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Self-Healing Smart Materials - Группа авторов


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with shape memory. In this manner, epoxies and related polymers have attracted attention to be used as SMPs, because epoxies exhibit low Tg, high tolerance against deformation and low recovery stress. Therefore, epoxies have high potential to possess excellent shape memory performance. On the other hand, pristine epoxy polymers had practical application due to requirement of high strength and stiffness besides shape memory property. Thus, addition of benzoxazine monomers into epoxies may generate SMP thermosets having better properties. The compatibility of benzoxazine and epoxies was found to be high and epoxy thermosets were produced successfully. It was reported that benzoxazine resins acted as curing compounds for epoxies and copolymers with improved properties were obtained compared to pristine epoxy polymers due to the synergism between epoxies and benzoxazine resins [67–70]. Polybenzoxazine-epoxy based SMPs were fabricated by Rimdusit et al. and those SMPs exhibited better thermal stability and mechanical performance [71]. Polybenzoxazine-epoxy SMPs were synthesized by using a bisbenzoxazine derived from bisphenol A and aniline (BA-a), two different epoxies EPON 826, NGDE and Jeffamine D230 (as curative) (Scheme 2.10). All these ingredients were mixed in a mold and melted at 70 °C to obtain a homogeneous mixture prior to curing in an open-air oven. Mechanical properties, shape recovery capacity and thermal properties of the obtained SMPs were characterized (Figure 2.5). Accordingly, all of the deformed SMP samples are completely recovered to their original shapes after a few minutes suggesting a good shape recovery performance. However, increasing the amount of BA-a content in epoxy-benzoxazine mixture affected the shape recovery time in a negative manner. Because, polybenzoxazine moiety is hard and naturally would increase the rigidity of the materials, resulting in a slow shape memory response.

Schematic illustration of synthesis of polybenzoxazine-epoxy SMP. Photo depicts the polybenzoxazine-epoxy samples showing original (a), temporary (b) and recovered (c) shapes.

      Figure 2.5 Photographs of polybenzoxazine-epoxy samples showing original (a), temporary (b) and recovered (c) shapes. Copyright: CC BY-NC-SA license: https://creativecommons.org/licenses/by-nc-sa/3.0/).

Schematic illustration of synthesis of crosslinked PCL-benzoxazine.

      Shape memory properties of all PCL-polybenzoxazines, PCL-(OTs2)/ benzoxazines, were studied by bending tests both at ambient temperature and above the phase transition temperatures predetermined by dynamic mechanical analysis. Accordingly, unlike PCL-(OH2)/benzoxazine, PCL(OTs2)/benzoxazine samples softened at 100 °C and bending was much easier for high PCL containing copolymers (Figure 2.6). Thus, increasing PCL content in PCL-(OTs2)/benzoxazine improved both Sf and Sr values and among all samples for PCL-(OTs2)-80/benzoxazine-20 (80:20, w/w) was almost 100% even after several cycles. According to gel content analysis, this sample had the largest amount of polybenzoxazine bonded with PCL and the largest amount of free PCL.

      In summary, interconnected PCL and polybenzoxazine chains generated hard and soft segments required for a typical SMP system. The amount of PCL was found to be crucial for the proposed system because PCL endowed strong fixing abilities via molecular interactions between the polybenzoxazine and PCL chains. Besides, increasing PCL content augmented the bending ability of the copolymer at temperatures above PCLs melting temperature.

Photo depicts the PCL/benzoxazine materials; Bending tests of PCL-(OH2)/benzoxazine samples failed at 100 °C (top), shape recovery of PCL-(OTs2)/benzoxazine samples (bottom).

      Figure 2.6 Images for PCL/benzoxazine materials; Bending tests of PCL-(OH2)/ benzoxazine samples failed at 100 °C (top), shape recovery of PCL-(OTs2)/benzoxazine samples (bottom). (Elsevier Ltd. License number: 4790661063144).


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