CN220447402U - Multifunctional composite material structure - Google Patents

Abstract

The utility model relates to the technical field of composite materials, in particular to a multifunctional composite material structure which comprises a plurality of first pp strips, a plurality of first pet strips, a plurality of second pp strips, a plurality of second pet strips, a plurality of third pp strips and a plurality of third pet strips, wherein the plurality of second pp strips and the plurality of second pet strips are distributed on one side of the plurality of first pp strips and one side of the plurality of first pet strips, the plurality of third pp strips and the plurality of third pet strips are distributed on the other side of the plurality of first pp strips and the plurality of first pet strips, and the plurality of second pp strips and the plurality of first pet strips are laminated in a staggered manner, and meanwhile, the plurality of third pp strips and the plurality of third pet strips are laminated above the plurality of first pp strips and below the plurality of first pp strips in a staggered manner, so that the composite material is not easy to deform due to the fact that the composite materials are uniformly distributed on the other side.

Description

Multifunctional composite material structure

Technical Field

The utility model relates to the technical field of composite materials, in particular to a multifunctional composite material structure.

Background

In the coating materials, PP synthetic paper and PET film are widely used, the PP synthetic paper is made of resin such as polyolefin and inorganic filler as main raw materials through extrusion process, and meanwhile, the multifunctional material has the characteristics of plastic and paper, while the PET film has the advantages of high mechanical strength, high tensile strength, difficult deformation, high stiffness and strong impact resistance, good heat resistance, high temperature resistance, small shrinkage rate and excellent dimensional stability.

In the prior art, pp synthetic paper has the defects of poor high temperature resistance and easy variability, is unfavorable for coating and drying, and has the defects of poor softness and poor hand feeling of PET film, thus being inconvenient to use.

Disclosure of Invention

The utility model aims to provide a multifunctional composite material structure, which solves the problems that the pp synthetic paper in the prior art has the defects of intolerance to high temperature and variability, is unfavorable for coating and drying, and has the defects of poor softness and poor hand feeling and is inconvenient to use.

In order to achieve the above object, the present utility model provides a multifunctional composite material structure, which comprises a plurality of first pp strips, a plurality of first pet strips, a plurality of second pp strips, a plurality of second pet strips, a plurality of third pp strips and a plurality of third pet strips, wherein the plurality of first pp strips and the plurality of first pet strips are sequentially attached, the plurality of second pp strips and the plurality of second pet strips are sequentially attached, the plurality of third pp strips and the plurality of third pet strips are sequentially attached, the plurality of second pp strips and the plurality of second pet strips are all distributed on one side of the plurality of first pp strips and the plurality of first pet strips, and the plurality of third pp strips and the plurality of third pet strips are all distributed on the other side of the plurality of first pp strips and the plurality of first pet strips.

The multifunctional composite material structure further comprises first pp paper, a first pet film, second pp paper and a second pet film, wherein one side of the first pp paper is respectively attached to a plurality of second pp strips and a plurality of second pet strips, the first pp paper is attached to the other side of the first pp paper, one side of the second pp paper is attached to a plurality of third pp strips and a plurality of third pet strips, the second pet film is attached to one side of the third pp strips and a plurality of third pet strips, which are away from the first pp strips, and the second pet film is attached to the other side of the second pp paper.

The multifunctional composite material structure further comprises a pp paper frame and a pet frame, wherein the pp paper frame is sleeved outside the first pp strips and the third pet strips, two sides of the pp paper frame are respectively attached to the first pp paper and the second pp paper, the pet frame is sleeved outside the pp paper frame, and two sides of the pet frame are respectively attached to the first pp paper and the second pp paper.

The multifunctional composite material structure further comprises a coating component, wherein the coating component is arranged outside the first pet film and the second pet film.

The coating component comprises a plurality of polysiloxane coatings and a plurality of rare earth coatings, and the polysiloxane coatings and the rare earth coatings are sequentially coated on the first pet film and the second pet film.

According to the multifunctional composite material structure, the first pp strips and the first pet strips are laminated in a staggered mode, the second pp strips and the second pet strips are laminated above the first pp strips and the first pet strips in a staggered mode, the third pp strips and the third pet strips are laminated below the first pp strips and the first pet strips in a staggered mode, pp materials and pet materials are uniformly distributed and laminated, and the novel composite material is enabled to integrate the advantages of the two materials and enable the composite material to be resistant to high temperature and not easy to deform.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic overall structure of a first embodiment of the present utility model.

