Nize to adjust the chromatic aberration in the high EpCAM/TROP1 Protein HEK 293 temperature environment. Also, the microcapsules will break and release the core temperature atmosphere. Moreover, the microcapsules will break and release the core material from the milky yellow microcapsule in the course of the aging approach, rising the material from the milky yellow microcapsule in the course of the aging approach, escalating the 12 is protection from the coating around the wood surface. Consequently, the chromatic aberrationof 19 protection from the coating around the wood surface. As a result, the chromatic aberration is changed indistinctively. changed indistinctively.Figure six.6. Influence of time on chromatic aberration of coating below 120 C aging test. Figure Influence of time on chromatic aberration of coating under 120 aging test. Figure six. Influence of time on chromatic aberration of coating beneath 120 aging test.Appl. Sci. 2021, 11, x FOR PEER REVIEW13 ofFigure 7. Influence of time on chromatic aberration of coating below 160 C aging test. Figure 7. Influence of time on chromatic aberration of coating beneath 160 aging test. Figure 7. Influence of time on chromatic aberration of coating beneath 160 aging test.Figure 8. Influence of time on chromatic aberration of coating beneath UV weather resistance test. Figure 8. Influence of time on chromatic aberration of coating under UV weather resistance test.When the coating was at 120 C, as shown in Figure 9, the light loss price of your coating When the coating was at 120 , as shown in Figure 9, the light loss rate of the coating with out microcapsule reached 19.65 for 40 h, and that with the coating with microcapsule with no microcapsule reached 19.65 for 40 h, and that of the coating with microcapsule addition of 6.0 was two.13 for 40 h. It indicates that the gloss from the paint film decreases addition of 6.0 was 2.13 for 40 h. It indicates that the gloss from the paint film decreases only slightly. As shown in Figure ten, when the coating was at 160 C, the light loss rate of only slightly. As shown in Figure 10, when the coating was at 160 , the light loss rate of the coating with no microcapsules reached 45.85 for 40 h, along with the light loss price in the coating with six.0 microcapsules reached 16.63 for 40 h. As shown in Figure 11, when the coating was within the UV climate resistance test, the light loss rate of the coating without the need of microcapsule was 19.21 for 40 h, as well as the light loss price on the coating with microcapsuleAppl. Sci. 2021, 11,13 ofthe coating with out microcapsules reached 45.85 for 40 h, plus the light loss price in the coating with six.0 microcapsules reached 16.63 for 40 h. As shown in Figure 11, when the coating was inside the UV weather resistance test, the light loss rate of your coating without microcapsule was 19.21 for 40 h, as well as the light loss price of the coating with microcapsule addition of 6.0 was three.80 for 40 h. The results show that the light loss rate of the coating improved together with the improve of aging time. Through the aging process inside the oven at 120 C, the light loss rate decreased slightly from 24 h to 32 h. It might be because the microcapsule breaks caused by the micro crack on the coating surface, as well as the outflow of core material has the outstanding repair impact around the coating. At this time, the repair effect was greater than the aging cracking strength in the coating, which decreased the gloss loss of the coating. Just after 32 h, the aging strength was nonetheless escalating, while the number of microcapsules with all the.
