The 10th International Conference on Fracture of Polymers, Composites and Adhesives will take place from 19-23 September 2027 at the Glacier Hotel, Les Diablerets, Switzerland.

Papers on microscopic, laboratory- or structural-scale fracture mechanics testing and analysis methods, combined with or related to theoretical and numerical approaches and also applications of fracture mechanics to industrial polymeric components or structures are all welcome.

Oral and poster abstracts are invited on the below topics and should be submitted using the online abstract submission system: https://app.oxfordabstracts.com/auth?redirect=/stages/80952/submitter
Deadline: 22 January 2027

Of special interest are novel polymer-based materials and composites, e.g., soft, renewable or biodegradable materials and polymer-based materials made with new technologies, e.g., additive manufacturing, or integrating novel multifunctional properties.

Please note that submissions on fracture of other material and composite types, e.g., metal-matrix, ceramic-matrix, or concrete are outside the scope and will not be considered.

We are again inviting papers in the areas reflecting the current and future interests of TC4 as listed below. New developments and innovative applications are especially welcome. Both experimental and theoretical work is sought, including experimental work combined with modelling and simulation, to give a balanced view of the following subject areas:

Conference topics
Polymers: Low-rate properties, Kc, Gc and Jc. Essential work of fracture, we. Impact and high-rate properties. Ductile energy dissipation and notching effects. Environmental effects. Fracture in soft polymer-based materials. Non-standard toughness tests such as cutting, machining, scratching and other novel fracture test methods.

Composites: Single or multiple delaminations in continuous fibre composites including cross-ply and 3-D reinforcement and 2D delaminations in plates, shells or components. Impact and high-rate properties. Fatigue fracture, damage mechanisms, thermal properties, experimental characterization and simulation. Toughness of short fibre, particulate, nano- and micro-scale reinforced, or hybrid composites. Pure and mixed-mode fracture. Peeling of flexible laminates.

Adhesives: Structural adhesive joint toughness evaluation and simulation in the various pure and mixed-mode loading regimes. Evaluation of toughness in multi-material (hybrid) joints. Measuring toughness in highly toughened adhesive joints, including Jc testing. Geometry and thickness effects on Gand J. Toughening mechanisms, including nano-scale additives. Impact and high-rate behaviour. Environmental effects. Peeling testing and simulation.

Application of fracture mechanics: Service life prediction methods and models, including cyclic fatigue loads and combinations with environmental ageing effects. Data for FE design codes and virtual or "smart" testing. Applications in structural engineering, electronics, infrastructure and layered structures. Crash simulations. Use of novel NDT or of artificial intelligence in fracture testing, analysis, and predictions.