CN112182874A - Method and device for improving performance of polymer material based on toughness and heat resistance - Google Patents

Abstract

The invention provides a method and a device for improving the performance of a polymer material based on toughness and heat resistance, which are characterized in that first preset parameter information of a first polymer material is obtained; obtaining importance levels of preset parameters; judging whether the first preset parameter information reaches a preset parameter importance level or not; if the importance level of the preset parameter is reached, a first measurement instruction is obtained; a first processing procedure to obtain the first polymeric material; obtaining first detection equipment information; obtaining first toughness value information of the first polymer material after the first processing procedure is finished; obtaining a preset toughness value; judging whether the first toughness value meets the preset toughness value or not; if the preset toughness value is not met, a first stopping instruction is obtained, and the processing flow of the first polymer material is stopped under the instruction of the first stopping instruction, so that the performance of the material is effectively controlled, the quality stability of the material is high, and the technical effect of industrial production is facilitated.

Description

Method and device for improving performance of polymer material based on toughness and heat resistance

Technical Field

The invention relates to the technical field of material preparation, in particular to a method and a device for improving the performance of a polymer material based on toughness and heat resistance.

Background

The special cable is a special cable which has special purposes and can be used in special occasions. The unique performance index of the special cable is more than 90% determined by the performance of the high polymer material, so the high polymer material technology for the special cable is a key core technology for manufacturing the special cable. Meanwhile, the structure of the material is determined by the equipment, the process and the material composition, the performance of the material is determined by the structure, and the performance of the material is more stable and the overall performance is more excellent by realizing the controllable preparation of the material.

However, the applicant of the present invention finds that the prior art has at least the following technical problems:

the polymer material in the prior art often has influence on the performance of the material due to the difficulty in effectively controlling the structure of the material, so that the performance is not stable enough, quality problems easily exist, and the polymer material is even related to implementation of high-end manufacturing strategies in China, guarantee of national safety and development of high technology.

Disclosure of Invention

The embodiment of the invention provides a method and a device for improving the performance of a polymer material based on toughness and heat resistance, solves the technical problems that the performance of the material is not stable enough and the quality problem is easy to exist due to the fact that the processing of the material is difficult to realize effective control in the prior art, achieves the technical effects of effectively controlling the performance of the material, enabling the quality stability of the material to be high and being beneficial to industrial production.

In view of the above, embodiments of the present application are proposed to provide a method and apparatus for improving the properties of polymer materials based on toughness and heat resistance.

In a first aspect, the present invention provides a method for improving the performance of a polymer material based on toughness and heat resistance, which is applied to a processing management platform, wherein the processing management platform is respectively in communication connection with a first detection device and a second detection device, and the method includes: obtaining first preset parameter information of a first polymer material, wherein the first preset parameter information is toughness parameter information; obtaining importance levels of preset parameters; judging whether the first preset parameter information reaches the importance level of the preset parameter; if the importance level of the preset parameter is reached, a first measurement instruction is obtained; obtaining a first processing procedure for the first polymeric material, wherein the first processing procedure has a first degree of influence on the toughness of the first polymeric material; obtaining first detection device information of the first polymer material, wherein the first detection device is a toughness detection device; according to the first measurement instruction, obtaining first toughness value information of the first polymer material through the first detection device after the first processing program is finished; obtaining a preset toughness value of the first polymer material; comparing the first toughness value with the preset toughness value, and judging whether the first toughness value meets the preset toughness value; and if the preset toughness value is not met, obtaining a first stopping instruction, and stopping the processing flow of the first polymer material under the instruction of the first stopping instruction.

In a second aspect, the present invention provides an apparatus for enhancing the properties of a polymeric material based on toughness and heat resistance, the apparatus comprising:

a first obtaining unit, configured to obtain first preset parameter information of a first polymer material, where the first preset parameter information is toughness parameter information;

a second obtaining unit, configured to obtain a preset parameter importance level;

the first judging unit is used for judging whether the first preset parameter information reaches the importance level of the preset parameter;

a third obtaining unit, configured to obtain a first measurement instruction if the importance level of the preset parameter is reached;

a fourth obtaining unit, configured to obtain a first measurement instruction if the importance level of the preset parameter is reached;

a fifth obtaining unit for obtaining a first processing procedure of the first polymer material, wherein the first processing procedure has a first influence degree with the toughness of the first polymer material;

a sixth obtaining unit configured to obtain first detection device information of the first polymer material, wherein the first detection device is a toughness detection device;

a seventh obtaining unit for obtaining a preset toughness value of the first polymer material;

a second judging unit, configured to compare the first toughness value with the preset toughness value, and judge whether the first toughness value satisfies the preset toughness value;

an eighth obtaining unit, configured to obtain a first stopping instruction if the preset toughness value is not met, and stop the processing flow of the first polymer material under the instruction of the first stopping instruction.

In a third aspect, the present invention provides an apparatus for improving the performance of a polymer material based on toughness and heat resistance, comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor implements the steps of the method of the first aspect when executing the program.

