CN113912926A - Special modified polymer resin material for PE (polyethylene) bamboo wrapped in moso bamboo and preparation method thereof - Google Patents

Abstract

The invention discloses a modified polymer resin material special for PE-coated moso bamboo and a preparation method thereof, wherein the modified polymer resin material is prepared from the following components: 65-80 parts of high-molecular polyethylene resin, 5-8 parts of stabilizer, 8-15 parts of mildew preventive, 1-3 parts of adhesion promoter, 2-5 parts of corundum powder, 8-12 parts of nano-silver antibacterial particles, S1 and preparation: preparing raw materials of 100 parts of high-molecular polyethylene resin, 10 parts of stabilizer, 20 parts of mildew preventive, 5 parts of adhesion promoter, 10 parts of corundum powder and 15 parts of nano-silver antibacterial particles; the PE protective sleeve is sleeved on the surface of the moso bamboo, so that the corrosion speed of the moso bamboo in seawater can be greatly reduced, the service life of the moso bamboo is prolonged by three times, the production cost and labor risk of farmers are greatly reduced, nano-silver antibacterial particles and mildew inhibitors in different proportions are added in the components of the PE protective sleeve, and moss and seaweed growing on the surface of the moso bamboo can be effectively inhibited through scientific proportioning combination, so that the quality of seawater is guaranteed.

Description

Special modified polymer resin material for PE (polyethylene) bamboo wrapped in moso bamboo and preparation method thereof

Technical Field

The invention relates to the technical field of marine culture, in particular to a modified polymer resin material special for PE (polyethylene) bamboo wrapped with moso and a preparation method thereof.

Background

The mariculture is a production activity for culturing marine aquatic economic animals and plants by utilizing coastal shallow seas, and objects of the mariculture mainly comprise fishes, shrimps, crabs, shellfish, algae, sea cucumbers and other economic animals. The mariculture is an important component of aquaculture, the history of mariculture in China is long, oyster culture is carried out before the Han dynasties, and a pearl culture method is invented in the Song dynasties. After the people's republic of China is established, the mariculture of China develops rapidly, and the development of main economic varieties such as kelp, laver, mussel and prawn is particularly prominent, so that the development of coastal economy is driven, and the method becomes a large industry in coastal areas. Mariculture households can insert a proper amount of moso bamboos into a culture farm to provide a habitat for organisms and prevent the organisms from running out of the habitat.

Due to the long-term soaking of the moso bamboos in seawater, a large amount of moss and seaweed appear on the surface of the moso bamboos, so that the living environment of economic animals and plants is influenced, the service life of the moso bamboos is greatly shortened, and the moso bamboos are not economic and environment-friendly enough.

Disclosure of Invention

The invention aims to provide a modified polymer resin material special for PE-coated moso bamboo and a preparation method thereof, and aims to solve the problems that due to long-term soaking of the moso bamboo in seawater, a large amount of moss and seaweed appear on the surface of the moso bamboo, the living environment of economic animals and plants is influenced, the service life of the moso bamboo is greatly shortened, and the moso bamboo is not economical and environment-friendly enough.

In order to achieve the purpose, the invention provides the following technical scheme: a modified polymer resin material special for PE-coated moso bamboo comprises the following components: 65-80 parts of high-molecular polyethylene resin, 5-8 parts of stabilizer, 8-15 parts of mildew inhibitor, 1-3 parts of adhesion promoter, 2-5 parts of corundum powder and 8-12 parts of nano-silver antibacterial particles.

As a preferred technical scheme of the invention, the modified high polymer resin material comprises the following formula components, by weight, 62 parts of high polymer polyethylene resin, 6 parts of a stabilizer, 15 parts of a mildew preventive, 3 parts of an adhesion promoter, 2 parts of corundum powder and 12 parts of nano-silver antibacterial particles.

As a preferred technical scheme of the invention, the modified high polymer resin material comprises, by weight, 70 parts of high polymer polyethylene resin, 6 parts of a stabilizer, 10 parts of a mildew preventive, 2 parts of an adhesion promoter, 2 parts of corundum powder and 10 parts of nano-silver antibacterial particles.

