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Integrated Physical–Mechanical Characterization of Fruits for Enhancing Post-Harvest Quality and Handling Efficiency

Mohamed Ghonimy, Raed Alayouni, Garsa Alshehry, Hassan Barakat, Mohamed Ibrahim

2025Foods13 citationsDOIOpen Access PDF

Abstract

Quality and mechanical resilience are crucial for reducing losses in fruit production and for supporting food chains. Indeed, integrating empirical data with rheological models bridges gaps in fruit processing equipment design. Therefore, the objective of this research is to analyze the relationship between the mechanical and physical properties of seven economically important fruits-nectarine, kiwi, cherry, apple, peach, pear, and apricot-to assess their mechanical behavior and post-harvest quality. Standardized compression, creep, and puncture tests were conducted to establish mechanical parameters, such as rupture force, elasticity, and deformation energy. Physical characteristics including size, weight, density, and moisture content were also measured. The results indicated significant differences among the various categories of fruits; apples and pears were most suitable for mechanical harvesting and long storage periods, whereas cherries and apricots were least resistant and susceptible to injury. Correlations were high among the physical measurements, tissue firmness, and viscoelastic properties, thereby confirming structural properties' contribution in influencing fruit quality and handling efficiency. The originality of this research is in its holistic examination of physical and mechanical properties under standardized testing conditions, thus offering an integrated framework for enhancing post-harvest operations. These findings offer practical insights for optimizing harvesting, packaging, transportation, and quality monitoring strategies based on fruit-specific mechanical profiles.

Topics & Concepts

Agricultural engineeringViscoelasticityRheologyEnvironmental scienceMathematicsFood scienceMaterials scienceEngineeringComposite materialBiologyPostharvest Quality and Shelf Life ManagementTree Root and Stability StudiesPlant Physiology and Cultivation Studies
Integrated Physical–Mechanical Characterization of Fruits for Enhancing Post-Harvest Quality and Handling Efficiency | Litcius