One or more technical solutions in the embodiments of the present application have at least one or more of the following technical effects:

according to the method and the device for improving the performance of the polymer material based on toughness and heat resistance, provided by the embodiment of the invention, through obtaining the first preset parameter information of the first polymer material, wherein the first preset parameter information is the toughness parameter information, the importance level of the preset parameter is further obtained, then whether the first preset parameter information reaches the importance level of the preset parameter is judged, if the first preset parameter information reaches the importance level of the preset parameter, the first measurement instruction is obtained, namely, the processing process influencing the first preset parameter needs to be strictly controlled at the moment, so that the phenomenon that the quality does not reach the standard after the material is processed is avoided, the phenomenon that the tracing reason is inconvenient is avoided, and the yield of the material is improved; further, a first processing procedure of the first polymer material is obtained, wherein a first influence degree exists between the first processing procedure and the toughness of the first polymer material; obtaining first detection equipment information of a first polymer material, wherein the first detection equipment is toughness detection equipment; after the first measurement instruction is obtained and the first processing program is finished, detecting a first preset parameter value of the first polymer material through first detection equipment to obtain first toughness value information of the first polymer material, comparing the first toughness value with a preset toughness value, and judging whether the first toughness value meets the preset toughness value or not; if the preset toughness value is not met, a first stopping instruction is obtained, the processing flow of the first polymer material is stopped under the instruction of the first stopping instruction, and the quality problem caused by continuous processing is prevented.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

FIG. 1 is a schematic flow chart of a method for improving the properties of a polymer material based on toughness and heat resistance according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an apparatus for improving the properties of a polymer material based on toughness and heat resistance according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another exemplary electronic device in an embodiment of the present invention.

Description of reference numerals: a first obtaining unit 11, a second obtaining unit 12, a first judging unit 13, a third obtaining unit 14, a fourth obtaining unit 15, a fifth obtaining unit 16, a sixth obtaining unit 17, a seventh obtaining unit 18, a second judgment obtaining unit 19, an eighth obtaining unit 20, a receiver 301, a processor 302, a transmitter 303, a memory 304, and a bus interface 306.

Detailed Description

The embodiment of the invention provides a method and a device for improving the performance of a polymer material based on toughness and heat resistance, which are used for solving the technical problems that the performance of the material is not stable enough and the quality problem is easy to exist because the processing of the material is difficult to realize effective control in the prior art, so that the performance of the material is effectively controlled, the quality stability of the material is high, and the technical effect of being beneficial to industrial production is achieved. Hereinafter, example embodiments according to the present application will be described in detail with reference to the accompanying drawings. It should be apparent that the described embodiments are merely some embodiments of the present application and not all embodiments of the present application, and it should be understood that the present application is not limited to the example embodiments described herein.

Summary of the application

The special cable is a special cable which has special purposes and can be used in special occasions. The unique performance index of the special cable is more than 90% determined by the performance of the high polymer material, so the high polymer material technology for the special cable is a key core technology for manufacturing the special cable. Meanwhile, the structure of the material is determined by the equipment, the process and the material composition, the performance of the material is determined by the structure, and the performance of the material is more stable and the overall performance is more excellent by realizing the controllable preparation of the material. However, the polymer material in the prior art often has an influence on the performance of the material due to the difficulty in effectively controlling the structure of the material, so that the performance is not stable enough, and quality problems easily exist, even the implementation of high-end manufacturing strategies in China, the guarantee of national safety and the development of high technology are concerned.

In order to solve the technical problems, the technical scheme provided by the invention has the following general idea:

the embodiment of the application provides a method for improving the performance of a polymer material based on toughness and heat resistance, which comprises the following steps: obtaining first preset parameter information of a first polymer material, wherein the first preset parameter information is toughness parameter information; obtaining importance levels of preset parameters; judging whether the first preset parameter information reaches the importance level of the preset parameter; if the importance level of the preset parameter is reached, a first measurement instruction is obtained; obtaining a first processing procedure for the first polymeric material, wherein the first processing procedure has a first degree of influence on the toughness of the first polymeric material; obtaining first detection device information of the first polymer material, wherein the first detection device is a toughness detection device; according to the first measurement instruction, obtaining first toughness value information of the first polymer material through the first detection device after the first processing program is finished; obtaining a preset toughness value of the first polymer material; comparing the first toughness value with the preset toughness value, and judging whether the first toughness value meets the preset toughness value; and if the preset toughness value is not met, obtaining a first stopping instruction, and stopping the processing flow of the first polymer material under the instruction of the first stopping instruction.

After the fundamental principle of the present application is introduced, the technical solutions of the present invention are described in detail with reference to the accompanying drawings and specific embodiments, and it should be understood that the specific features in the embodiments and examples of the present application are detailed descriptions of the technical solutions of the present application, and are not limitations of the technical solutions of the present application, and the technical features in the embodiments and examples of the present application may be combined with each other without conflict.

