PEER-REVIEWED PUBLICATION

2025

Tissue-like Fracture Toughness and Stress–Relaxation Ability in PVA-Agar-Based Hydrogels for Biomedical Applications

A tensile test divider icon

Lamas Jr. I, Chandrashekar BL, et al.

Gels

University of Texas Rio Grande Valley

RESEARCH SUMMARY
This study developed fully physically crosslinked polyvinyl alcohol (PVA)–agar double-network (DN) hydrogels with tissue-like mechanical and viscoelastic properties for soft tissue engineering. Hydrogels were fabricated via thermal gelation and freeze–thaw cycles, eliminating toxic crosslinkers. Increasing agar content (0–6 wt%) enhanced elastic modulus (50→225 kPa), fracture toughness (1.06→1.76 kJ/m²), and stress–relaxation (~170% improvement) while maintaining >200% strain‑to‑failure. The hydrogels exhibited significant stress dissipation and fracture resistance comparable to articular cartilage and showed high cell viability, confirming suitability for load‑bearing applications such as cartilage repair.
CellScale hexagons, without text

CELLSCALE INSTRUMENT USED

UniVert

Uniaxial tensile testing was conducted using a CellScale UniVert mechanical tester (20 N load cell, Waterloo, ON, Canada) at a constant displacement rate of 30 mm/min under ambient conditions. Dog‑bone specimens (Lg = 50 mm, Wg = 10 mm, tg = 2 mm) were pulled until rupture, and nominal stress–strain data were recorded to determine elastic modulus, tensile strength, and strain at failure. The UniVert results showed agar addition tripled tensile modulus (up to 225 kPa) and fracture toughness (1.76 kJ/m²), confirming viscoelastic toughening in the physically crosslinked PVA–agar system.
AUTHORS

Ismael Lamas Jr.; Bhuvana L. Chandrashekar; Claudia C. Biguetti; Mohammad R. Islam.

PUBLICATION DETAILS
JOURNAL

Gels

YEAR

2025

INSTITUTIONS

University of Texas Rio Grande Valley

COUNTRIES

United States

INSTRUMENT USED

UniVert

TESTING METHODS

Shear TestingTensile Testing

RESEARCH APPLICATIONS

Cartilage and Meniscus MechanicsHydrogel Mechanical TestingInjectable & Regenerative BiomaterialsPolymers and Elastomers Testing

Related Publications:

Instrument Used:
Year:
Testing Method:
Research Application:
Country:

MCC950-loaded silk microgel-hydrogel composite scaffolds effectively modulate inflammation for improving tissue interaction and remodeling

Lau K, Grant A, et al.

Acta Biomaterialia

UniVert

Compression Testing

Fibrosis & Tissue RemodelingHydrogel Mechanical TestingInjectable & Regenerative BiomaterialsScaffold Mechanical Testing

2026

Effect of Sulfated Polysaccharides and Laponite in Composite Porous Scaffolds on Osteogenesis

Karamesouti A, Chatzinikolaidou M

Biomolecules

UniVert

Compression TestingHydrated and Temperature Controlled Testing

Bone Tissue Engineering & MechanicsHydrogel Mechanical TestingScaffold Mechanical Testing

2026

Harnessing Chain Mobility via Protonation for Tough and Isotropic Hydrogel

Shi P, Si M, et al.

Advanced Materials

UniVert

Fatigue TestingHydrated and Temperature Controlled TestingTensile Testing

Hydrogel Mechanical TestingPolymers and Elastomers TestingSoft Robotics Materials

2026

Contact Sales

Product of Interest:
CellScale hexagon shapes