A Survey of Contemporary Studies on the Mechanics of Multifunctional Composite Materials and Structures

Abstract

High-end applications for composite
materials include aviation technologies,
spaceships, and heavy equipment
manufacture. Recent breakthroughs in the
multifunctional composite field materials
(MFCMs) have shown the usage of composite
materials. Despite thorough testing, both
destructive and non-destructive, the
durability and long-term viability of such
materials, there is continual advancement in
terms of upgrades, innovations, and metal
replacement. The current study seeks to
provide an overview of subjects related to
multipurpose composite materials of the
present. The majority of the articles evaluated
are on the topic of MFCMs based on
nanomaterials. Mechanical qualities such as
structural functions, material's tensile
strength, stiffness, damping, thermal stability,
and fracture toughness are emphasized. Nonstructural characteristics include
biodegradability, thermal conductivity,
electrical conductivity, and electromagnetic
interference (EMI) shielding. The study
concluded that composite materials and
structures based on multifunctional
nanoparticles have uses, such as strong yet
lightweight aircraft wings and electric selfdriving vehicle parts and congregations, and
organic composite materials for drug
organization