CN216466730U - High-strength high-temperature-resistant PE film - Google Patents

High-strength high-temperature-resistant PE film Download PDF

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Publication number
CN216466730U
CN216466730U CN202123058294.8U CN202123058294U CN216466730U CN 216466730 U CN216466730 U CN 216466730U CN 202123058294 U CN202123058294 U CN 202123058294U CN 216466730 U CN216466730 U CN 216466730U
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coating
membrane
layer
high temperature
polyvinyl chloride
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CN202123058294.8U
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薛晓佳
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Jiangsu Haifa New Material Technology Co ltd
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Jiangsu Haifa New Material Technology Co ltd
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Abstract

The utility model discloses a high strength high temperature resistance PE membrane, including PE membrane body, PE membrane body includes the stratum basale, and the top of stratum basale is provided with first inoxidizing coating, and simultaneously, first inoxidizing coating includes molybdenum alloy fiber layer and polyvinyl chloride coating, the bottom of stratum basale is provided with the second inoxidizing coating. The utility model discloses set up the first inoxidizing coating including molybdenum alloy fibrous layer and polyvinyl chloride coating, the polyvinyl chloride coating wherein can improve the high temperature resistance at this PE membrane top, the intensity at this PE membrane top can be improved on molybdenum alloy fibrous layer, the second inoxidizing coating including hafnia coating and polytetrafluoroethylene fibrous layer has been set up, the high temperature resistance of this PE membrane bottom can be improved on hafnia coating wherein, the intensity of this PE membrane bottom can be improved on polytetrafluoroethylene fibrous layer, through the cooperation of above structure, it is relatively poor to have solved its high temperature resistance and the bulk strength of current PE membrane, thereby its life's problem has been reduced.

