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ISSN 2689-5846

Recent Progress in Materials , Volume 8 , Issue 1 (2026)

Pages: 0

Published: April 2026

(This book is a printed edition that was published in Recent Progress in Materials)

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Cover Story: Plastic deformation in crystalline solids is reinterpreted as a consequence of intrinsic lattice metastability governed by electronic structure. In this model, atoms occupy non-equilibrium positions, enabling collective shear of atomic planes with low resistance. The approach explains the strength paradox of crystals and provides a unified link between plasticity, bonding, and electrical properties. View this paper

Volume 8,Issue 1

Open Access Original Research

A New Model for the Shear of Atomic Planes

Liubomyr Kozak

Received: 21 December 2025; Published: 18 March 2026; doi: 10.21926/rpm.2601002

Abstract

The article presents a model that describes the shear of atomic planes in crystalline solids by accounting for their electronic structure. Previous studies have shown that an isotropic distribution of valence electrons leads to a spherically symmetric interatomic potential, which affects the stability of the crystal lattice against small shear deformations. Under these conditions, lattice stability is largely determined by the crystal's surface layer. As a consequence, the resistance to atomic-p [...]

Open Access Editorial

Acknowledgment to Reviewers of Recent Progress in Materials in 2025

Recent Progress in Materials Editorial Office

Received: 04 January 2026; Published: 04 January 2026; doi: 10.21926/rpm.2601001

Abstract

The editors of Recent Progress in Materials would like to express their sincere gratitude to the following reviewers for assessing manuscripts in 2025. We greatly appreciate the contribution of expert reviewers, which is crucial to the journal's editorial process. We aim to recognize reviewer contributions through several mechanisms, of which the annual publication of reviewer names is one. Reviewers can download a certificate of recognition directly from our submission syst [...]

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A New Model for the Shear of Atomic Planes

Acknowledgment to Reviewers of Recent Progress in Materials in 2025