As a preferred technical scheme of the invention, the modified high polymer resin material comprises, by weight, 74 parts of high polymer polyethylene resin, 6 parts of a stabilizer, 8 parts of a mildew preventive, 2 parts of an adhesion promoter, 2 parts of corundum powder and 8 parts of nano-silver antibacterial particles.

As a preferred technical scheme of the invention, the stabilizer is lead sulfate tribasic, the mildew preventive is formed by mixing phenyl mercury oleate, 8-hydroxyquinoline copper, triethyl tin chloride and pentachlorophenol, and every 100g of the mildew preventive contains 25g of phenyl mercury oleate, 25g of 8-hydroxyquinoline copper, 25g of triethyl tin chloride and 25g of pentachlorophenol; the adhesion promoter is water-based resin.

A preparation method of a special modified polymer resin material for PE-coated moso bamboo comprises the following steps:

s1, preparing materials: preparing raw materials of 100 parts of high-molecular polyethylene resin, 10 parts of stabilizer, 20 parts of mildew preventive, 5 parts of adhesion promoter, 10 parts of corundum powder and 15 parts of nano-silver antibacterial particles;

s2, batching: weighing high-molecular polyethylene resin, a stabilizer, a mildew preventive, an adhesion promoter, corundum powder and nano-silver antibacterial particles according to the mass ratio determined by the invention by adopting a universal weighing instrument, and uniformly putting the weighed raw materials into a raw material barrel for storage;

s3, screening: the ingredients in the raw material barrel are poured into a screening device, and a 200-mesh and 400-mesh screen is used for primary mixing and screening.

S4, mixing: adding the ingredients after primary mixing and screening into a plastic mixer, mixing for 20 minutes at a low speed in the plastic mixer, simultaneously controlling the heating temperature of the materials to be between 70 and 80 ℃, fully removing moisture contained in the materials due to moisture absorption and damp, preventing the temperature of the materials from rising and adhering to the wall of a kettle and a stirring blade, and then pouring the evenly mixed ingredients into a storage bucket for later use;

s5, heating and smelting: adding the uniformly mixed ingredients in the storage barrel into an electric melting stirring furnace, controlling the temperature of the electric melting stirring furnace to be 210 ℃ until all the raw materials are in a molten state, continuously stirring for 30 minutes, and setting the air pressure to be 180 MPa;

s6, extrusion cooling: injecting the mixed raw materials into a plastic extruder, extruding and shaping the mixed materials, continuously spraying and cooling the crystals by adopting a plurality of spraying pipes in the extruding process, and controlling the temperature to be 8-30 ℃;

s7, drying: drying the cooled raw materials by using multi-stage air drying equipment;

s8, storage: and weighing and subpackaging the dried crystallized material by adopting packaging equipment.

As a preferred technical scheme of the invention, in the step S1, translucent corundum is selected, cleaned and air-dried, then a special crusher is used for crushing raw ore to 5-10mm, then the crushed raw ore is placed in a low-speed stirring container, triethanolamine solution with a certain concentration is prepared for soaking, the crushed raw ore is taken out for natural air drying, a special ball mill is used for ball milling, and finally a 200-mesh 400-mesh screen is used for sieving.

As a preferred technical scheme of the invention, in the step S1, the stabilizer is firstly ground by a grinding device and then sieved by a 200-400-mesh screen.

In a preferred technical scheme of the invention, in the step S1, the mildew inhibitor is prepared by mixing phenyl mercuric oleate, 8-hydroxyquinoline copper, triethyl tin chloride and pentachlorophenol in an equal mass ratio of 1:1:1:1, grinding the mixture by a ball mill, sieving the mixture by a 200-and 400-mesh sieve, and mixing the sieved mixture by a stirring device for 20 minutes.

Compared with the prior art, the invention has the beneficial effects that: the PE protective sleeve is sleeved on the surface of the moso bamboo, so that the corrosion speed of the moso bamboo in seawater can be greatly reduced, the service life of the moso bamboo is prolonged by three times, the production cost and labor risk of farmers are greatly reduced, nano-silver antibacterial particles and mildew inhibitors in different proportions are added in the components of the PE protective sleeve, and moss and seaweed growing on the surface of the moso bamboo can be effectively inhibited through scientific proportioning combination, so that the quality of seawater is guaranteed, and the moso bamboo is attractive, economical and environment-friendly.

Drawings

FIG. 1 is a flow chart of an embodiment of the present invention.