Example one

FIG. 1 is a schematic flow chart of a method for improving the properties of a polymer material based on toughness and heat resistance according to an embodiment of the present invention. As shown in fig. 1, an embodiment of the present invention provides a method for improving performance of a polymer material based on toughness and heat resistance, where the method is applied to a processing management platform, and the processing management platform is respectively in communication connection with a first detection device and a second detection device, and the method includes:

step 100: obtaining first preset parameter information of a first polymer material, wherein the first preset parameter information is toughness parameter information;

specifically, the processing management platform is an intelligent control unit in this embodiment, the processing management platform can monitor and control the whole processing process of the polymer material, and the processing management platform can analyze and process data in a big data and cloud computing manner, so as to control the whole processing process intelligently. Further, the first preset parameter information is toughness parameter information of the polymer material, wherein the physical concept of toughness is to express the capacity of the material to absorb energy in the plastic deformation and fracture process. The better the toughness, the less likely brittle fracture will occur. Toughness, which can be found in material science and metallurgy, refers to the resistance of a material to fracture when subjected to a force that deforms it, and is defined as the ratio of the energy that the material can absorb to the volume before fracture. Therefore, the first preset parameter information is a parameter to be examined and detected for the polymer material to be prepared.

Step 200: obtaining importance levels of preset parameters;

specifically, the preset parameter importance level is a classification of the importance level of the preset parameter related to the polymer material, that is, the influence degree of the performance of the polymer material is different for different parameters. The parameter information of the material includes, but is not limited to, thickness, density, melting point, thermal conductivity, electrical conductivity, thermal expansion, magnetism, cross-sectional area, composition, phase structure, plasticity, toughness, fatigue strength, heat resistance, hardness, and the like. The different parameters mentioned above also differ in their influence on the quality of the material. Therefore, in practical applications, the importance of different parameters needs to be classified to obtain a preset parameter importance level, so as to analyze and monitor the performance and quality of the polymer material more specifically at a later stage.

Step 300: judging whether the first preset parameter information reaches the importance level of the preset parameter;

further, in order to achieve the effects of enhancing data accuracy and accurately judging parameter level information, step 300 in the embodiment of the present application further includes:

step 310: inputting the first preset parameter information into a training model, wherein the training model is obtained by training a plurality of groups of training data, and each group of training data in the plurality of groups comprises: the first preset parameter information and identification information used for identifying the importance level of the parameter; (ii) a

Step 320: obtaining output information of the training model, wherein the output information comprises the importance level of the first preset parameter;

step 330: and comparing the importance level of the first preset parameter with the importance level of the preset parameter, and judging whether the first preset parameter information reaches the importance level of the preset parameter.

Specifically, the importance level information of the first preset parameter is output through the neural network model by acquiring the first preset parameter information of the polymer material, and then whether the first preset parameter information reaches the importance level of the preset parameter can be judged by comparing the importance level information with the importance level of the preset parameter.

Furthermore, the training model is a neural network model in a machine learning model, and the machine learning model can continuously correct the model through continuous learning of a large amount of data, so that satisfactory experience is finally obtained to process other data. The machine model is obtained by training a plurality of groups of training data, and the process of training the neural network model by the training data is essentially a process of supervised learning. The training model in the embodiment of the application is obtained by utilizing machine learning training through a plurality of groups of training data, and each group of training data in the plurality of groups comprises: first preset parameter information and identification information for identifying an importance level of a parameter. Wherein the identification information of the importance level of the parameter is used as supervision data.

Further, the identification information of the importance level of the parameter is used as supervision data and is input into each group of training data, supervision learning is carried out on the first input information and the second input information, the identification information of the importance level of the parameter is compared with the output result of the training model, when the identification information of the importance level of the parameter is consistent with the output result of the training model, the supervision learning of the group of data is finished, and the supervision learning of the next group of data is carried out; when the two sets of data are inconsistent, the training model carries out self-correction until the output result is consistent with the importance level information of the first preset parameter of the identification, the supervised learning of the group is finished, and the supervised learning of the next group of data is carried out; and (4) through supervised learning of a large amount of data, enabling the output result of the machine learning model to reach a convergence state, and finishing the supervised learning. Through the process of supervising and learning the training model, the importance level information of the first preset parameter output by the training model is more accurate, the accurate importance level information of the first preset parameter is obtained, and the effects of data analysis and judgment in the later period are facilitated.

Step 400: if the importance level of the preset parameter is reached, a first measurement instruction is obtained;

specifically, when the importance of the first preset parameter reaches the importance level of the preset parameter, it indicates that the influence degree of the first preset parameter on the performance and quality of the polymer material reaches the threshold range, that is, the processing procedure influencing the first preset parameter needs to be strictly controlled. And then, a first measurement instruction can be generated, and then the real-time measurement is carried out on the processing process influencing the first preset parameter, so that the phenomenon that the quality does not reach the standard after the material processing is finished and the reason is inconvenient to trace is avoided, and the yield of the material is improved.

Step 500: obtaining a first processing procedure for the first polymeric material, wherein the first processing procedure has a first degree of influence on the toughness of the first polymeric material;

specifically, the first processing procedure is a processing procedure that has a certain influence on the first preset parameter of the first polymer material, in other words, after monitoring and controlling the first processing procedure, it can be ensured that the polymer material with good toughness can be obtained subsequently. Therefore, there is a first degree of influence between the first processing procedure and the toughness of the first polymer material, and the first degree of influence reaches a threshold value of the degree of influence. In the actual operation process, if the first processing program is not only one, namely, the second, third, fourth and the like may exist, the processing programs with the influence degrees exceeding the influence degree threshold value are all controlled and detected, so that the quality condition of the material can be accurately evaluated in the later period, and the effect of providing objective evidence for further improving and optimizing the quality and performance of the material is achieved.

