-
-
-
Open Access Article
1 - Mini-Review of Self-Healing Mechanism and Formulation Optimization of Polyurea Coating
Moein Behzadpour Mahdi Hemmatian DamghaniSelf-healing polymers are categorized as smart materials that are capable of surface protection and prevention of structural failure. Polyurethane/polyurea, as one of the representative coatings, has also attracted attention for industrial applications. Compared with po MoreSelf-healing polymers are categorized as smart materials that are capable of surface protection and prevention of structural failure. Polyurethane/polyurea, as one of the representative coatings, has also attracted attention for industrial applications. Compared with polyurethane, polyurea coating, with a similar formation process, provides higher tensile strength and requires shorter curing time. The working principle of polyurea self-healing mechanisms is to fill cracks by introducing more healing components, which can polymerize and seal damage in the material. Alternatively, it can also be addressed by encouraging continuous chemical reactions, which can form bonds to close gaps between the separated faces of material due to the damage. In this paper, extrinsic and intrinsic mechanisms are reviewed to address the efficiency of the self-healing process. Furthermore, the extrinsic and intrinsic mechanisms have been compared to attain a better understanding of the advantages and limitations of each mechanism. Moreover, formulation optimization and strategic improvement to ensure self-healing within a shorter period of time with acceptable recovery of mechanical strength are also discussed. The choice and ratio of diisocyanates, as well as the choice of chain extender, are believed to have a crucial effect on the acceleration of the self-healing process and enhance self-healing efficiency during the preparation of polyurea coatings. Manuscript profile -
Open Access Article
2 - Self-Healing Polymer Electrolytes used in Lithium-Ion Batteries
Maral Ghahramani Mobina RazaniLithium-ion batteries, as one of the most advanced and suitable rechargeable batteries, have received considerable attention in recent years. Polymer electrolytes are considered as one of the main components of the battery and good substitute for liquid electrolytes in MoreLithium-ion batteries, as one of the most advanced and suitable rechargeable batteries, have received considerable attention in recent years. Polymer electrolytes are considered as one of the main components of the battery and good substitute for liquid electrolytes in the next generations of batteries. The polymer electrolytes used in the battery may be damaged or lose performance due to the alternating movement of ions or physical damage. To avoid the damages caused by this phenomenon, the use of self-healing polymer electrolytes is suggested as a appropriate solution. The ability of self-healing in the polymer electrolytes makes them start to repair themselves as soon as a craze or crack occurs on their surface, without the need for any stimulus, and even after repair, they are able to recover all their properties. This ability comes from the microstructure and type of chemical bonds of self-healing polymers. In general, the self-healing polymer electrolytes used in batteries are divided into two main categories: polymer electrolytes based on reversible covalent bonds, and polymer electrolytes based on non-covalent supramolecular bond type. Considering the importance of this issue, in this research, a review of self-healing polymer electrolytes in the next generation of lithium batteries will be done. Manuscript profile
List of Articles self-healing
-
The rights to this website are owned by the Raimag Press Management System.
Copyright © 2017-2024