fully and uniformly stirring, then adding biological enzyme, stirring and mixing for 3 hours, and then sterilizing at high temperature;

4) sequentially adding carboxymethyl chitosan, alginate, silica sol, a dispersing agent, alkyl ketene dimer, a dryer stripping agent and a retention and drainage aid into the slurry obtained in the step 3), and uniformly stirring;

5) carrying out papermaking, scooping up the paper pulp by scooping the pulp, and carrying out papermaking on the paper pulp on a fourdrinier paper machine by controlling the scooping of the pulp at the frequency of swinging 40 times per minute to obtain a wet paper web;

6) and (3) carrying out pressing, front drying, sizing, rear drying, press polishing, reeling and slitting on the wet paper web obtained in the step 5) to obtain the ultra-strong glassine base paper.

Example 4

In the embodiment of the invention, the super-strong glassine base paper comprises the following raw materials in parts by weight: 480 parts of fraxinus chinensis bark, 380 parts of paper mulberry bark, 180 parts of wild rose, 170 parts of cactus, 130 parts of gulfweed, 115 parts of cassava powder, 95 parts of corn starch, 75 parts of modified fly ash, 75 parts of polyester resin, 85 parts of styrene acrylate copolymer, 65 parts of rosin, 75 parts of alkyl ketene dimer, 55 parts of polyester modified dimethylpolysiloxane, 45 parts of glass fiber cotton, 27 parts of synthetic polyester staple fiber, 35 parts of carboxyethyl cellulose, 18 parts of sodium peroxide, 14 parts of biological enzyme, 18 parts of carboxymethyl chitosan, 11 parts of alginate, 9 parts of silica sol, 7 parts of dispersing agent, 10 parts of alkyl ketene dimer, 7 parts of dryer stripper and 5 parts of retention and filtration aid.

The preparation method of the modified fly ash comprises the following steps: grinding desulfurized gypsum and fly ash by a ball mill to obtain a mixed material, adding a modifier into the mixed material, adding water to prepare slurry, adding the slurry into a cement paste mixer to automatically stir for 38min, preparing a blank after stirring, and drying the blank in a drying oven at 68 ℃ to obtain the modified fly ash.

The biological enzyme is cellulase.

The retention and drainage aid is organic micro-particles SP 7200.

A preparation method of super-strong glassine base paper comprises the following steps:

1) putting the ash bark and the paper mulberry bark into a pool, adding the modified fly ash, stirring and mixing uniformly, then putting into a pulping machine, adding water and pulping the paper mulberry bark into slurry through the pulping machine;

2) fully crushing the wild rose, the cactus and the gulfweed, then adding the crushed wild rose, the cactus and the gulfweed into the slurry obtained in the step 1), then adding the cassava powder and the corn starch, fully stirring and uniformly mixing;

3) adding polyester resin, styrene acrylate copolymer, rosin, alkyl ketene dimer, polyester modified dimethyl polysiloxane, glass fiber cotton, synthetic polyester staple fiber and carboxyethyl cellulose into the slurry obtained in the step 2), fully and uniformly stirring, then adding biological enzyme, stirring and mixing for 3.5h, and then sterilizing at high temperature;

4) sequentially adding carboxymethyl chitosan, alginate, silica sol, a dispersing agent, alkyl ketene dimer, a dryer stripping agent and a retention and drainage aid into the slurry obtained in the step 3), and uniformly stirring;

5) carrying out papermaking, scooping up the paper pulp by scooping the pulp, and carrying out papermaking on the paper pulp on a fourdrinier paper machine by controlling the scooping of the pulp at the frequency of swinging 40 times per minute to obtain a wet paper web;

6) and (3) carrying out pressing, front drying, sizing, rear drying, press polishing, reeling and slitting on the wet paper web obtained in the step 5) to obtain the ultra-strong glassine base paper.