Step 600: obtaining first detection device information of the first polymer material, wherein the first detection device is a toughness detection device;

particularly, first check out test set is the device that monitors first preset parameter to first polymer material promptly, and in actual course of working, first check out test set and processing management platform communication are connected, can upload real-time data to processing management platform, guarantee the accuracy of data, improve detection efficiency. Furthermore, the first detection device is a toughness detection device, that is, the toughness value of the first polymer material can be obtained through the toughness detection device, and after the toughness value is obtained, corresponding data analysis and processing can be performed on the toughness value, so that post-processing preparation can be performed conveniently.

Step 700: according to the first measurement instruction, obtaining first toughness value information of the first polymer material through the first detection device after the first processing program is finished;

specifically, after the first measurement instruction is obtained and the first processing procedure is finished, the first preset parameter value of the first polymer material may be detected by the first detecting device, so as to obtain the first toughness value information of the first polymer material. In other words, in the processing and preparation process of the first polymer material, the toughness value is very important for the material performance, and therefore, in the preparation process, the toughness value needs to be strictly controlled, so that after the important program link of the first processing program is finished, additional measurement is performed on the first polymer material, so as to avoid unqualified material quality caused by problems in the subsequent processing process.

Step 800: obtaining a preset toughness value of the first polymer material;

step 900: comparing the first toughness value with the preset toughness value, and judging whether the first toughness value meets the preset toughness value;

step 1000: and if the preset toughness value is not met, obtaining a first stopping instruction, and stopping the processing flow of the first polymer material under the instruction of the first stopping instruction.

Specifically, after the first toughness value is obtained, the first toughness value needs to be compared with a preset toughness value for judgment. At this time, a preset toughness value of the first polymer material needs to be correspondingly obtained, wherein the preset toughness value is a preset toughness value of the first polymer material, then comparing the first toughness value with a preset toughness value, judging whether the first toughness value meets the requirement, namely judging whether the first toughness value meets the requirement of the preset toughness value, if the requirement of the toughness value is met, the subsequent processing is continued, if the preset toughness value is not met, the reason of the problem needs to be analyzed, at the moment, a first stopping instruction needs to be generated, then stopping the processing flow of the first polymer material according to a first stopping instruction, therefore, the performance of the material is effectively controlled, the phenomenon that the subsequent material has problems is prevented, the quality stability of the material is further improved, and the industrial production is facilitated.

Further, in order to accurately control the heat resistance of the material and further improve the performance of the material, step 100 in this embodiment of the present application further includes:

step 110: obtaining second preset parameter information of the first polymer material, wherein the second preset parameter information is heat resistance parameter information;

step 120: judging whether the second preset parameter information reaches the importance level of the preset parameter or not;

step 130: if the importance level of the preset parameter is not reached, second detection equipment information of the first polymer material is obtained, wherein the second detection equipment information is heat resistance detection equipment;

step 140: obtaining a first heat resistance value of the first polymer material by the second detection device after the first polymer material is processed;

step 150: obtaining a preset heat resistance value of the first polymer material;

step 160: comparing the first heat resistance value with the preset heat resistance value, and judging whether the first heat resistance value meets the preset heat resistance value;

step 170: if yes, obtaining a first marking instruction;

step 180: and according to the first marking instruction, marking the first polymer material with a first label, wherein the first label is a heat-resistant qualified label.

Specifically, the second preset parameter information is heat resistance parameter information of the polymer material, and the second preset parameter information is a parameter that needs to be examined and detected for the polymer material to be prepared. The heat resistance refers to the property of a substance that can maintain its excellent physical and mechanical properties under the condition of being heated. The maximum use temperature of the materials used is characterized. There are different standards and test methods for different materials. Such as plastics, are generally expressed in terms of Martin heat resistance temperature. The coatings industry uses forced air constant temperature ovens or high temperature ovens which, after reaching a specified temperature and time, inspect, test, or otherwise perform other properties such as impact, bending, water immersion, salt spray tests, etc., and then represent the past and past test data. In the case of a coating material used at a relatively high temperature, heat resistance is required as an important technical index of the coating film. The importance level information of the second preset parameter is output through the neural network model by acquiring the second preset parameter information of the polymer material, and then whether the second preset parameter information reaches the importance level of the preset parameter can be judged by comparing the importance level information with the importance level of the preset parameter. If the importance level of the preset parameter is not reached, second detection equipment information needs to be obtained, wherein the second detection equipment is a device for detecting the second preset parameter of the first polymer material, and similarly, in the actual processing process, the second detection equipment is in communication connection with the processing management platform, so that real-time data can be uploaded to the processing management platform, the accuracy of the data is guaranteed, and the detection efficiency is improved. Therefore, the second detection device is a heat resistance detection device, the heat resistance value of the first polymer material can be obtained through the heat resistance detection device, and after the heat resistance value is obtained, corresponding data analysis and processing can be performed on the heat resistance value. After the first polymer material is processed, obtaining a first heat resistance value of the first polymer material through a second detection device; after the first heat resistance value is obtained, the first heat resistance value needs to be compared with a preset heat resistance value for judgment. At this time, a preset heat resistance value of the first polymer material needs to be correspondingly obtained, wherein the preset heat resistance value is the preset heat resistance value of the first polymer material, then the first heat resistance value is compared with the preset heat resistance value, whether the first heat resistance value meets the requirement is judged, that is, whether the first heat resistance value meets the requirement of the preset heat resistance value is judged, if the requirement of the heat resistance value is met, a first marking instruction is generated, finally, a first label is marked on the first polymer material according to the first marking instruction, the first label at this time is a heat resistance qualified label, that is, label information representing that the heat resistance of the first polymer material is qualified, so that the effects of accurately controlling the heat resistance of the material and further improving the performance of the material are achieved.

