@article{scholars16604, doi = {10.3390/nano12132194}, title = {Anti-Wear and Anti-Erosive Properties of Polymers and Their Hybrid Composites: A Critical Review of Findings and Needs}, note = {cited By 6}, year = {2022}, number = {13}, journal = {Nanomaterials}, volume = {12}, publisher = {MDPI}, abstract = {Erosion caused by the repeated impact of particles on the surface of a substance is a common wear method resulting in the gradual and continual loss of affected objects. It is a crucial problem in several modern industries because the surfaces of various products and materials are frequently subjected to destructively erosive situations. Polymers and their hybrid materials are suitable, in powdered form, for use as coatings in several different applications. This review paper aims to provide extensive information on the erosion behaviors of thermoset and thermoplastic neat resin and their hybrid material composites. Specific attention is paid to the influence of the properties of selected materials and to impingement parameters such as the incident angle of the erodent, the impact velocity of the erodent, the nature of the erodent, and the erosion mechanism. The review further extends the information available about the erosion techniques and numerical simulation methods used for wear studies of surfaces. An investigation was carried out to allow researchers to explore the available selection of materials and methods in terms of the conditions and parameters necessary to meet current and future needs and challenges, in technologically advanced industries, relating to the protection of surfaces. During the review, which was conducted on the findings in the literature of the past fifty years, it was noted that the thermoplastic nature of composites is a key component in determining their anti-wear properties; moreover, composites with lower glass transition, higher ductility, and greater crystallinity provide better protection against erosion in advanced surface applications. {\^A}{\copyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.}, author = {Nisa, Z. U. and Chuan, L. K. and Guan, B. H. and Ayub, S. and Ahmad, F.}, issn = {20794991}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85132829042&doi=10.3390\%2fnano12132194&partnerID=40&md5=9b2671fac94b3403055a7c45406a2f71} }