Example 5

In the embodiment of the invention, the super-strong glassine base paper comprises the following raw materials in parts by weight: 500 parts of fraxinus chinensis bark, 400 parts of paper mulberry bark, 200 parts of wild rose, 200 parts of cactus, 140 parts of gulfweed, 120 parts of cassava powder, 100 parts of corn starch, 80 parts of modified fly ash, 80 parts of polyester resin, 90 parts of styrene acrylate copolymer, 70 parts of rosin, 80 parts of alkyl ketene dimer, 60 parts of polyester modified dimethylpolysiloxane, 50 parts of glass fiber cotton, 30 parts of synthetic polyester staple fiber, 40 parts of carboxyethyl cellulose, 20 parts of sodium peroxide, 16 parts of biological enzyme, 20 parts of carboxymethyl chitosan, 12 parts of alginate, 10 parts of silica sol, 8 parts of dispersing agent, 12 parts of alkyl ketene dimer, 8 parts of dryer stripper and 6 parts of retention and drainage aid.

The preparation method of the modified fly ash comprises the following steps: grinding desulfurized gypsum and fly ash by a ball mill to obtain a mixed material, adding a modifier into the mixed material, adding water to prepare slurry, adding the slurry into a cement paste mixer to automatically stir for 40min, preparing a blank after stirring, and drying the blank in a drying oven at 70 ℃ to obtain the modified fly ash.

The biological enzyme is pectate lyase.

The retention and drainage aid is bentonite.

A preparation method of super-strong glassine base paper comprises the following steps:

1) putting the ash bark and the paper mulberry bark into a pool, adding the modified fly ash, stirring and mixing uniformly, then putting into a pulping machine, adding water and pulping the paper mulberry bark into slurry through the pulping machine;

2) fully crushing the wild rose, the cactus and the gulfweed, then adding the crushed wild rose, the cactus and the gulfweed into the slurry obtained in the step 1), then adding the cassava powder and the corn starch, fully stirring and uniformly mixing;

3) adding polyester resin, styrene acrylate copolymer, rosin, alkyl ketene dimer, polyester modified dimethyl polysiloxane, glass fiber cotton, synthetic polyester staple fiber and carboxyethyl cellulose into the slurry obtained in the step 2), fully and uniformly stirring, then adding biological enzyme, stirring and mixing for 4 hours, and then sterilizing at high temperature;

4) sequentially adding carboxymethyl chitosan, alginate, silica sol, a dispersing agent, alkyl ketene dimer, a dryer stripping agent and a retention and drainage aid into the slurry obtained in the step 3), and uniformly stirring;

5) carrying out papermaking, scooping up the paper pulp by scooping the pulp, and carrying out papermaking on the paper pulp on a fourdrinier paper machine by controlling the scooping of the pulp at the frequency of swinging 40 times per minute to obtain a wet paper web;

6) and (3) carrying out pressing, front drying, sizing, rear drying, press polishing, reeling and slitting on the wet paper web obtained in the step 5) to obtain the ultra-strong glassine base paper.

According to the invention, the white wax bark, the paper mulberry bark and the wild rose are added as main raw materials, so that the toughness and strength of the base paper are greatly improved, the dispersing agent, the alkyl ketene dimer and the drying cylinder stripping agent are added, so that the strength and toughness of the base paper are further improved, the physical properties of the glassine base paper are remarkably improved by adding the glass fiber cotton and the synthetic polyester staple fiber, further, the rosin, the glass fiber cotton and the synthetic polyester staple fiber have a synergistic effect, the rosin is an internal sizing material, so that the strength and toughness of the base paper are improved, and the base paper has a wide market prospect.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The super-strong glassine base paper is characterized by comprising the following raw materials in parts by weight: 400-500 parts of ash bark, 400 parts of paper mulberry bark, 100 parts of wild rose, 200 parts of cactus, 100 parts of gulfweed, 140 parts of 100 parts of manioc powder, 120 parts of corn starch, 60-80 parts of modified fly ash, 60-80 parts of polyester resin, 70-90 parts of styrene acrylate copolymer, 50-70 parts of rosin, 60-80 parts of alkyl ketene dimer, 40-60 parts of polyester modified dimethylpolysiloxane, 30-50 parts of glass fiber cotton, 20-30 parts of synthetic polyester staple fiber, 20-40 parts of carboxyethyl cellulose, 10-20 parts of sodium peroxide, 10-16 parts of biological enzyme, 12-20 parts of carboxymethyl chitosan, 8-12 parts of alginate, 6-10 parts of silica sol, 4-8 parts of dispersant, 4-20 parts of sodium hydroxide, 6-12 parts of alkyl ketene dimer, 2-8 parts of dryer stripper and 2-6 parts of retention and drainage aid.