Further, in order to accurately adjust, improve and optimize the processing equipment, ensure the uniformity of the material quality, and improve the yield of the material, step 900 in the embodiment of the present application further includes:

step 910: when the first toughness value meets the preset toughness value, first process parameter information is obtained, wherein the first process parameter information is current parameter information of first processing equipment in a first production line;

step 920: acquiring parameter information of second processing equipment of a second production line;

step 930: adjusting the parameter information of the second processing equipment of the second production line into first process parameter information;

step 940: and finishing the processing and preparation of the polymer material in the second production line according to the first process parameter information.

Specifically, when the first toughness value meets the preset toughness value, first process parameter information is obtained, the first process parameter information at the moment is the processing parameter information of each item of first processing equipment in the current production line, the first process parameter information is used as an optimal parameter value, then second processing equipment parameter information of a second production line is obtained, the second processing equipment parameter information is compared with the first process parameter information, whether the second processing equipment parameter information and the first process parameter information are consistent or not is judged, if the second processing equipment parameter information and the first process parameter information are not consistent, the second processing equipment parameter information of the second production line is adjusted to be the first process parameter information, and when the polymer material processing preparation in the second production line is actually used, the polymer material processing preparation in the second production line is completed according to the first process parameter information. Therefore, the optimal parameter standard in the production program is obtained, and other machines are debugged according to the standard, so that the uniformity of the product quality is further ensured, and the yield of the product is improved.

Further, in order to achieve the effect of accurately controlling the real-time data information of the processing environment, step 500 in the embodiment of the present application further includes:

step 510: acquiring real-time environmental parameter information in the processing process;

step 520: acquiring preset environment parameter information;

step 530: judging whether the preset environment parameter information is consistent with the real-time environment parameter information or not;

step 540: if not, obtaining a first deviation range;

step 550: obtaining a second influence degree of the first deviation range;

step 560: judging whether the second influence degree is within a preset influence degree range;

step 570: if so, obtaining a first processing instruction, and continuously finishing processing preparation according to the first processing instruction;

step 580: if not, a first adjusting instruction is obtained, and the real-time environment parameter information is adjusted according to the first adjusting instruction.

Specifically, in the processing process, real-time environment parameter information of an environment is acquired in real time, wherein the real-time environment parameter information includes, but is not limited to, temperature information, humidity information, pressure information, wind power information and the like, and further, preset environment parameter information needs to be acquired, wherein the preset environment parameter information is the optimal parameter information of the environment preset in the processing process, whether the real-time environment parameter information is consistent with the preset environment parameter information is further judged, if the real-time environment parameter information is not consistent with the preset environment parameter information, a first deviation range between the real-time environment parameter information and the preset environment parameter information is acquired, then a second influence degree of the first deviation range is acquired, the second influence degree is the influence degree of the first deviation range on the performance of the polymer material, if the real-time environment parameter information is not consistent with the preset environment parameter information, a first processing instruction is acquired, then the, a first adjusting instruction needs to be generated, and then the real-time environment parameter information is adjusted according to the first adjusting instruction, so that the real-time environment parameter information meets the preset condition, the real-time data information of the processing environment is further accurately controlled, and the quality of the polymer material is ensured.

Further, in order to achieve the effect of obtaining the qualified first polymer material, step 180 in this embodiment of the present application further includes:

step 181: judging whether the detection of the first polymer material is finished or not;

step 182: if not, obtaining third preset parameter information of the first polymer material, wherein the third preset parameter information is parameter information which is not detected;

step 183: obtaining a third detection value of the first polymer material according to the third preset parameter information;

step 184: judging whether the third detection value meets a preset detection threshold value or not;

step 185: if yes, obtaining a second marking instruction;

step 186: and according to the second marking instruction, marking the first polymer material with a second label, wherein the second label is a material qualified label.

Specifically, whether the detection of the first polymer material is finished or not is judged, if not, third preset parameter information of the first polymer material is obtained, wherein the third preset parameter information is related parameter information which is not detected yet for the first polymer material, then, a third detection value corresponding to the third preset parameter information is obtained, further, whether the third detection value meets a preset detection threshold value or not is judged, if yes, a second marking instruction is generated, then, a second label is marked for the first polymer material according to the second marking instruction, and the second label represents that the first polymer material is qualified, so that the detection efficiency is improved, and the phenomenon that detection items are omitted is prevented.