Fig. 2 is an overall cross-sectional view of a first embodiment of the present utility model.

Fig. 3 is a cross-sectional view taken along line A-A of fig. 2 in accordance with the present utility model.

Fig. 4 is a schematic overall structure of a second embodiment of the present utility model.

Fig. 5 is an overall cross-sectional view of a second embodiment of the present utility model.

101-first pp bar, 102-first pet bar, 103-second pp bar, 104-second pet bar, 105-third pp bar, 106-third pet bar, 107-first pp paper, 108-first pet film, 109-second pp paper, 110-second pet film, 111-pp paper frame, 112-pet frame, 201-polysiloxane coating, 202-rare earth coating.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

First embodiment:

referring to fig. 1 to 3, fig. 1 is a schematic overall structure of a first embodiment of the present utility model, fig. 2 is a sectional overall view of the first embodiment of the present utility model, and fig. 3 is a sectional view of fig. 2 along line A-A of the present utility model.

The utility model provides a multifunctional composite structure which comprises a plurality of first pp strips 101, a plurality of first pet strips 102, a plurality of second pp strips 103, a plurality of second pet strips 104, a plurality of third pp strips 105, a plurality of third pet strips 106, first pp paper 107, a first pet film 108, second pp paper 109, a second pet film 110, a pp paper frame 111 and a pet frame 112.

For this embodiment, the first pp strips 101 and the first pet strips 102 are laminated in a staggered manner, and the second pp strips 103 and the second pet strips 104 are laminated in a staggered manner above the first pp strips 101 and the first pet strips 102, and the third pp strips 105 and the third pet strips 106 are laminated in a staggered manner below the first pp strips 101 and the first pet strips 102, so that pp materials and pet materials are uniformly distributed and laminated.

The first pp strips 101 and the first pet strips 102 are sequentially attached, the second pp strips 103 and the second pet strips 104 are sequentially attached, the third pp strips 105 and the third pet strips 106 are sequentially attached, the second pp strips 103 and the second pet strips 104 are distributed on one sides of the first pp strips 101 and the first pet strips 102, and the third pp strips 105 and the third pet strips 106 are distributed on the other sides of the first pp strips 101 and the first pet strips 102. Through a plurality of first pp strips 101 and a plurality of first pet strips 102 are laminated in a staggered manner, a plurality of second pp strips 103 and a plurality of second pet strips 104 are laminated in a staggered manner above a plurality of first pp strips 101 and a plurality of first pet strips 102, a plurality of third pp strips 105 and a plurality of third pet strips 106 are laminated in a staggered manner below a plurality of first pp strips 101 and a plurality of first pet strips 102, and pp materials and pet materials are uniformly distributed and laminated, so that the novel composite material integrates the advantages of two materials, and the composite material is resistant to high temperature and is not easy to deform at the same time.

Next, one side of the first pp paper 107 is attached to the second pp strips 103 and the second pet strips 104, and is located on one side of the second pp strips 103 and the second pet strips 104 away from the first pp strips 101, the first pet film 108 is attached to the other side of the first pp paper 107, one side of the second pp paper 109 is attached to the third pp strips 105 and the third pet strips 106, and is located on one side of the third pp strips 105 and the third pet strips 106 away from the first pp strips 101, and the second pet film 110 is attached to the other side of the second pp paper 109. Through laminating first pp paper 107, first pet film 108, second pp paper 109 and second pet film 110, laminate the optimization to combined material's both sides, further improve combined material's performance and quality, cover a plurality of crisscross laminating materials simultaneously, become the level and smooth face, improve the use feel.

Meanwhile, the pp paper frame 111 is sleeved outside the first pp strips 101 and the third pet strips 106, two sides of the pp paper frame 111 are respectively attached to the first pp paper 107 and the second pp paper 109, the pet frame 112 is sleeved outside the pp paper frame 111, and two sides of the pet frame 112 are respectively attached to the first pp paper 107 and the second pp paper 109. The pp paper frame 111 and the pet frame 112 cover the first pp strip 101, the first pet strip 102, the second pp strip 103, the second pet strip 104, the third pp strip 105 and the third pet strip 106, which are laminated in a staggered manner, so that the side surfaces of the first pp strip 101, the first pet strip 102, the second pet strip 103, the third pet strip 105 and the third pet strip 106 are flat, and the using hand feeling is improved.