Detailed Description

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

Please refer to fig. 1:

example 1

The invention provides a special modified polymer resin material for PE (polyethylene) bamboo wrapped bamboo, which is prepared from the following components: 65-80 parts of high-molecular polyethylene resin, 5-8 parts of stabilizer, 8-15 parts of mildew inhibitor, 1-3 parts of adhesion promoter, 2-5 parts of corundum powder and 8-12 parts of nano-silver antibacterial particles.

Preferably, the stabilizer is lead sulfate tribasic, the mildew preventive is formed by mixing phenyl mercury oleate, 8-hydroxyquinoline copper, triethyl tin chloride and pentachlorophenol, and every 100g of the mildew preventive contains 25g of phenyl mercury oleate, 25g of 8-hydroxyquinoline copper, 25g of triethyl tin chloride and 25g of pentachlorophenol; the adhesion promoter is water-based resin.

Preferably, the modified high polymer resin material comprises, by weight, 62 parts of high polymer polyethylene resin, 6 parts of stabilizer, 15 parts of mildew preventive, 3 parts of adhesion promoter, 2 parts of corundum powder and 12 parts of nano-silver antibacterial particles, so that the proportion of the nano-silver antibacterial particles to the mildew preventive in the formula is increased, and the integral antibacterial ability of the PE protective sleeve can be improved.

A preparation method of a special modified polymer resin material for PE-coated moso bamboo comprises the following steps:

s1, preparing materials: preparing raw materials of 100 parts of high-molecular polyethylene resin, 10 parts of stabilizer, 20 parts of mildew preventive, 5 parts of adhesion promoter, 10 parts of corundum powder and 15 parts of nano-silver antibacterial particles;

s2, batching: weighing high-molecular polyethylene resin, a stabilizer, a mildew preventive, an adhesion promoter, corundum powder and nano-silver antibacterial particles according to the mass ratio determined by the invention by adopting a universal weighing instrument, and uniformly putting the weighed raw materials into a raw material barrel for storage;

s3, screening: the ingredients in the raw material barrel are poured into a screening device, and a 200-mesh and 400-mesh screen is used for primary mixing and screening.

S4, mixing: adding the ingredients after primary mixing and screening into a plastic mixer, mixing for 20 minutes at a low speed in the plastic mixer, simultaneously controlling the heating temperature of the materials to be between 70 and 80 ℃, fully removing moisture contained in the materials due to moisture absorption and damp, preventing the temperature of the materials from rising and adhering to the wall of a kettle and a stirring blade, and then pouring the evenly mixed ingredients into a storage bucket for later use;

s5, heating and smelting: adding the uniformly mixed ingredients in the storage barrel into an electric melting stirring furnace, controlling the temperature of the electric melting stirring furnace to be 210 ℃ until all the raw materials are in a molten state, continuously stirring for 30 minutes, and setting the air pressure to be 180 MPa;

s6, extrusion cooling: injecting the mixed raw materials into a plastic extruder, extruding and shaping the mixed materials, continuously spraying and cooling the crystals by adopting a plurality of spraying pipes in the extruding process, and controlling the temperature to be 8-30 ℃;

s7, drying: drying the cooled raw materials by using multi-stage air drying equipment;

s8, storage: and weighing and subpackaging the dried crystallized material by adopting packaging equipment.

Preferably, in the step S1, selecting translucent corundum, cleaning and air-drying the semi-translucent corundum, then crushing the raw ore to 5-10mm by using a special crusher, then placing the crushed raw ore in a low-speed stirring container, preparing a triethanolamine solution with a certain concentration for soaking, taking out the soaked raw ore for natural air-drying, performing ball-milling work by using a special ball mill, and finally sieving the raw ore by using a 200-mesh 400-mesh sieve.

Preferably, in the step S1, the stabilizer is ground by a grinding device and then sieved by a 200-400-mesh screen.

Preferably, in the step S1, the mildew inhibitor is prepared by mixing phenyl mercuric oleate, 8-hydroxyquinoline copper, triethyl tin chloride and pentachlorophenol in a ratio of 1:1:1:1 by mass, grinding by a ball mill, sieving by a 200-400-mesh sieve, and mixing for 20 minutes by a stirring device.

