Stretchable one-dimensional conductors for wearable applications
Continuous, one-dimensional (1D) stretchable conductors have attracted significant
attention for the development of wearables and soft-matter electronics. Through the use of …
attention for the development of wearables and soft-matter electronics. Through the use of …
Recent advances in fibre-hybrid composites: materials selection, opportunities and applications
Y Swolfs, I Verpoest… - International Materials …, 2019 - journals.sagepub.com
Fibre-hybrid composites are composed of two or more fibre types in a matrix. Such
composites offer more design freedom than non-hybrid composites. The aim is often to …
composites offer more design freedom than non-hybrid composites. The aim is often to …
Ultrasensitive, stretchable strain sensors based on fragmented carbon nanotube papers
The development of strain sensors featuring both ultra high sensitivity and high stretchability
is still a challenge. We demonstrate that strain sensors based on fragmented single-walled …
is still a challenge. We demonstrate that strain sensors based on fragmented single-walled …
[HTML][HTML] Thin-ply polymer composite materials: A review
The introduction of the spread-tow thin-ply technology enabled the development of
composite plies as thin as 0.020 mm. The availability of composite plies with a broader …
composite plies as thin as 0.020 mm. The availability of composite plies with a broader …
A multi phase-field-cohesive zone model for laminated composites: Application to delamination migration
Abstract Failure processes in Laminated Fiber-Reinforced Composites (LFRCs) entail the
development and progression of different physical mechanisms and, in particular, the …
development and progression of different physical mechanisms and, in particular, the …
Machine learning assisted characterisation and simulation of compressive damage in composite laminates
A data-rich framework is presented to consistently characterise the macroscopic strain-
softening response of laminated composites subjected to compressive loading. First, a …
softening response of laminated composites subjected to compressive loading. First, a …
Multi-scale computational analysis of unidirectional carbon fiber reinforced polymer composites under various loading conditions
A multi-scale computational analysis based on representative volume element (RVE)
modeling and molecular dynamics (MD) simulations is developed to investigate the …
modeling and molecular dynamics (MD) simulations is developed to investigate the …
[HTML][HTML] Low velocity impact and compression after impact simulation of thin ply laminates
Numerical simulations can help in the understanding of the damage sequence of polymer
based composite laminates during an impact event, which is a difficult experimental task …
based composite laminates during an impact event, which is a difficult experimental task …
Multi-scale characterization and modelling of the transverse compression response of unidirectional carbon fiber reinforced epoxy
Thick unidirectional fiber reinforced RTM6 epoxy resin specimens were processed by resin
transfer molding and tested in transverse compression. Homogenized response from …
transfer molding and tested in transverse compression. Homogenized response from …
Continuous fiber-reinforced aramid/PETG 3D-printed composites with high fiber loading through fused filament fabrication
Recent development in the field of additive manufacturing, also known as three-dimensional
(3D) printing, has allowed for the incorporation of continuous fiber reinforcement into 3D …
(3D) printing, has allowed for the incorporation of continuous fiber reinforcement into 3D …