Sentence examples for desired in engineering from inspiring English sources

The optimal design is highly desired in engineering applications since it can simultaneously provide superior stiffness, strength and toughness.

This makes it possible to get quickly the result due to a large number of loadings as desired in engineering design practice.

The development of new biomaterials with tailored properties is highly desired in tissue engineering field.

The coupling of these criteria ensures that all the particles are stable and contacting each other, allowing for an unambiguous detection of contacts, which is important in the evaluation of the effective properties desired in many engineering applications, such as percolation thresholds and effective conductivity.

Robust control under uncertainty is desired in almost all control engineering applications.

These results demonstrate a new route for tailoring both nanostructure and loading to control the deformation mechanisms in order to achieve the desired mechanical properties in engineering materials.

In recent years, increasingly sophisticated computational methods have been developed to identify optimal genetic modifications to achieve a desired metabolic engineering objective.

We show that this approach can be applied at various loci using multiple engineered nuclease platforms, including transcription-activator-like effector nucleases (TALENs), RNA-guided endonucleases (CRISPR/Cas9), and zinc finger nucleases (ZFNs), and in different cell lines to identify conditions and strategies in which the desired engineering outcome has occurred.

The search for designs that are closest to the desired engineering goals is performed in two main steps: First, we solve an FBA problem for each combination of nutrients and gene deletions, using maximization of growth (biomass production) as the objective function.

These findings encourage the use of chitosan as an additive in visible-light curable resins to improve desired properties in tissue engineering scaffolds.

Columns with non-uniform distribution of geometrical or material parameters i.e. functionally graded material distribution, varying cross-sectional area and flexural stiffness provide an economical solution to carry the desired higher compressive loads in engineering structures.