Example 2

The invention provides a special modified polymer resin material for PE (polyethylene) bamboo wrapped bamboo, which is prepared from the following components: 65-80 parts of high-molecular polyethylene resin, 5-8 parts of stabilizer, 8-15 parts of mildew inhibitor, 1-3 parts of adhesion promoter, 2-5 parts of corundum powder and 8-12 parts of nano-silver antibacterial particles.

Preferably, the modified high polymer resin material comprises, by weight, 70 parts of high polymer polyethylene resin, 6 parts of stabilizer, 10 parts of mildew inhibitor, 2 parts of adhesion promoter, 2 parts of corundum powder and 10 parts of nano-silver antibacterial particles.

Compared with the embodiment 1, the proportion of the mildew preventive and the nano-silver antibacterial particles in the formula is adjusted, and the proportion of the high-molecular polyethylene resin is increased, so that the impact resistance and the tensile resistance of the material are improved.

A preparation method of a special modified polymer resin material for PE-coated moso bamboo comprises the following steps:

s1, preparing materials: preparing raw materials of 100 parts of high-molecular polyethylene resin, 10 parts of stabilizer, 20 parts of mildew preventive, 5 parts of adhesion promoter, 10 parts of corundum powder and 15 parts of nano-silver antibacterial particles;

s2, batching: weighing high-molecular polyethylene resin, a stabilizer, a mildew preventive, an adhesion promoter, corundum powder and nano-silver antibacterial particles according to the mass ratio determined by the invention by adopting a universal weighing instrument, and uniformly putting the weighed raw materials into a raw material barrel for storage;

s3, screening: the ingredients in the raw material barrel are poured into a screening device, and a 200-mesh and 400-mesh screen is used for primary mixing and screening.

S4, mixing: adding the ingredients after primary mixing and screening into a plastic mixer, mixing for 20 minutes at a low speed in the plastic mixer, simultaneously controlling the heating temperature of the materials to be between 70 and 80 ℃, fully removing moisture contained in the materials due to moisture absorption and damp, preventing the temperature of the materials from rising and adhering to the wall of a kettle and a stirring blade, and then pouring the evenly mixed ingredients into a storage bucket for later use;

s5, heating and smelting: adding the uniformly mixed ingredients in the storage barrel into an electric melting stirring furnace, controlling the temperature of the electric melting stirring furnace to be 210 ℃ until all the raw materials are in a molten state, continuously stirring for 30 minutes, and setting the air pressure to be 180 MPa;

s6, extrusion cooling: injecting the mixed raw materials into a plastic extruder, extruding and shaping the mixed materials, continuously spraying and cooling the crystals by adopting a plurality of spraying pipes in the extruding process, and controlling the temperature to be 8-30 ℃;

s7, drying: drying the cooled raw materials by using multi-stage air drying equipment;

s8, storage: and weighing and subpackaging the dried crystallized material by adopting packaging equipment.

Preferably, in the step S1, selecting translucent corundum, cleaning and air-drying the semi-translucent corundum, then crushing the raw ore to 5-10mm by using a special crusher, then placing the crushed raw ore in a low-speed stirring container, preparing a triethanolamine solution with a certain concentration for soaking, taking out the soaked raw ore for natural air-drying, performing ball-milling work by using a special ball mill, and finally sieving the raw ore by using a 200-mesh 400-mesh sieve.

Preferably, in the step S1, the stabilizer is ground by a grinding device and then sieved by a 200-400-mesh screen.

Preferably, in the step S1, the mildew inhibitor is prepared by mixing phenyl mercuric oleate, 8-hydroxyquinoline copper, triethyl tin chloride and pentachlorophenol in a ratio of 1:1:1:1 by mass, grinding by a ball mill, sieving by a 200-400-mesh sieve, and mixing for 20 minutes by a stirring device.

Example 3

The invention provides a special modified polymer resin material for PE (polyethylene) bamboo wrapped bamboo, which is prepared from the following components: 65-80 parts of high-molecular polyethylene resin, 5-8 parts of stabilizer, 8-15 parts of mildew inhibitor, 1-3 parts of adhesion promoter, 2-5 parts of corundum powder and 8-12 parts of nano-silver antibacterial particles.

