CN111519348A - Polyester fiberboard based on jute straw waste and production process thereof - Google Patents

Abstract

The invention relates to the technical field of sound-absorbing boards, in particular to a jute straw waste-based polyester fiberboard and a production process thereof. Firstly, preparing jute fibers by using jute straw waste as a raw material, then preparing low-melting-point fibers by melt spinning, mixing, opening, carding, lapping and needling for reinforcement to obtain a fiberboard body, spraying a flame retardant on the fiberboard body, drying, calendering, cooling and cutting to obtain a polyester fiberboard; the polyester fiber board is prepared from 50-60 parts by weight of jute fiber, 40-50 parts by weight of low-melting-point fiber and more than or equal to 0.90 parts by weight of NRC sound absorption coefficient of the polyester fiber board. In the production process of the polyester fiber board, the method comprises the following steps: (1) preparing raw materials (2), mixing into a net (3), reinforcing a fiber net (4), spraying a flame retardant (5), drying, calendaring, cooling (6), and cutting and finishing. The invention is environment-friendly, energy-saving, has strong hygroscopicity and air permeability, good sound absorption effect, can effectively resist bacteria, inhibit mites, prevent mildew, insulate sound and is degradable.

Description

Polyester fiberboard based on jute straw waste and production process thereof

Technical Field

The invention relates to the technical field of sound-absorbing boards, in particular to a jute straw waste-based polyester fiberboard and a production process thereof.

Background

The polyester fiber sound-absorbing board is a decorative material which is made of polyester fiber as a raw material through hot press molding and has the sound-absorbing function. The polyester fiber acoustic board has the characteristics of sound absorption, heat insulation and heat preservation, and the board is uniform and firm in material, rich in elasticity, toughness, wear resistance, impact resistance, tearing resistance, difficult to scratch and large in board width. The sound-absorbing material has the characteristics of decoration, heat preservation, flame retardance, environmental protection, light weight, easiness in processing, stability, impact resistance, simplicity and convenience in maintenance and the like, is a preferred decoration sound-absorbing material for indoor decoration, and is widely applied to activity places gathered by the public, such as families, markets, hotels, KTVs, movie theaters, dance halls, auditoriums, multifunctional halls, gymnasiums and the like.

In the prior art, most of sound-absorbing boards are polyester fiber sound-absorbing boards with porous structures formed by fibrous, granular or foaming materials, so that the sound-absorbing effect is achieved. When the polyester fiber sound-absorbing board is made of a fibrous plastic material, the fibrous plastic material is usually stacked layer by needling, and then the fiber web formed after stacking is reinforced to finally form the polyester fiber board. The polyester fiber sound-absorbing board prepared by the method has the advantages that the holes are mainly formed by needling through a limited number of felting needles, so that the number of the holes is relatively small, and the sound-absorbing effect is poor.

Jute fiber is widely used in textile industry because of its moisture absorption, air permeability, antibacterial and ultraviolet resistance. After the jute is ripe and harvested, the bast fiber stripped from the stem of the jute can be prepared into two fibers, one is long hemp and the other is noil. The jute straws are thrown away or used for producing paper pulp to produce writing paper and printing paper, and some jute straws are even used for cooking by burning, so that the utilization value of jute is reduced. With the increasing environmental pollution, it is imperative to utilize jute straw waste to prepare degradable, sound-absorbing, flame retardant polyester fiber boards.

Patent CN 106968049A discloses a fire-retardant sound-absorbing board based on polyester fiber material and production technology thereof to old and useless plastics are the raw materials, make regeneration polyester staple fiber, regeneration low melting point skin core type polyester staple fiber through melt spinning, evenly spray the fire retardant at the upper surface of panel body, and the partial thickness of lower surface soaks the fire retardant, through the predrying, the cooling of cold wind after the press polish, obtains fire-retardant sound-absorbing board after the cutting, and the technology includes following step: (1) preparing raw materials: (2) and web formation of the mixed regenerated short fibers: (3) reinforcing the fiber net (4), spraying and impregnating a flame retardant: (5) pre-drying, press polishing and cooling: (6) and cutting and finishing. Although the patent utilizes the method of simultaneously acting spraying and immersion liquid to carry out the upper spraying and lower immersion of the fire retardant, the sound-absorbing board can effectively ensure good flame-retardant effect. But also has the following disadvantages: firstly, the sound-absorbing pores on the flame-retardant sound-absorbing plate prepared by the patent are mainly the pores caused by needling through a limited number of felting needles, so that the number of the pores is relatively small, and the sound-absorbing effect is poor. Secondly, the sound-absorbing board prepared by using waste plastics as raw materials is difficult to degrade because the waste plastics are made of plastics when a new sound-absorbing board needs to be replaced, and the environment is polluted after the waste plastics are discarded at will, so that the sound-absorbing board is not beneficial to environmental protection.

