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All Outputs (8)

Bayesian Reconstruction of Goal Orientated Error Fields in Large Aerospace Finite Element Models (2020)
Conference Proceeding
Bonney, M. S., Evans, R., Rouse, J., Jones, A., & Hamadi, M. (2020). Bayesian Reconstruction of Goal Orientated Error Fields in Large Aerospace Finite Element Models. In Proceedings of AerospaceEurope Conference 2020

A major difficulty in the mechanical simulation of large aerospace structures is the multi-scale nature of modern designs due to, at least in part, the increased use of composite materials. "Thin" materials are typically idealised by shell elements i... Read More about Bayesian Reconstruction of Goal Orientated Error Fields in Large Aerospace Finite Element Models.

Technique for Processing of Continuous Carbon Fibre Reinforced PEEK for Fused Filament Fabrication (2019)
Conference Proceeding
Pu, J., Saleh, E., Ashcroft, I., & Jones, A. (2019). Technique for Processing of Continuous Carbon Fibre Reinforced PEEK for Fused Filament Fabrication

3D printing of light-weight and mechanically-strong structures facilitates several applications. 3D printing of continuous carbon fibre reinforced polyetheretherketone (PEEK) presents exciting possibilities as the high stiffness and strength of the h... Read More about Technique for Processing of Continuous Carbon Fibre Reinforced PEEK for Fused Filament Fabrication.

Optimal Ultrasonic Sensor Configuration for Plate-Like Structures Using the Value of Information (2019)
Conference Proceeding
Cantero-Chinchilla, S., Chiachío, J., Chiachío, M., Chronopoulos, D., Jones, A., Essa, Y., & de la Escalera, F. M. (2019). Optimal Ultrasonic Sensor Configuration for Plate-Like Structures Using the Value of Information. In Structural Health Monitoring 2019 Enabling Intelligent Life-cycle Health Management for Industry Internet of Things (IIOT): Proceedings of 12th International Workshop on Structural Health Monitoring (1455-1462). https://doi.org/10.12783/shm2019/32267

Condition-based maintenance is based on reliable and effective structural health monitoring systems able to provide accurate information about the health condition of a structure. Among the factors that influence the accuracy and reliability of such... Read More about Optimal Ultrasonic Sensor Configuration for Plate-Like Structures Using the Value of Information.

Uncertainty quantification in ultrasonic guided-waves based damage localization (2019)
Conference Proceeding
Cantero-Chinchilla, S., Chiachío, J., Chiachío, M., Chronopoulos, D., Jones, A., Essa, Y., & Martín De La Escalera, F. (2019). Uncertainty quantification in ultrasonic guided-waves based damage localization.

Bayesian methods for inverse problems offer higher robustness to noise and uncertainty than deterministic, yet accurate, inference methods. Both types of techniques typically focus on finding optimal model parameters that minimize an objective functi... Read More about Uncertainty quantification in ultrasonic guided-waves based damage localization.

A Bayesian time-of-flight estimation for ultrasonic damage detection (2018)
Conference Proceeding
Cantero-Chinchilla, S., Chiachío-Ruano, J., Chiachío-Ruano, M., Jones, A., Essa, Y., & Martín de la Escalera, F. (2018). A Bayesian time-of-flight estimation for ultrasonic damage detection.

SHM methods for damage detection and localisation in plate-like structures have typically relied on post-processing of ultrasonic guided waves (GWs) features. The time-of-flight is one of these features, which has been extensively used by the SHM com... Read More about A Bayesian time-of-flight estimation for ultrasonic damage detection.

Characterisation and modelling of complex textile geometries using TexGen (2018)
Conference Proceeding
Brown, L. P., Endruweit, A., Long, A., & Jones, I. A. (2018). Characterisation and modelling of complex textile geometries using TexGen. . https://doi.org/10.1088/1757-899X/406/1/012024

TexGen is open source software developed at the University of Nottingham for the geometric 3D modelling of textiles and textile composites. It has a large number of users worldwide and underpins a significant number of research publications. Whil... Read More about Characterisation and modelling of complex textile geometries using TexGen.

Predicting the coefficient of thermal expansion for textile composites based on a unit cell approach (2013)
Conference Proceeding
Brown, L. P., Zeng, X., Long, A. C., Brooks, R., & Jones, I. A. (2013). Predicting the coefficient of thermal expansion for textile composites based on a unit cell approach.

The study focuses on unit cell FE modelling to predict coefficients of thermal expansion (CTEs) for sheared fabric laminates. Shear, as a dominant deformation mode in textile composites forming, introduces high degrees of anisotropy in both elasticit... Read More about Predicting the coefficient of thermal expansion for textile composites based on a unit cell approach.

Recent developments in the realistic geometric modelling of textile structures using TexGen (2013)
Conference Proceeding
Brown, L. P., Zeng, X., Long, A., & Jones, I. A. (2013). Recent developments in the realistic geometric modelling of textile structures using TexGen.

Realistic geometric representation of fabrics is essential for modelling of mechanical and physical properties of textiles and textile composites. It is also advantageous to be able to generate those models quickly and easily. Recent developments in... Read More about Recent developments in the realistic geometric modelling of textile structures using TexGen.