Description

High-strength high-temperature-resistant PE film
Technical Field
The utility model relates to a film technical field specifically is a high strength high temperature resistance PE membrane.
Background
The film is a thin and soft transparent sheet made of plastic, adhesive, rubber or other materials, and the scientific explanation of the film is as follows: 2-dimensional materials formed by atomic, molecular, or ionic deposition on a substrate surface, for example: the PE film is widely applied to industries such as electronic and electric appliances, machinery, printing and the like, but the conventional PE film has poor high-temperature resistance and overall strength, so that the service life of the PE film is shortened.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high strength high temperature resistance PE membrane possesses long service life's advantage, has solved its high temperature resistant and the bulk strength of current PE membrane relatively poor to its life's problem has been reduced.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a high strength high temperature resistance PE membrane, includes PE membrane body, PE membrane body includes the stratum basale, and the top of stratum basale is provided with first inoxidizing coating, and simultaneously, first inoxidizing coating includes molybdenum alloy fiber layer and polyvinyl chloride coating, the bottom of stratum basale is provided with the second inoxidizing coating, and the second inoxidizing coating includes hafnia coating and polytetrafluoroethylene fiber layer.
Preferably, the molybdenum alloy fiber layer is connected to the top of the substrate layer through PP glue, and the polyvinyl chloride coating is coated on the top of the molybdenum alloy fiber layer.
Preferably, the thickness of the molybdenum alloy fiber layer is three to five times of the thickness of the polyvinyl chloride coating layer, and the thickness of the polyvinyl chloride coating layer is one hundred to two hundred micrometers.
Preferably, the polytetrafluoroethylene fiber layer is connected to the bottom of the substrate layer through PP glue, and the hafnium oxide coating is coated on the bottom of the polytetrafluoroethylene fiber layer.
Preferably, the polytetrafluoroethylene fiber layer has a thickness that is four to six times the thickness of the hafnium oxide coating, and the hafnium oxide coating has a thickness of eighty to one hundred fifty microns.
Compared with the prior art, the beneficial effects of the utility model are as follows:
the utility model discloses set up the first inoxidizing coating including molybdenum alloy fibrous layer and polyvinyl chloride coating, the polyvinyl chloride coating wherein can improve the high temperature resistance at this PE membrane top, the intensity at this PE membrane top can be improved on molybdenum alloy fibrous layer, the second inoxidizing coating including hafnia coating and polytetrafluoroethylene fibrous layer has been set up, the high temperature resistance of this PE membrane bottom can be improved on hafnia coating wherein, the intensity of this PE membrane bottom can be improved on polytetrafluoroethylene fibrous layer, through the cooperation of above structure, it is relatively poor to have solved its high temperature resistance and the bulk strength of current PE membrane, thereby its life's problem has been reduced.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of a first protective layer structure of the present invention;
fig. 3 is a schematic view of a second protective layer according to the present invention.
In the figure: the PE film comprises a PE film body 1, a base layer 11, a first protective layer 12, a molybdenum alloy fiber layer 121, a polyvinyl chloride coating 122, a second protective layer 13, a hafnium oxide coating 131 and a polytetrafluoroethylene fiber layer 132.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-3, a high-strength and high-temperature-resistant PE film includes a PE film body 1, the PE film body 1 includes a substrate layer 11, and a first protection layer 12 is disposed on a top of the substrate layer 11, meanwhile, the first protection layer 12 includes a molybdenum alloy fiber layer 121 and a polyvinyl chloride coating layer 122, the polyvinyl chloride coating layer 122 can improve the high-temperature resistance of the top of the PE film, the molybdenum alloy fiber layer 121 can improve the strength of the top of the PE film, the molybdenum alloy fiber layer 121 is connected to the top of the substrate layer 11 through PP glue, the polyvinyl chloride coating layer 122 is coated on the top of the molybdenum alloy fiber layer 121, the thickness of the molybdenum alloy fiber layer 121 is three to five times of the thickness of the polyvinyl chloride coating layer 122, the thickness of the polyvinyl chloride coating layer 122 is one hundred to two hundred micrometers, a second protection layer 13 is disposed on the bottom of the substrate layer 11, and the second protection layer 13 includes a hafnium dioxide coating 131 and a polytetrafluoroethylene fiber layer 132, hafnium dioxide coating 131 can improve the high temperature resistance of this PE membrane bottom, and polytetrafluoroethylene fiber layer 132 can improve the intensity of this PE membrane bottom, and polytetrafluoroethylene fiber layer 132 passes through PP glue and connects in the bottom of stratum basale 11, and hafnium dioxide coating 131 scribbles the bottom of locating polytetrafluoroethylene fiber layer 132, and polytetrafluoroethylene fiber layer 132's thickness is four to six times of hafnium dioxide coating 131 thickness, and hafnium dioxide coating 131's thickness is eighty to one hundred fifty microns.
During the use, set up the first inoxidizing coating 12 including molybdenum alloy fibrous layer 121 and polyvinyl chloride coating 122, polyvinyl chloride coating 122 wherein can improve the high temperature resistance at this PE membrane top, molybdenum alloy fibrous layer 121 can improve the intensity at this PE membrane top, second inoxidizing coating 13 including hafnia coating 131 and polytetrafluoroethylene fibrous layer 132 has been set up, the high temperature resistance of this PE membrane bottom can be improved to hafnia coating 131 wherein, polytetrafluoroethylene fibrous layer 132 can improve the intensity of this PE membrane bottom, cooperation through above structure, it is relatively poor with bulk strength to have solved its high temperature resistance of current PE membrane, thereby its life's problem has been reduced.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A high strength high temperature resistant PE membrane, includes PE membrane body (1), its characterized in that: PE membrane body (1) includes stratum basale (11), and the top of stratum basale (11) is provided with first inoxidizing coating (12), and simultaneously, first inoxidizing coating (12) include molybdenum alloy fibre layer (121) and polyvinyl chloride coating (122), the bottom of stratum basale (11) is provided with second inoxidizing coating (13), and second inoxidizing coating (13) include hafnia coating (131) and polytetrafluoroethylene fibre layer (132).
2. A high strength high temperature resistant PE film according to claim 1, wherein: the molybdenum alloy fiber layer (121) is connected to the top of the base layer (11) through PP glue, and the polyvinyl chloride coating (122) is coated on the top of the molybdenum alloy fiber layer (121).
3. A high strength high temperature resistant PE film according to claim 1, wherein: the thickness of the molybdenum alloy fiber layer (121) is three to five times of the thickness of the polyvinyl chloride coating (122), and the thickness of the polyvinyl chloride coating (122) is one hundred to two hundred micrometers.
4. A high strength high temperature resistant PE film according to claim 1, wherein: the polytetrafluoroethylene fiber layer (132) is connected to the bottom of the substrate layer (11) through PP glue, and the hafnium oxide coating (131) is coated on the bottom of the polytetrafluoroethylene fiber layer (132).
5. A high strength high temperature resistant PE film according to claim 1, wherein: the polytetrafluoroethylene fiber layer (132) has a thickness four to six times that of the hafnium oxide coating (131), and the hafnium oxide coating (131) has a thickness eighty to one hundred fifty microns.
CN202123058294.8U 2021-12-07 2021-12-07 High-strength high-temperature-resistant PE film Active CN216466730U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123058294.8U CN216466730U (en) 2021-12-07 2021-12-07 High-strength high-temperature-resistant PE film

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123058294.8U CN216466730U (en) 2021-12-07 2021-12-07 High-strength high-temperature-resistant PE film

Publications (1)

Publication Number Publication Date
CN216466730U true CN216466730U (en) 2022-05-10

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Application Number Title Priority Date Filing Date
CN202123058294.8U Active CN216466730U (en) 2021-12-07 2021-12-07 High-strength high-temperature-resistant PE film

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CN (1) CN216466730U (en)

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