The patent CN 107160762A discloses an environment-friendly jute board applied to wall decoration and a preparation method thereof, and the jute board comprises jute fiber boards, wherein the jute fiber boards are formed by stacking and assembling jute fiber layers, and a polyester fiber layer is arranged between each jute fiber layer; the jute fiber layer has the surface density of 60-200 g/square meter and the thickness of 0.5-2 mm; the polyester fiber layer has the surface density of 70-500 g/square meter. The patent is made by needle punching jute fiber sheets after stacking jute fiber sheets and polyester fiber sheets one on top of the other. Because the jute fiber layer and the polyester fiber layer are stacked at intervals and the jute fiber and the polyester fiber are not intertwined with each other, the board prepared by the interval stacking has small and few pores and is harder, so that the air permeability is poor and the sound absorption effect is poor.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to solve the technical problem of providing the jute straw waste-based polyester fiberboard which is environment-friendly, energy-saving, extremely strong in hygroscopicity and air permeability, high in strength, good in sound absorption effect, capable of effectively resisting bacteria, inhibiting mites, preventing mildew and insulating sound and degradable, and the production process thereof.

The technical scheme adopted by the invention for realizing the purpose is as follows: a polyester fiberboard based on jute straw waste is prepared by using jute straw waste as a raw material to prepare jute fiber, then preparing low-melting-point fiber through melt spinning, mixing, opening, carding, lapping and needling reinforcement to obtain a fiberboard body, spraying a flame retardant on the fiberboard body, drying, calendering, cooling and cutting to obtain the polyester fiberboard; the polyester fiber board is prepared from, by weight, 50-60 parts of jute fibers and 40-50 parts of low-melting-point fibers, and the NRC sound absorption coefficient of the polyester fiber board is more than or equal to 0.90.

The polyester fiberboard based on the jute straw waste has the surface density of 1.6-1.8kg per square meter and the thickness of 8-10 mm.

In the polyester fiberboard based on the jute straw waste, the length of the jute fiber is 51-65mm, the fineness of the jute fiber is 6-11D, and the length of the low-melting-point fiber is 51mm, and the fineness of the low-melting-point fiber is 4D.

The polyester fiber board based on the jute straw waste is prepared from the following components, by weight, 50 parts of jute fibers and 50 parts of low-melting-point fibers.

A production process of a polyester fiberboard based on jute straw waste comprises the following steps:

(1) preparing raw materials: respectively preparing jute fiber and low-melting-point polyester fiber by using jute straw waste and waste plastic as raw materials;

(2) and mixing into a net: opening, mixing, carding and lapping the jute fiber and the low-melting-point polyester fiber prepared in the step (1) layer by layer to form net wadding with a certain thickness, and finally forming a uniform fiber net;

(3) and reinforcing the fiber net: reinforcing the fiber net prepared in the step (2) by adopting a four-needle repeated reinforcement mode to form a polyester fiber plate body;

(4) and spraying a flame retardant: uniformly spraying a flame retardant on the polyester fiber board body after needling reinforcement;

(5) drying, calendaring and cooling: continuously feeding the polyester fiber board body sprayed with the flame retardant into drying equipment and a flatting mill, drying and then heating to mix jute fibers and low-melting-point polyester fibers in the polyester fiber board body, adhering and reinforcing the jute fibers and the low-melting-point polyester fibers to each other, solidifying the flame retardant on the fibers of the polyester fiber board body, and finally cooling and molding the polyester fiber board body by a cooling roller to obtain a polyester fiber board;

(6) and cutting and finishing: and cutting the polyester fiber board according to the required size, and finishing and warehousing.

