Magnetoelectric (ME) composites, composed of magnetostrictive and piezoelectric constituents, are a class of multifunctional smart materials that facilitate the coexistence of ferromagnetic and ferroelectric ferroic orders. This article presents temperature-dependent experimental quasi-static magnetoelectric (ME) studies conducted on a set of recently proposed novel distributed disc structured (DDS) ME composite configurations. A comparison of the normalized ME response at various temperatures reveals the effectiveness and versatility of epoxy-free DDS configurations over their epoxy-bonded counterparts in aggravated thermal environment. Additionally, it is observed that the fall in ME response with respect to temperature decreases with an increase in the number of discs.
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