Soft Robotics Materials
and Compliant Polymer Mechanics

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Soft robotics materials are designed to undergo large, reversible deformations. Mechanical testing quantifies stiffness, extensibility, viscoelasticity, durability, and actuation related behaviour in elastomers, composite structures and responsive polymers.
A polymer strip being tensile tested on the UniVert for soft robotics materials research
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Overview of
Soft Robotics Material Mechanics

Soft robotic systems rely on compliant materials that deform predictably under load or internal pressurization. These materials must exhibit controlled nonlinear behaviour, recover from repeated deformation, and maintain structural integrity during actuation cycles.

Mechanical insights enable researchers to optimize performance, reliability, and control strategies in soft robotics applications.

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Importance of Mechanical Testing in Soft Robotics Research

Materials used in soft robotics include silicone and TPU elastomers, PDMS-based composites, fibre-reinforced soft actuators, pneumatic and hydraulic actuator materials, programmable stiffness polymers, shape-morphing and multi-material constructs, and soft skins and tactile interfaces.

Mechanical data guide actuator design, strategy development, and materials engineering.

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Recommended CellScale Instruments for Research in Compliant Robotic Materials

The Medium Force Package for the UniVert S

UniVert

Used for tensile, compression, shear, pressure, and bending testing of elastomers, composite actuators, soft robotic skins, and programmable stiffness materials.

The BioTester 5000 setup with BioRakes

BioTester

Supports biaxial testing of sheet-based soft robotics materials where in plane behaviour and directional deformation are important.

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Testing Methods for Soft Robotics Materials

Pressure Testing

Assesses deformation and durability of pressure-actuated soft robotic materials

Biaxial Testing

Captures planar deformation in compliant membranes

Viscoelastic Testing

Measures time-dependent response during cyclic loading

Fatigue Testing

Assesses durability under repeated actuation cycles

Flexural and Bending Testing

Quantifies bending stiffness of thin polymer sheets

Representative Sample Types for Soft Robotics Materials

Base polymers and elastomers

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Featured Publications in Soft Robotics Material Mechanics

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

Annealing-Enabled 3D Printing of MXene/Carbon Aerogels with Stability in Harsh Conditions

Osman A, Xie Y, et al.

Advanced Functional Materials

UniVert

Material Fatigue and DurabilitySoft Robotics MaterialsWearable Bioelectronics

2026

Modeling mechanical and electromechanical behavior of polymers

Shah N H, Ajaj R M, et al.

Mechanics of Advanced Materials and Structures

BioTester

Biaxial TestingShear TestingTensile Testing

Electroactive and Photothermal PolymersPolymers and Elastomers TestingSoft Robotics Materials

2026

Advance Your Soft Robotics Material Research

CellScale instruments support mechanical testing of elastomers, composite actuators, and responsive materials used in soft robotics. Contact our team to find the right configuration for your research needs.

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