In the production process of the polyester fiber board based on the jute straw waste, the flame retardant is uniformly sprayed on the upper surface of the polyester fiber board body along the width of the polyester fiber board body, and enters the flame retardant container from the lower surface of the polyester fiber board body, so that the flame retardant permeates into the polyester fiber board body from the lower surface of the polyester fiber board body, the permeating thickness is half of the thickness of the polyester fiber board body, and the flame retardant soaks the polyester fiber board body from outside to inside.

In the production process of the polyester fiber board based on the jute straw waste, the drying temperature in the step (5) is 100-150 ℃, and the conveying speed of the polyester fiber board body in the drying equipment is 0.8-1 m/min.

In the production process of the polyester fiberboard based on the jute straw waste, the drying equipment in the step (5) comprises a first section of drying box and a second section of drying box, and the liquid waiting rate of the polyester fiber board body dried by the first section of drying box is 10%.

In the production process of the polyester fiber board based on the jute straw waste, the temperature of the first section of drying box is 100 ℃, the temperature of the second section of drying box is 120 ℃, and the conveying speed of the polyester fiber board body in the first section of drying box and the second section of drying box is 0.8 m/min.

The polyester fiberboard based on the jute straw waste and the production process thereof have the beneficial effects that: firstly, the jute straw waste is combined with the low-melting-point fiber, and the polyester fiberboard with the sound absorption and flame retardant functions is prepared after needling reinforcement and flame retardant spraying. The polyester fiberboard adopts the jute fiber straw waste, so that the raw material cost is low, the environment is protected, the energy is saved, and the jute has a porous structure and adopts a needling reinforcement technology, so that the polyester fiberboard has more pores, and the sound absorption effect is good. More importantly, after the jute fibers and the jute fibers are fused and bonded through the low-melting-point fibers, the jute fibers and the jute fibers are entangled to generate a plurality of fiber gaps, so that the number of the pores is further increased, and the porosity on the polyester fiber board is greatly improved, so that the sound absorption effect is better, and the sound absorption rate is greatly improved. Secondly, the porous structure of polyester fiber board for polyester fiber board has very strong hygroscopicity and gas permeability, and intensity is big, because jute fiber has natural antibacterial property and degradability, makes polyester fiber board not only can effectively antibiotic, suppress mite, mould proof, syllable-dividing effect, still has the degradability, thereby can effectively protect the environment.

The preparation process of the polyester fiber provided by the invention utilizes a method of simultaneously acting spraying and immersion liquid to carry out upper spraying and lower immersion of the flame retardant, so that the liquid-waiting rate of the sound-absorbing board can be reasonably controlled, the preparation is prepared for the subsequent drying process, the sound-absorbing board can be ensured to have good moldability after being dried while the good flame retardant effect is effectively ensured, the hardness reaches the standard, and the traditional phenomenon that the formation of the three-dimensional net shape of the fiber is influenced by the nonuniform melting inside the fiber due to the excessive addition of the flame retardant can be avoided. And the flame retardant is uniformly distributed in the fibers of the sound-absorbing board, so that the flame retardant effect cannot be reduced due to normal use, and the optimal integral flame retardant effect of the sound-absorbing board is ensured. The combustion performance conforms to the B1-grade regulation of GB8624, no formaldehyde emission exists, and the fiber board is degradable, so that the fiber board is high-strength environment-friendly flame-retardant fiber board with high quality and low price. Therefore, the product generated by the preparation system is environment-friendly, energy-saving, free of peculiar smell, extremely strong in hygroscopicity and air permeability, good in sound absorption effect, capable of effectively resisting bacteria, inhibiting mites, preventing mildew, insulating sound, degradable, widely applicable to the aspects of building interior decoration, flame-retardant furniture production, flame-retardant floor production, ship and vehicle interior decoration and the like, and has good economic and social benefits.

Detailed Description

The present invention will be described in further detail with reference to specific examples;

example 1

A polyester fiberboard based on jute straw waste is prepared by using jute straw waste as a raw material to prepare jute fiber, then preparing low-melting-point fiber through melt spinning, mixing, opening, carding, lapping and needling reinforcement to obtain a fiberboard body, spraying a flame retardant on the fiberboard body, drying, calendering, cooling and cutting to obtain the polyester fiberboard; the polyester fiber board is prepared from 50 parts by weight of jute fiber and 50 parts by weight of low-melting-point fiber, and the NRC sound absorption coefficient of the polyester fiber board is 0.91. The polyester fiber board has the surface density of 1.6 kg/square meter and the thickness of 8 mm. The length of the jute fiber is 51mm, the fineness of the jute fiber is 6D, the length of the low-melting-point fiber is 51mm, and the fineness of the low-melting-point fiber is 4D.

