De-stabilization of charge-order state through in-homogeneity in random ionic distribution in the particles of polycrystalline $$\hbox {Eu}_{0.2}\hbox {La}_{0.3}\hbox {Sr}_{0.2}\hbox {Ca}_{0.3}\hbox {MnO}_{3}$$Eu0.2La0.3Sr0.2Ca0.3MnO3 sample

In this study the perovskite manganite $$\hbox {Eu}_{0.2}\hbox {La}_{0.3}\hbox {Sr}_{0.2}\hbox {Ca}_{0.3}\hbox {MnO}_{3}$$ batch integrated sample is studied, with special modification done to introduce localized structural strain without micro-level (grains) modification. This consequence successfully generates opposite nature of high orthorhombic strain along b-axis in these samples, although the general structure is same for both with Pnma space group. The sharp magnetic transitions (both Curie temperature and charge-order transition) are reported to be mixed in presence of random ionic distribution in its structure. The diffused insulator-metal behaviour, de-stabilization of magnetic state and phase transitions associated with inherent anisotropic strain is discussed and is explained based on chemical disorder-induced structural strain in the present system.