Further, in order to achieve the effect of obtaining the warehousing instruction, step 186 in this embodiment of the present application further includes:

step 1861: sequentially detecting each processed polymer material and obtaining a detection result;

step 1862: obtaining a first qualified rate according to the detection result;

step 1863: judging whether the first qualified rate meets a material yield threshold;

step 1864: if yes, obtaining a first warehousing instruction;

step 1865: and packing and warehousing qualified polymer materials according to the first warehousing instruction.

Specifically, after the polymer materials are processed in batches, all the processed polymer materials are sequentially detected, meanwhile, after the detection is completed, a detection result can be correspondingly obtained, then a first qualified rate is obtained according to the detection result, whether the first qualified rate meets a material yield threshold value or not is judged, if yes, a first warehousing instruction is obtained, and finally, according to the first warehousing instruction, all the qualified polymer materials are packaged in batches and then are warehoused, so that the effect of improving the management of the polymer materials is achieved.

Example two

Based on the same inventive concept as the method for improving the performance of the polymer material based on toughness and heat resistance in the previous embodiment, the present invention also provides an apparatus for improving the performance of the polymer material based on toughness and heat resistance, as shown in fig. 2, the apparatus comprising:

a first obtaining unit 11, where the first obtaining unit 11 is configured to obtain first preset parameter information of a first polymer material, where the first preset parameter information is toughness parameter information;

a second obtaining unit 12, where the second obtaining unit 12 is configured to obtain a preset parameter importance level;

a first judging unit 13, where the first judging unit 13 is configured to judge whether the first preset parameter information reaches the preset parameter importance level;

a third obtaining unit 14, where the third obtaining unit 14 is configured to obtain a first measurement instruction if the importance level of the preset parameter is reached;

a fourth obtaining unit 15, where the fourth obtaining unit 15 is configured to obtain a first measurement instruction if the importance level of the preset parameter is reached;

a fifth obtaining unit 16, configured to obtain a first processing procedure of the first polymer material, wherein the first processing procedure has a first influence on the toughness of the first polymer material;

a sixth obtaining unit 17, where the sixth obtaining unit 17 is configured to obtain first detection device information of the first polymer material, where the first detection device is a toughness detection device;

a seventh obtaining unit 18, wherein the seventh obtaining unit 18 is configured to obtain a preset toughness value of the first polymer material;

a second judging unit 19, configured to compare the first toughness value with the preset toughness value, and judge whether the first toughness value meets the preset toughness value;

an eighth obtaining unit 20, where the eighth obtaining unit 20 is configured to obtain a first stopping instruction if the preset toughness value is not met, and stop the processing flow of the first polymer material under the instruction of the first stopping instruction.

Further, the apparatus further comprises:

a ninth obtaining unit, configured to obtain second preset parameter information of the first polymer material, where the second preset parameter information is heat resistance parameter information;

a third judging unit, configured to judge whether the second preset parameter information reaches the preset parameter importance level;

a tenth obtaining unit, configured to obtain second detection device information of the first polymer material if the importance level of the preset parameter is not reached, where the second detection device information is heat resistance detection device;

an eleventh obtaining unit for obtaining, by the second detecting device, a first heat resistance value of the first polymer material after the processing of the first polymer material is completed;

a twelfth obtaining unit for obtaining a preset heat resistance value of the first polymer material;

a fourth judging unit, configured to compare the first heat resistance value with the preset heat resistance value, and judge whether the first heat resistance value satisfies the preset heat resistance value;

a thirteenth obtaining unit configured to obtain the first marking instruction if satisfied;

a first execution unit, configured to print a first label on the first polymer material according to the first marking instruction, where the first label is a heat-resistant qualified label.

Further, the apparatus further comprises:

a first training unit, configured to input the first preset parameter information into a training model, where the training model is obtained by training multiple sets of training data, and each set of training data in the multiple sets includes: the first preset parameter information and identification information used for identifying the importance level of the parameter;

a fourteenth obtaining unit, configured to obtain output information of the training model, where the output information includes an importance level of the first preset parameter;

and the fifth judging unit is used for comparing the importance level of the first preset parameter with the importance level of the preset parameter and judging whether the first preset parameter information reaches the importance level of the preset parameter.

Further, the apparatus further comprises:

a fifteenth obtaining unit, configured to obtain first process parameter information when the first toughness value meets the preset toughness value, where the first process parameter information is current parameter information of a first processing device in a first production line;

a sixteenth obtaining unit, configured to obtain second processing device parameter information of a second production line;

the first adjusting unit is used for adjusting the second processing equipment parameter information of the second production line into first process parameter information;

and the second execution unit is used for finishing the processing and preparation of the polymer material in the second production line according to the first process parameter information.

Further, the apparatus further comprises:

a seventeenth obtaining unit, configured to obtain real-time environmental parameter information in a processing process;

an eighteenth obtaining unit, configured to obtain preset environment parameter information;

a sixth judging unit, configured to judge whether the preset environment parameter information is consistent with the real-time environment parameter information;

a nineteenth obtaining unit configured to obtain a first deviation range if the first deviation range is inconsistent with the second deviation range;

a twentieth obtaining unit configured to obtain a second influence degree of the first deviation range;

a seventh judging unit, configured to judge whether the second influence degree is within a preset influence degree range;

a twenty-first obtaining unit, configured to obtain a first processing instruction if the processing instruction is in the first state, and continue to complete processing and preparation according to the first processing instruction;

and the twenty-second obtaining unit is used for obtaining a first adjusting instruction if the real-time environment parameter information is not in the state of the real-time environment parameter information, and adjusting the real-time environment parameter information according to the first adjusting instruction.