Preferably, the modified high polymer resin material comprises, by weight, 74 parts of high polymer polyethylene resin, 6 parts of stabilizer, 8 parts of mildew inhibitor, 2 parts of adhesion promoter, 2 parts of corundum powder and 8 parts of nano-silver antibacterial particles.

Compared with the embodiment 1, the proportion of the mildew preventive and the nano-silver antibacterial particles in the formula is adjusted, the proportion of the high-molecular polyethylene resin is increased, and the stability of the material structure is improved.

A preparation method of a special modified polymer resin material for PE-coated moso bamboo comprises the following steps:

s1, preparing materials: preparing raw materials of 100 parts of high-molecular polyethylene resin, 10 parts of stabilizer, 20 parts of mildew preventive, 5 parts of adhesion promoter, 10 parts of corundum powder and 15 parts of nano-silver antibacterial particles;

s2, batching: weighing high-molecular polyethylene resin, a stabilizer, a mildew preventive, an adhesion promoter, corundum powder and nano-silver antibacterial particles according to the mass ratio determined by the invention by adopting a universal weighing instrument, and uniformly putting the weighed raw materials into a raw material barrel for storage;

s3, screening: the ingredients in the raw material barrel are poured into a screening device, and a 200-mesh and 400-mesh screen is used for primary mixing and screening.

S4, mixing: adding the ingredients after primary mixing and screening into a plastic mixer, mixing for 20 minutes at a low speed in the plastic mixer, simultaneously controlling the heating temperature of the materials to be between 70 and 80 ℃, fully removing moisture contained in the materials due to moisture absorption and damp, preventing the temperature of the materials from rising and adhering to the wall of a kettle and a stirring blade, and then pouring the evenly mixed ingredients into a storage bucket for later use;

s5, heating and smelting: adding the uniformly mixed ingredients in the storage barrel into an electric melting stirring furnace, controlling the temperature of the electric melting stirring furnace to be 210 ℃ until all the raw materials are in a molten state, continuously stirring for 30 minutes, and setting the air pressure to be 180 MPa;

s6, extrusion cooling: injecting the mixed raw materials into a plastic extruder, extruding and shaping the mixed materials, continuously spraying and cooling the crystals by adopting a plurality of spraying pipes in the extruding process, and controlling the temperature to be 8-30 ℃;

s7, drying: drying the cooled raw materials by using multi-stage air drying equipment;

s8, storage: and weighing and subpackaging the dried crystallized material by adopting packaging equipment.

Preferably, in the step S1, selecting translucent corundum, cleaning and air-drying the semi-translucent corundum, then crushing the raw ore to 5-10mm by using a special crusher, then placing the crushed raw ore in a low-speed stirring container, preparing a triethanolamine solution with a certain concentration for soaking, taking out the soaked raw ore for natural air-drying, performing ball-milling work by using a special ball mill, and finally sieving the raw ore by using a 200-mesh 400-mesh sieve.

Preferably, in the step S1, the stabilizer is ground by a grinding device and then sieved by a 200-400-mesh screen.

Preferably, in the step S1, the mildew inhibitor is prepared by mixing phenyl mercuric oleate, 8-hydroxyquinoline copper, triethyl tin chloride and pentachlorophenol in a ratio of 1:1:1:1 by mass, grinding by a ball mill, sieving by a 200-400-mesh sieve, and mixing for 20 minutes by a stirring device.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (9)

1. A special modified high polymer resin material for PE-coated moso bamboo is characterized by comprising the following components: 65-80 parts of high-molecular polyethylene resin, 5-8 parts of stabilizer, 8-15 parts of mildew inhibitor, 1-3 parts of adhesion promoter, 2-5 parts of corundum powder and 8-12 parts of nano-silver antibacterial particles.

2. The modified polymer resin material special for PE-coated moso bamboo as claimed in claim 1, wherein: the composition is prepared from the following components: 62 parts of high-molecular polyethylene resin, 6 parts of stabilizer, 15 parts of mildew preventive, 3 parts of adhesion promoter, 2 parts of corundum powder and 12 parts of nano-silver antibacterial particles.

3. The modified polymer resin material special for PE-coated moso bamboo as claimed in claim 1, wherein: the composition is prepared from the following components: 70 parts of high-molecular polyethylene resin, 6 parts of stabilizer, 10 parts of mildew preventive, 2 parts of adhesion promoter, 2 parts of corundum powder and 10 parts of nano-silver antibacterial particles in parts by weight.