A production process of a polyester fiberboard based on jute straw waste comprises the following steps:

(1) preparing raw materials: respectively preparing jute fiber and low-melting-point polyester fiber by using jute straw waste and waste plastic as raw materials;

(2) and mixing into a net: opening, mixing, carding and lapping the jute fiber and the low-melting-point polyester fiber prepared in the step (1) layer by layer to form net wadding with a certain thickness, and finally forming a uniform fiber net; wherein the jute fiber is 50 parts by weight, the low-melting-point fiber is 50 parts by weight, the length of the low-melting-point fiber is 51mm, and the fineness is 4D;

(3) and reinforcing the fiber net: reinforcing the fiber net prepared in the step (2) by adopting a four-needle repeated reinforcement mode to form a polyester fiber plate body;

(4) and spraying a flame retardant: uniformly spraying a flame retardant on the polyester fiber board body after needling reinforcement; the spraying mode of the flame retardant is that the flame retardant is uniformly sprayed on the upper surface of the polyester fiber plate body along the width of the polyester fiber plate body, and the lower surface of the polyester fiber plate body enters the flame retardant container, so that the flame retardant permeates into the polyester fiber plate body from the lower surface of the polyester fiber plate body, the permeating thickness is half of the thickness of the polyester fiber plate body, and the flame retardant is enabled to soak the polyester fiber plate body from outside to inside;

(5) drying, calendaring and cooling: continuously feeding the polyester fiber board body sprayed with the flame retardant into drying equipment and a flatting mill, drying and then heating to mix jute fibers and low-melting-point polyester fibers in the polyester fiber board body, adhering and reinforcing the jute fibers and the low-melting-point polyester fibers to each other, solidifying the flame retardant on the fibers of the polyester fiber board body, and finally cooling and molding the polyester fiber board body by a cooling roller to obtain a polyester fiber board; the drying equipment comprises a first section of drying box and a second section of drying box, and the liquid waiting rate of the polyester fiber plate body dried by the first section of drying box is 10%; the temperature of the first section of drying box is 100 ℃, the temperature of the second section of drying box is 120 ℃, and the conveying speed of the polyester fiber plate body in the first section of drying box and the second section of drying box is 0.8 m/min;

(6) and cutting and finishing: and cutting the polyester fiber board according to the required size, and finishing and warehousing.

Example 2

A polyester fiberboard based on jute straw waste is prepared by using jute straw waste as a raw material to prepare jute fiber, then preparing low-melting-point fiber through melt spinning, mixing, opening, carding, lapping and needling reinforcement to obtain a fiberboard body, spraying a flame retardant on the fiberboard body, drying, calendering, cooling and cutting to obtain the polyester fiberboard; the polyester fiber board is prepared from 55 parts by weight of jute fiber and 45 parts by weight of low-melting-point fiber, and the NRC sound absorption coefficient of the polyester fiber board is 0.90. The polyester fiber board has the surface density of 1.7 kg/square meter and the thickness of 9 mm. The length of jute fiber was 56mm and the fineness was 8D, and the length of low melting point fiber was 51mm and the fineness was 4D.

A production process of a polyester fiberboard based on jute straw waste comprises the following steps:

(1) preparing raw materials: respectively preparing jute fiber and low-melting-point polyester fiber by using jute straw waste and waste plastic as raw materials;

(2) and mixing into a net: opening, mixing, carding and lapping the jute fiber and the low-melting-point polyester fiber prepared in the step (1) layer by layer to form net wadding with a certain thickness, and finally forming a uniform fiber net; 55 parts of jute fiber, 45 parts of low-melting-point fiber, 51mm of low-melting-point fiber and 4D of fineness;

(3) and reinforcing the fiber net: reinforcing the fiber net prepared in the step (2) by adopting a four-needle repeated reinforcement mode to form a polyester fiber plate body;