Further, the apparatus further comprises:

an eighth judging unit configured to judge whether or not detection of the first polymer material is completed;

a twenty-third obtaining unit, configured to obtain third preset parameter information of the first polymer material if the first polymer material is not finished, where the third preset parameter information is parameter information that is not detected;

a twenty-fourth obtaining unit, configured to obtain a third detection value of the first polymer material according to the third preset parameter information;

a ninth judging unit configured to judge whether the third detection value satisfies a preset detection threshold;

a twenty-fifth obtaining unit, configured to obtain a second marking instruction if the second marking instruction is satisfied;

a third execution unit, configured to apply a second label to the first polymer material according to the second marking instruction, where the second label is a material-qualified label.

Further, the apparatus further comprises:

a twenty-sixth obtaining unit, configured to sequentially detect each processed polymer material, and obtain a detection result;

a twenty-seventh obtaining unit, configured to obtain a first yield according to the detection result;

a tenth determining unit, configured to determine whether the first yield meets a material yield threshold;

a twenty-eighth obtaining unit, configured to obtain the first warehousing instruction if the first warehousing instruction is met;

and the fourth execution unit is used for performing packing and warehousing operation on each qualified polymer material according to the first warehousing instruction.

Various modifications and specific examples of the method for improving the performance of the polymer material based on toughness and heat resistance in the first embodiment of fig. 1 are also applicable to the apparatus for improving the performance of the polymer material based on toughness and heat resistance in the present embodiment, and the detailed description of the method for improving the performance of the polymer material based on toughness and heat resistance is given to those skilled in the art, so that the detailed description is omitted here for brevity.

EXAMPLE III

Based on the same inventive concept as one of the methods for improving the performance of the polymer material based on toughness and heat resistance in the foregoing embodiments, the present invention further provides an exemplary electronic device, as shown in fig. 3, including a memory 304, a processor 302, and a computer program stored in the memory 304 and executable on the processor 302, wherein the processor 302 executes the computer program to implement the steps of any one of the methods for processing the big-data based cloud platform e-commerce data.

Where in fig. 3 a bus architecture (represented by bus 300), bus 300 may include any number of interconnected buses and bridges, bus 300 linking together various circuits including one or more processors, represented by processor 302, and memory, represented by memory 304. The bus 300 may also link together various other circuits such as peripherals, voltage regulators, power management circuits, and the like, which are well known in the art, and therefore, will not be described any further herein. A bus interface 306 provides an interface between the bus 300 and the receiver 301 and transmitter 303. The receiver 301 and the transmitter 303 may be the same element, i.e., a transceiver, providing a means for communicating with various other apparatus over a transmission medium. The processor 302 is responsible for managing the bus 300 and general processing, and the memory 304 may be used for storing data used by the processor 302 in performing operations.

One or more technical solutions in the embodiments of the present application have at least one or more of the following technical effects:

according to the method and the device for improving the performance of the polymer material based on toughness and heat resistance, provided by the embodiment of the invention, first preset parameter information of a first polymer material is obtained, wherein the first preset parameter information is toughness parameter information; obtaining importance levels of preset parameters; judging whether the first preset parameter information reaches the importance level of the preset parameter; if the importance level of the preset parameter is reached, a first measurement instruction is obtained; obtaining a first processing procedure for the first polymeric material, wherein the first processing procedure has a first degree of influence on the toughness of the first polymeric material; obtaining first detection device information of the first polymer material, wherein the first detection device is a toughness detection device; according to the first measurement instruction, obtaining first toughness value information of the first polymer material through the first detection device after the first processing program is finished; obtaining a preset toughness value of the first polymer material; comparing the first toughness value with the preset toughness value, and judging whether the first toughness value meets the preset toughness value; if the preset toughness value is not met, a first stopping instruction is obtained, and the processing flow of the first polymer material is stopped under the instruction of the first stopping instruction, so that the technical problems that in the prior art, the performance is not stable enough and the quality problem is easy to exist due to the fact that the material is often influenced by the performance of the material because the material is difficult to be effectively controlled in processing are solved, the performance of the material is effectively controlled, the quality stability of the material is high, and the technical effect of industrial production is facilitated.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A method for improving the performance of a polymer material based on toughness and toughness is applied to a processing management platform, wherein the processing management platform is respectively in communication connection with a first detection device and a second detection device, and the method comprises the following steps:

obtaining first preset parameter information of a first polymer material, wherein the first preset parameter information is toughness parameter information;

obtaining importance levels of preset parameters;

judging whether the first preset parameter information reaches the importance level of the preset parameter;

if the importance level of the preset parameter is reached, a first measurement instruction is obtained;

obtaining a first processing procedure for the first polymeric material, wherein the first processing procedure has a first degree of influence on the toughness of the first polymeric material;

obtaining first detection device information of the first polymer material, wherein the first detection device is a toughness detection device;

according to the first measurement instruction, obtaining first toughness value information of the first polymer material through the first detection device after the first processing program is finished;

obtaining a preset toughness value of the first polymer material;

comparing the first toughness value with the preset toughness value, and judging whether the first toughness value meets the preset toughness value;

and if the preset toughness value is not met, obtaining a first stopping instruction, and stopping the processing flow of the first polymer material under the instruction of the first stopping instruction.