4. The modified polymer resin material special for PE-coated moso bamboo as claimed in claim 1, wherein: the composition is prepared from the following components: the coating comprises, by weight, 74 parts of high-molecular polyethylene resin, 6 parts of a stabilizer, 8 parts of a mildew preventive, 2 parts of an adhesion promoter, 2 parts of corundum powder and 8 parts of nano-silver antibacterial particles.

5. The special modified polymer resin material for PE-coated moso bamboo as claimed in any one of claims 1-4, wherein: the stabilizer is lead sulfate tribasic, the mildew preventive is formed by mixing phenyl mercury oleate, 8-hydroxyquinoline copper, triethyl tin chloride and pentachlorophenol, and every 100g of the mildew preventive contains 25g of phenyl mercury oleate, 25g of 8-hydroxyquinoline copper, 25g of triethyl tin chloride and 25g of pentachlorophenol; the adhesion promoter is water-based resin.

6. The preparation method of the special modified polymer resin material for PE-coated moso bamboo as claimed in claim 1, comprising the following steps:

s1, preparing materials: preparing raw materials of 100 parts of high-molecular polyethylene resin, 10 parts of stabilizer, 20 parts of mildew preventive, 5 parts of adhesion promoter, 10 parts of corundum powder and 15 parts of nano-silver antibacterial particles;

s2, batching: weighing high-molecular polyethylene resin, a stabilizer, a mildew preventive, an adhesion promoter, corundum powder and nano-silver antibacterial particles according to the mass ratio determined by the invention by adopting a universal weighing instrument, and uniformly putting the weighed raw materials into a raw material barrel for storage;

s3, screening: the ingredients in the raw material barrel are poured into a screening device, and a 200-mesh and 400-mesh screen is used for primary mixing and screening.

S4, mixing: adding the ingredients after primary mixing and screening into a plastic mixer, mixing for 20 minutes at a low speed in the plastic mixer, simultaneously controlling the heating temperature of the materials to be between 70 and 80 ℃, fully removing moisture contained in the materials due to moisture absorption and damp, preventing the temperature of the materials from rising and adhering to the wall of a kettle and a stirring blade, and then pouring the evenly mixed ingredients into a storage bucket for later use;

s5, heating and smelting: adding the uniformly mixed ingredients in the storage barrel into an electric melting stirring furnace, controlling the temperature of the electric melting stirring furnace to be 210 ℃ until all the raw materials are in a molten state, continuously stirring for 30 minutes, and setting the air pressure to be 180 MPa;

s6, extrusion cooling: injecting the mixed raw materials into a plastic extruder, extruding and shaping the mixed materials, continuously spraying and cooling the crystals by adopting a plurality of spraying pipes in the extruding process, and controlling the temperature to be 8-30 ℃;

s7, drying: drying the cooled raw materials by using multi-stage air drying equipment;

s8, storage: and weighing and subpackaging the dried crystallized material by adopting packaging equipment.

7. The preparation method of the special modified polymer resin material for PE-coated moso bamboo according to claim 6, wherein the preparation method comprises the following steps: in the step S1, selecting semitransparent corundum, cleaning and air-drying the corundum, crushing raw ore to 5-10mm by using a special crusher, placing the crushed raw ore in a low-speed stirring container, preparing triethanolamine solution with a certain concentration for soaking, taking out the soaked raw ore for natural air drying, performing ball milling by using a special ball mill, and finally sieving by using a 200-mesh 400-mesh sieve.

8. The preparation method of the special modified polymer resin material for PE-coated moso bamboo according to claim 6, wherein the preparation method comprises the following steps: in the step S1, the stabilizer is first ground by a grinding device and then sieved by a 200-400-mesh screen.

9. The preparation method of the special modified polymer resin material for PE-coated moso bamboo according to claim 6, wherein the preparation method comprises the following steps: in the step S1, the mildew preventive is prepared by mixing phenyl mercuric oleate, 8-hydroxyquinoline copper, triethyl tin chloride and pentachlorophenol in an equal mass ratio of 1:1:1:1, grinding by a ball mill, sieving by a 200-mesh and 400-mesh sieve, and mixing for 20 minutes by a stirring device.

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