Sentence examples for blade structures from inspiring English sources

Performance indices of different fan blade structures were compared.

In this paper the failure behaviour of composite materials in the skin-stiffener of wind turbine blade structures are investigated.

A physics-based multi-scale progressive damage model was developed for predicting the durability of wind turbine blade structures.

This study models the inter-laminar damage due to low velocity impacts on hybrid composite materials typical of those used in wind turbine blade structures.

Experimental results indicated that stitching can significantly improve failure load and interlaminar fracture resistance of the joints in wind turbine composite blade structures.

Impulse voltage was applied on different blade structures and materials to study the puncture position distribution and the arc path inside the blade chamber.

The new approach overcomes the drawbacks of pure shell element simulations and can reliably predict the response of wind turbine blade structures which are exposed to ultimate loads.

Researchers showed that the wind blade mimicking the leaf architecture could always have relatively lower internal strain energy, better static strength and stiffness, smaller stress intensity, and higher fatigue life compared with the conventional blade structures.

The blade structure comprises a shell of uniform thickness and a unidirectional reinforcement.

The method has been demonstrated for a blade structure, which has been modelled as two substructures.

An optimization model for the design of a typical blade structure of horizontal-axis wind turbines is presented.