2. The method of claim 1, wherein the method further comprises:

obtaining second preset parameter information of the first polymer material, wherein the second preset parameter information is heat resistance parameter information;

judging whether the second preset parameter information reaches the importance level of the preset parameter or not;

if the importance level of the preset parameter is not reached, second detection equipment information of the first polymer material is obtained, wherein the second detection equipment information is heat resistance detection equipment;

obtaining a first heat resistance value of the first polymer material by the second detection device after the first polymer material is processed;

obtaining a preset heat resistance value of the first polymer material;

comparing the first heat resistance value with the preset heat resistance value, and judging whether the first heat resistance value meets the preset heat resistance value;

if yes, obtaining a first marking instruction;

and according to the first marking instruction, marking the first polymer material with a first label, wherein the first label is a heat-resistant qualified label.

3. The method of claim 1, wherein said determining whether the first predetermined parameter information reaches the predetermined parameter importance level comprises:

inputting the first preset parameter information into a training model, wherein the training model is obtained by training a plurality of groups of training data, and each group of training data in the plurality of groups comprises: the first preset parameter information and identification information used for identifying the importance level of the parameter;

obtaining output information of the training model, wherein the output information comprises the importance level of the first preset parameter;

and comparing the importance level of the first preset parameter with the importance level of the preset parameter, and judging whether the first preset parameter information reaches the importance level of the preset parameter.

4. The method of claim 1, wherein the method further comprises:

when the first toughness value meets the preset toughness value, first process parameter information is obtained, wherein the first process parameter information is current parameter information of first processing equipment in a first production line;

acquiring parameter information of second processing equipment of a second production line;

adjusting the parameter information of the second processing equipment of the second production line into first process parameter information;

and finishing the processing and preparation of the polymer material in the second production line according to the first process parameter information.

5. The method of claim 1, wherein the method further comprises:

acquiring real-time environmental parameter information in the processing process;

acquiring preset environment parameter information;

judging whether the preset environment parameter information is consistent with the real-time environment parameter information or not;

if not, obtaining a first deviation range;

obtaining a second influence degree of the first deviation range;

judging whether the second influence degree is within a preset influence degree range;

if so, obtaining a first processing instruction, and continuously finishing processing preparation according to the first processing instruction;

if not, a first adjusting instruction is obtained, and the real-time environment parameter information is adjusted according to the first adjusting instruction.

6. The method of claim 2, wherein after said applying a first label to said first polymeric material in accordance with said first marking instruction, said method further comprises:

judging whether the detection of the first polymer material is finished or not;

if not, obtaining third preset parameter information of the first polymer material, wherein the third preset parameter information is parameter information which is not detected;

obtaining a third detection value of the first polymer material according to the third preset parameter information;

judging whether the third detection value meets a preset detection threshold value or not;

if yes, obtaining a second marking instruction;

and according to the second marking instruction, marking the first polymer material with a second label, wherein the second label is a material qualified label.

7. The method of claim 6, wherein after applying a second label to the first polymeric material in accordance with the second marking instructions, the method further comprises:

sequentially detecting each processed polymer material and obtaining a detection result;

obtaining a first qualified rate according to the detection result;

judging whether the first qualified rate meets a material yield threshold;

if yes, obtaining a first warehousing instruction;

and according to the first warehousing instruction, performing packaging and warehousing operation on each qualified polymer material.

8. An apparatus for enhancing the properties of a polymeric material based on toughness and heat resistance, the apparatus comprising:

a first obtaining unit, configured to obtain first preset parameter information of a first polymer material, where the first preset parameter information is toughness parameter information;

a second obtaining unit, configured to obtain a preset parameter importance level;

the first judging unit is used for judging whether the first preset parameter information reaches the importance level of the preset parameter;

a third obtaining unit, configured to obtain a first measurement instruction if the importance level of the preset parameter is reached;

a fourth obtaining unit, configured to obtain a first measurement instruction if the importance level of the preset parameter is reached;

a fifth obtaining unit for obtaining a first processing procedure of the first polymer material, wherein the first processing procedure has a first influence degree with the toughness of the first polymer material;

a sixth obtaining unit configured to obtain first detection device information of the first polymer material, wherein the first detection device is a toughness detection device;

a seventh obtaining unit for obtaining a preset toughness value of the first polymer material;

a second judging unit, configured to compare the first toughness value with the preset toughness value, and judge whether the first toughness value satisfies the preset toughness value;

an eighth obtaining unit, configured to obtain a first stopping instruction if the preset toughness value is not met, and stop the processing flow of the first polymer material under the instruction of the first stopping instruction.

9. An apparatus for enhancing the properties of a polymer material based on toughness and heat resistance, comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the steps of the method according to any one of claims 1 to 7 when executing the program.

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