(4) and spraying a flame retardant: uniformly spraying a flame retardant on the polyester fiber board body after needling reinforcement; the spraying mode of the flame retardant is that the flame retardant is uniformly sprayed on the upper surface of the polyester fiber plate body along the width of the polyester fiber plate body, and the lower surface of the polyester fiber plate body enters the flame retardant container, so that the flame retardant permeates into the polyester fiber plate body from the lower surface of the polyester fiber plate body, the permeating thickness is half of the thickness of the polyester fiber plate body, and the flame retardant is enabled to soak the polyester fiber plate body from outside to inside;

(5) drying, calendaring and cooling: continuously feeding the polyester fiber board body sprayed with the flame retardant into drying equipment and a flatting mill, drying and then heating to mix jute fibers and low-melting-point polyester fibers in the polyester fiber board body, adhering and reinforcing the jute fibers and the low-melting-point polyester fibers to each other, solidifying the flame retardant on the fibers of the polyester fiber board body, and finally cooling and molding the polyester fiber board body by a cooling roller to obtain a polyester fiber board; the drying equipment comprises a first section of drying box and a second section of drying box, and the liquid waiting rate of the polyester fiber plate body dried by the first section of drying box is 10%; the temperature of the first section of drying box is 105 ℃, the temperature of the second section of drying box is 125 ℃, and the conveying speed of the polyester fiber plate body in the first section of drying box and the second section of drying box is 0.9 m/min;

(6) and cutting and finishing: and cutting the polyester fiber board according to the required size, and finishing and warehousing.

Example 3

A polyester fiberboard based on jute straw waste is prepared by using jute straw waste as a raw material to prepare jute fiber, then preparing low-melting-point fiber through melt spinning, mixing, opening, carding, lapping and needling reinforcement to obtain a fiberboard body, spraying a flame retardant on the fiberboard body, drying, calendering, cooling and cutting to obtain the polyester fiberboard; the polyester fiber board is prepared from 60 parts by weight of jute fiber and 40 parts by weight of low-melting-point fiber, and the NRC sound absorption coefficient of the polyester fiber board is 0.90. The polyester fiber board has the surface density of 1.8 kg/square meter and the thickness of 10 mm. The length of the jute fiber is 65mm, the fineness is 10D, the length of the low-melting-point fiber is 51mm, and the fineness is 4D.

A production process of a polyester fiberboard based on jute straw waste comprises the following steps:

(1) preparing raw materials: respectively preparing jute fiber and low-melting-point polyester fiber by using jute straw waste and waste plastic as raw materials;

(2) and mixing into a net: opening, mixing, carding and lapping the jute fiber and the low-melting-point polyester fiber prepared in the step (1) layer by layer to form net wadding with a certain thickness, and finally forming a uniform fiber net; wherein the jute fiber accounts for 60 parts by weight, the low-melting-point fiber accounts for 40 parts by weight, the length of the low-melting-point fiber is 51mm, and the fineness is 4D;

(3) and reinforcing the fiber net: reinforcing the fiber net prepared in the step (2) by adopting a four-needle repeated reinforcement mode to form a polyester fiber plate body;

(4) and spraying a flame retardant: uniformly spraying a flame retardant on the polyester fiber board body after needling reinforcement; the spraying mode of the flame retardant is that the flame retardant is uniformly sprayed on the upper surface of the polyester fiber plate body along the width of the polyester fiber plate body, and the lower surface of the polyester fiber plate body enters the flame retardant container, so that the flame retardant permeates into the polyester fiber plate body from the lower surface of the polyester fiber plate body, the permeating thickness is half of the thickness of the polyester fiber plate body, and the flame retardant is enabled to soak the polyester fiber plate body from outside to inside;

(5) drying, calendaring and cooling: continuously feeding the polyester fiber board body sprayed with the flame retardant into drying equipment and a flatting mill, drying and then heating to mix jute fibers and low-melting-point polyester fibers in the polyester fiber board body, adhering and reinforcing the jute fibers and the low-melting-point polyester fibers to each other, solidifying the flame retardant on the fibers of the polyester fiber board body, and finally cooling and molding the polyester fiber board body by a cooling roller to obtain a polyester fiber board; the drying equipment comprises a first section of drying box and a second section of drying box, and the liquid waiting rate of the polyester fiber plate body dried by the first section of drying box is 10%; the temperature of the first section of drying box is 105 ℃, the temperature of the second section of drying box is 130 ℃, and the conveying speed of the polyester fiber plate body in the first section of drying box and the second section of drying box is 1 m/min;

(6) and cutting and finishing: and cutting the polyester fiber board according to the required size, and finishing and warehousing.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention accordingly, and not to limit the protection scope of the present invention accordingly. All equivalent changes or modifications made according to the spirit of the present disclosure should be covered within the scope of the present disclosure.

