A Comprehensive Review of Self-Healing Polymer, Metal, and Ceramic Matrix Composites and Their Modeling Aspects for Aerospace Applications.

Paladugu, Sri Ram Murthy; Sreekanth, P. S. Rama; Sahu, Santosh Kumar; Naresh, K.; Karthick, S. Arun; Venkateshwaran, N.; Ramoni, Monsuru; Mensah, Rhoda Afriyie; Das, Oisik; Shanmugam, Ragavanantham

Composites can be divided into three groups based on their matrix materials, namely polymer, metal and ceramic. Composite materials fail due to micro cracks. Repairing is complex and almost impossible if cracks appear on the surface and interior, which minimizes reliability and material life. In order to save the material from failure and prolong its lifetime without compromising mechanical properties, self-healing is one of the emerging and best techniques. The studies to address the advantages and challenges of self-healing properties of different matrix materials are very limited; however, this review addresses all three different groups of composites. Self-healing composites are fabricated to heal cracks, prevent any obstructed failure, and improve the lifetime of structures. They can self-diagnose their structure after being affected by external forces and repair damages and cracks to a certain degree. This review aims to provide information on the recent developments and prospects of self-healing composites and their applications in various fields such as aerospace, automobiles etc. Fabrication and characterization techniques as well as intrinsic and extrinsic self-healing techniques are discussed based on the latest achievements, including microcapsule embedment, fibers embedment, and vascular networks self-healing.

SELF-healing materials; SURFACE cracks; CERAMICS; FRACTURE mechanics; COMPOSITE materials; METALS

Materials (1996-1944), 2022, Vol 15, Issue 23, p8521

1996-1944

Academic Journal

10.3390/ma15238521