Material Properties

Overview

Material properties are the measurable physical, chemical, mechanical, thermal, electrical, and optical characteristics that determine how a material behaves and how it interacts with forces, energy, and its surroundings. They govern the selection and design of materials for engineering and biomedical applications, including additive manufacturing and three-dimensional printing, where the printability, strength, durability, and biocompatibility of a feedstock directly shape the performance of the finished part. Mechanical properties such as strength, stiffness, hardness, and toughness describe a material's response to applied load and are assessed through tests of microhardness and deformation; thermal and electrical conductivity, density, and optical response characterize how a material conducts heat and current or interacts with radiation. The relationship between processing, microstructure, and properties is central: techniques such as thin-film deposition and controlled solidification establish the structure that dictates final behaviour, while the interaction of materials with concentrated radiation and light sources, including photopolymerization of composite resins, alters their properties. In biomedical engineering, the properties of scaffolds, including bone scaffolds and biocompatible matrices such as calcium orthophosphate and chitosan, determine their suitability for tissue support and regeneration, with degradation behaviour influencing function over time. Characterization of material properties through systematic testing therefore underpins the rational development, optimization, and qualification of materials across manufacturing, electronics, and regenerative applications.

Research published in this journal

8 peer-reviewed articles, ranked by relevance. Each links to its DOI.

How this research is being cited

The 8 articles above have been cited 437 times in the scholarly literature. Citation data via OpenAlex and Crossref, updated Jun 2026.

• Biological modulation and repair using plant-derived bioactives: advancements in tissue engineering and regenerative medicine
  2026 · Future Journal of Pharmaceutical Sciences
• Recent advances in textile dye remediation: a critical analysis of chitin and chitosan-based adsorbents
  2026 · Polymer Bulletin
• Tuning the biological scaffolds’ performance by the combination of two antioxidant and antimicrobial chitosan derivatives
  2026 · Carbohydrate Polymer Technologies and Applications
• Biodegradable chitosan-cellulose and sub-spherical nanocrystals composite piezoelectric thin film
  2026 · npj Flexible Electronics
• Stimuli‐Responsive Crosslinked Chitosan/PVP/PEG Hydrogel Networks for Targeted Drug Delivery and Antimicrobial Performance
  2026 · Analytical Science Advances
• A shear-thinning bio-adhesive sealant with wet tissue adhesion and instant haemostasis
  2026 · Journal of Adhesion Science and Technology
• Chitosan Nanoparticles: A Comparative Analysis of Synthesis Techniques and Controlled Release Mechanisms for Biomedical Applications
  2026 · BioNanoScience
• Biocompatible chitosan-gelatine-silk hydrogel for the temporary storage of hair follicles during transplantation
  2026 · International Journal of Biological Macromolecules

A sample of recent works citing this journal's research on Material Properties, linking to each citing work.

This page summarises published research for orientation; it is not medical or professional advice.

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