2. The ultra-strong glassine base paper according to claim 1, comprising the following raw materials in parts by weight: 480 parts of ash bark 420-, 8-10 parts of alkyl ketene dimer, 3-7 parts of dryer stripper and 3-5 parts of retention and drainage aid.

3. The ultra-strong glassine base paper according to claim 2, comprising the following raw materials in parts by weight: 450 parts of fraxinus chinensis bark, 350 parts of paper mulberry bark, 150 parts of wild rose, 150 parts of cactus, 120 parts of gulfweed, 110 parts of cassava powder, 90 parts of corn starch, 70 parts of modified fly ash, 70 parts of polyester resin, 80 parts of styrene acrylate copolymer, 60 parts of rosin, 70 parts of alkyl ketene dimer, 50 parts of polyester modified dimethylpolysiloxane, 40 parts of glass fiber cotton, 25 parts of synthetic polyester staple fiber, 30 parts of carboxyethyl cellulose, 15 parts of sodium peroxide, 13 parts of biological enzyme, 16 parts of carboxymethyl chitosan, 10 parts of alginate, 8 parts of silica sol, 6 parts of dispersing agent, 9 parts of alkyl ketene dimer, 5 parts of dryer stripper and 4 parts of retention and drainage aid.

4. The ultra-strong glassine base paper according to claim 1, wherein the preparation method of the modified fly ash is as follows: grinding desulfurized gypsum and fly ash by a ball mill to obtain a mixed material, adding a modifier into the mixed material, adding water to prepare slurry, adding the slurry into a cement paste mixer to automatically stir for 30-40min, preparing a blank after stirring, and drying the blank in a drying oven at 60-70 ℃ to obtain the modified fly ash.

5. The raw ultra-strong glassine paper according to claim 1, wherein the biological enzyme is one of cutinase, peroxidase, β -glucose oxidase, cellulase and pectate lyase.

6. The base paper of claim 1, wherein the retention and drainage aid is one of organic microparticles SP7200, silica sol and bentonite.

7. The process for preparing a raw ultra-strong glassine paper according to any of claims 1 to 6, characterized in that it comprises the following steps:

1) putting the ash bark and the paper mulberry bark into a pool, adding the modified fly ash, stirring and mixing uniformly, then putting into a pulping machine, adding water and pulping the paper mulberry bark into slurry through the pulping machine;

2) fully crushing the wild rose, the cactus and the gulfweed, then adding the crushed wild rose, the cactus and the gulfweed into the slurry obtained in the step 1), then adding the cassava powder and the corn starch, fully stirring and uniformly mixing;

3) adding polyester resin, styrene acrylate copolymer, rosin, alkyl ketene dimer, polyester modified dimethyl polysiloxane, glass fiber cotton, synthetic polyester staple fiber and carboxyethyl cellulose into the slurry obtained in the step 2), fully and uniformly stirring, then adding biological enzyme, stirring and mixing for 2-4h, and then sterilizing at high temperature;

4) sequentially adding carboxymethyl chitosan, alginate, silica sol, a dispersing agent, alkyl ketene dimer, a dryer stripping agent and a retention and drainage aid into the slurry obtained in the step 3), and uniformly stirring;

5) carrying out papermaking, scooping up the paper pulp by scooping the pulp, and carrying out papermaking on the paper pulp on a fourdrinier paper machine by controlling the scooping of the pulp at the frequency of swinging 40 times per minute to obtain a wet paper web;

6) and (3) carrying out pressing, front drying, sizing, rear drying, press polishing, reeling and slitting on the wet paper web obtained in the step 5) to obtain the ultra-strong glassine base paper.