Environmental Factors and Performance of Polymer Materials in Intelligent Artificial Climate Chamber
The artificial climate exposure test of polymer materials is a method to evaluate the relationship between the performance of materials and the environment that is developed to supplement or even replace natural weather exposure tests. It uses intelligent artificial climate chamber devices (hereafter referred to as devices) that simulate and enhance ground meteorological factors such as light, heat, and precipitation to accelerate aging of materials and expect to realize material-to-material in a shorter time than natural weather exposure tests. Evaluation.
After the introduction of the first intelligent artificial weather box, manufacturers have introduced new types of devices along with advances in optical, electrical, and mechanical technologies. However, as devices have been widely used, their functions and values ​​have continued to contend. So far, smart artificial climate chambers have become even more sophisticated. Multi-material research has yet to be innovatively developed. For many people, the reason for being attracted by intelligent artificial climate boxes is that they are contrary to natural climate factors that are not controlled.
The setting procedure of the environmental factors in the intelligent artificial climate chamber depends on the orderly establishment of the relationship between the performance of the polymer material and the environment. It is expected that it is a controllable means for measuring the outdoor life of the material, and that the polymer Against the backdrop of continuous improvement in stability, attempts are made to use the acceleration of intelligent artificial climate chambers to shorten the longer and longer time for the evaluation of stabilized polymers.
In this regard, there are pressures that material users cannot ignore, and they often require prior knowledge of the material's durability. Persons who are cautiously or reservedly attentive to the results of intelligent artificial climate chamber tests believe that the device's ability to simulate natural climate is limited, and it is particularly difficult to coordinate natural climate simulations (analogues) and acceleration.
After the introduction of the first intelligent artificial weather box, manufacturers have introduced new types of devices along with advances in optical, electrical, and mechanical technologies. However, as devices have been widely used, their functions and values ​​have continued to contend. So far, smart artificial climate chambers have become even more sophisticated. Multi-material research has yet to be innovatively developed. For many people, the reason for being attracted by intelligent artificial climate boxes is that they are contrary to natural climate factors that are not controlled.
The setting procedure of the environmental factors in the intelligent artificial climate chamber depends on the orderly establishment of the relationship between the performance of the polymer material and the environment. It is expected that it is a controllable means for measuring the outdoor life of the material, and that the polymer Against the backdrop of continuous improvement in stability, attempts are made to use the acceleration of intelligent artificial climate chambers to shorten the longer and longer time for the evaluation of stabilized polymers.
In this regard, there are pressures that material users cannot ignore, and they often require prior knowledge of the material's durability. Persons who are cautiously or reservedly attentive to the results of intelligent artificial climate chamber tests believe that the device's ability to simulate natural climate is limited, and it is particularly difficult to coordinate natural climate simulations (analogues) and acceleration.
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