Litcius/Paper detail

Friction Stir Processing: An Eco-Efficient Route to High-Performance Surface Architectures in MMCs

S Kumar Sharma, Saša Milojević, Lokesh Kumar Sharma, Sandra Gajević, Yogesh Sharma, Mohit Sharma, Stefan Čukić, Blaža Ž. Stojanović

2026Processes6 citationsDOIOpen Access PDF

Abstract

Friction Stir Processing (FSP) has emerged as an advanced solid-state surface engineering technique for tailoring high-performance surface architectures in metal matrix composites (MMCs). By combining localized thermo-mechanical deformation with controlled material flow, FSP enables grain refinement, homogeneous dispersion of reinforcement, and strong interfacial bonding without melting or altering bulk properties. This review critically examines the role of FSP in enhancing the mechanical, tribological, and corrosion performance of composites, with emphasis on process–structure–property relationships. Key strengthening mechanisms, including grain boundary strengthening, load transfer, particle pinning, and defect elimination, are systematically discussed, along with their implications for wear resistance, fatigue life, and durability. Special attention is given to corrosion and tribo-corrosion behavior, highlighting electrochemical mechanisms such as micro-galvanic interactions, passive film stability, and interfacial chemistry. Furthermore, the eco-efficiency, industrial viability, and sustainability advantages of FSP are evaluated in comparison with conventional surface modification techniques. The review concludes by identifying critical challenges and outlining future research directions for the scalable, multifunctional, and sustainable design of composite surfaces.

Topics & Concepts

Friction stir processingMaterials scienceSurface modificationSurface engineeringCorrosionDeformation (meteorology)Composite materialComposite numberGrain boundaryMetallurgyHomogeneousDispersion (optics)Metal matrix compositeStrengthening mechanisms of materialsCoatingSevere plastic deformationSurface (topology)Grain sizeParticle (ecology)Mechanical engineeringAccumulative roll bondingSpecific strengthAluminum Alloys Composites PropertiesAdvanced Welding Techniques AnalysisAluminum Alloy Microstructure Properties