Claims (9)

1. A polyester fiberboard based on jute straw waste is characterized in that: preparing jute fibers by using jute straw waste as a raw material, then preparing low-melting-point fibers by melt spinning, mixing, opening, carding, lapping and needling for reinforcement to obtain a fiberboard body, spraying a flame retardant on the fiberboard body, drying, calendering, cooling and cutting to obtain a polyester fiberboard; the polyester fiber board is prepared from, by weight, 50-60 parts of jute fibers and 40-50 parts of low-melting-point fibers, and the NRC sound absorption coefficient of the polyester fiber board is more than or equal to 0.90.

2. The polyester fiberboard of claim 1, wherein the polyester fiberboard is characterized in that: the polyester fiber board has the surface density of 1.6-1.8kg per square meter and the thickness of 8-10 mm.

3. The polyester fiberboard of claim 1, wherein the polyester fiberboard is characterized in that: the length of the jute fiber is 51-65mm, the fineness of the jute fiber is 6-11D, the length of the low-melting-point fiber is 51mm, and the fineness of the low-melting-point fiber is 4D.

4. The polyester fiberboard of claim 1, wherein the polyester fiberboard is characterized in that: the polyester fiber board is prepared from 50 parts by weight of jute fiber and 50 parts by weight of low-melting-point fiber.

5. A process for manufacturing a polyester fiberboard based on jute straw waste according to any one of claims 1 to 4, comprising the steps of:

(1) preparing raw materials: respectively preparing jute fiber and low-melting-point polyester fiber by using jute straw waste and waste plastic as raw materials;

(2) and mixing into a net: opening, mixing, carding and lapping the jute fiber and the low-melting-point polyester fiber prepared in the step (1) layer by layer to form net wadding with a certain thickness, and finally forming a uniform fiber net;

(3) and reinforcing the fiber net: reinforcing the fiber net prepared in the step (2) by adopting a four-needle repeated reinforcement mode to form a polyester fiber plate body;

(4) and spraying a flame retardant: uniformly spraying a flame retardant on the polyester fiber board body after needling reinforcement;

(5) drying, calendaring and cooling: continuously feeding the polyester fiber board body sprayed with the flame retardant into drying equipment and a flatting mill, drying and then heating to mix jute fibers and low-melting-point polyester fibers in the polyester fiber board body, adhering and reinforcing the jute fibers and the low-melting-point polyester fibers to each other, solidifying the flame retardant on the fibers of the polyester fiber board body, and finally cooling and molding the polyester fiber board body by a cooling roller to obtain a polyester fiber board;

(6) and cutting and finishing: and cutting the polyester fiber board according to the required size, and finishing and warehousing.

6. The process for manufacturing a polyester fiberboard based on jute straw waste as claimed in claim 5, wherein the process comprises the following steps: and (4) uniformly spraying the flame retardant along the width of the polyester fiber plate body on the upper surface of the polyester fiber plate body, enabling the flame retardant to penetrate into the polyester fiber plate body from the lower surface of the polyester fiber plate body, wherein the penetrating thickness is half of the thickness of the polyester fiber plate body, and enabling the flame retardant to soak the polyester fiber plate body from outside to inside.

7. The process for manufacturing a polyester fiberboard based on jute straw waste as claimed in claim 5, wherein the process comprises the following steps: the drying temperature in the step (5) is 100-150 ℃, and the conveying speed of the polyester fiber plate body in the drying equipment is 0.8-1 m/min.

8. The process for manufacturing a polyester fiberboard of claim 7, wherein the manufacturing process comprises the following steps: and (5) the drying equipment comprises a first section of drying box and a second section of drying box, and the liquid waiting rate of the polyester fiber plate body dried by the first section of drying box is 10%.

9. The process for manufacturing a polyester fiberboard of claim 8, wherein the manufacturing process comprises the steps of: the temperature of the first section of drying box is 100 ℃, the temperature of the second section of drying box is 120 ℃, and the conveying speed of the polyester fiber plate body in the first section of drying box and the second section of drying box is 0.8 m/min.