When the composite material is bonded by using the method, the first ppy strips 101 and the first pet strips 102 are bonded in a staggered mode, the second ppy strips 103 and the second pet strips 104 are bonded in a staggered mode on the first ppy strips 101 and the first pet strips 102, the third ppy strips 105 and the third pet strips 106 are bonded in a staggered mode on the first ppy strips 101 and the first pet strips 102, the ppy materials and the pet materials are uniformly distributed and bonded under the first ppy strips 101 and the first pet strips 102, bonding optimization is conducted on two sides of the composite material through bonding the first ppy paper 107, the first pet film 108, the second ppy paper 109 and the second pet film 110, the performance and quality of the composite material are further improved, meanwhile, the materials which are bonded in a staggered mode are covered into a flat surface, a pp paper frame 111 and a second ppy paper frame are improved, the first ppy strips 103 are bonded into a new touch-resistant surface, and the second ppy strips 102 are deformed, and the first ppy strips and the second ppy strips are deformed into the composite material is provided with the first ppy strips and the second ppy strips 102.

Second embodiment:

on the basis of the first embodiment, please refer to fig. 4 and 5, wherein fig. 4 is a schematic overall structure of the second embodiment of the present utility model, and fig. 5 is a sectional overall view of the second embodiment of the present utility model.

The present utility model provides a multifunctional composite structure, further comprising a coating assembly comprising a plurality of polysiloxane coatings 201 and a plurality of rare earth coatings 202.

For this embodiment, the coating assembly is disposed outside of the first pet film 108 and the second pet film 110. The coating assembly is further optimized for the composite material, and high temperature resistance and corrosion resistance are improved.

Wherein a plurality of the polysiloxane coating layers 201 and a plurality of the rare earth coating layers 202 are sequentially coated on the first pet film 108 and the second pet film 110. The polysiloxane coating 201 has corrosion resistance, and the rare earth coating 202 has heat insulation and high temperature resistance.

When the utility model is used for coating, the polysiloxane coating 201 has corrosion resistance, the rare earth coating 202 has heat insulation and high temperature resistance, and after the rare earth coating is sequentially coated, the high temperature resistance and the corrosion resistance of the composite material can be improved, and the use experience is improved.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (5)

1. A multifunctional composite material structure is characterized in that,

including a plurality of first pp strips, a plurality of first pet strips, a plurality of second pp strips, a plurality of second pet strips, a plurality of third pp strips and a plurality of third pet strips, a plurality of first pp strips and a plurality of first pet strips laminate in proper order, a plurality of second pp strips and a plurality of second pet strips laminate in proper order, a plurality of third pp strips and a plurality of third pet strips laminate in proper order, a plurality of second pp strips and a plurality of second pet strips all distribute in a plurality of first pp strips and a plurality of one side of first pet strips, a plurality of third pp strips and a plurality of third pet strips all distribute in a plurality of first pp strips and a plurality of other side of first pet strips.

2. The multi-functional composite structure of claim 1, wherein,

the multifunctional composite material structure further comprises first pp paper, a first pet film, second pp paper and a second pet film, wherein one side of the first pp paper is respectively attached to a plurality of second pp strips and a plurality of second pet strips, the first pp paper is attached to the other side of the first pp paper, one side of the second pp paper is attached to a plurality of third pp strips and a plurality of third pet strips, the second pet film is attached to one side of the third pp strips and a plurality of third pet strips, which are away from the first pp strips, and the second pet film is attached to the other side of the second pp paper.

3. The multi-functional composite structure of claim 2, wherein,

the multifunctional composite material structure further comprises a pp paper frame and a pet frame, wherein the pp paper frame is sleeved outside the first pp strips and the third pet strips, two sides of the pp paper frame are respectively attached to the first pp paper and the second pp paper, the pet frame is sleeved outside the pp paper frame, and two sides of the pet frame are respectively attached to the first pp paper and the second pp paper.

4. A multi-functional composite structure as claimed in claim 3, wherein,

the multifunctional composite structure further comprises a coating component, wherein the coating component is arranged outside the first pet film and the second pet film.

5. The multi-functional composite structure of claim 4, wherein,

the coating component comprises a plurality of polysiloxane coatings and a plurality of rare earth coatings, and the polysiloxane coatings and the rare earth coatings are sequentially coated on the first pet film and the second pet film.