Non-uniform strain field reconstruction of FBG using an adaptive Nelder–Mead algorithm

AbstractThis work addresses the determination of yield surfaces for geometrically exact elastoplastic rods. Use is made of a formulation where the rod is subjected to an uniform strain field along its arc length, thereby reducing the elastoplastic problem of the full rod to just its cross-section. By integrating the plastic work and the stresses over the rod’s cross-section, one then obtains discrete points of the yield surface in terms of stress resultants. Eventually, Lamé curves in their most general form are fitted to the discrete points by an appropriate optimisation method. The resulting continuous yield surfaces are examined for their scalability with respect to cross-section dimensions and also compared with existing analytical forms of yield surfaces.

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Uniform strain field inside a non-circular inhomogeneity with homogeneously imperfect interface in anisotropic anti-plane shear

Zeitschrift für angewandte Mathematik und Physik ◽

10.1007/s00033-016-0647-x ◽

2016 ◽

Vol 67 (3) ◽

Cited By ~ 1

Author(s):

Ming Dai ◽

Peter Schiavone ◽

Cun-Fa Gao

Keyword(s):

Strain Field ◽

Imperfect Interface ◽

Uniform Strain ◽

Plane Shear ◽

Circular Inhomogeneity

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Strain field reconstruction in shallow trench isolation structures by CBED and LACBED

Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms ◽

10.1016/j.nimb.2006.10.052 ◽

2006 ◽

Vol 253 (1-2) ◽

pp. 149-153 ◽

Cited By ~ 6

Author(s):

A. Spessot ◽

S. Frabboni ◽

R. Balboni ◽

A. Armigliato

Keyword(s):

Strain Field ◽

Shallow Trench Isolation ◽

Field Reconstruction ◽

Trench Isolation

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Engineering Monolayers With Strain Field

Materials ◽

10.1115/imece2004-59999 ◽

2004 ◽

Author(s):

Dongchoul Kim ◽

Wei Lu

Keyword(s):

Self Assembly ◽

Strain Field ◽

The Self ◽

Uniform Strain ◽

Assembly Process ◽

Elastic Substrate ◽

Substrate Strain ◽

Nanoscale Patterns ◽

Self Assembled

A binary monolayer on an elastic substrate may self-organize into ordered nanoscale patterns. Here we report a work of using a substrate strain field to guide the self-assembly process. The study shows that straining a substrate uniformly does not influence the pattern. However, a non-uniform strain field significantly influences the size, shape and distribution of self-assembled features. The study suggests a method of strain field design to make various monolayer patterns.

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APPLICATIONS OF SMART BRICKS FOR STRAIN FIELD RECONSTRUCTION IN MASONRY WALLS: NUMERICAL ANALYSIS AND SHAKING TABLE TESTS

Proceedings of the 7th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COMPDYN 2015) ◽

10.7712/120119.6931.20032 ◽

2019 ◽

Author(s):

Antonella D'Alessandro ◽

Andrea Meoni ◽

Nicola Cavalagli ◽

Massimiliano Gioffrè ◽

Filippo Ubertini

Keyword(s):

Numerical Analysis ◽

Strain Field ◽

Shaking Table ◽

Masonry Walls ◽

Shaking Table Tests ◽

Field Reconstruction

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Self-Assembled Nanostructures

2008 Second International Conference on Integration and Commercialization of Micro and Nanosystems ◽

10.1115/micronano2008-70067 ◽

2008 ◽

Author(s):

Wei Lu

Keyword(s):

Self Assembly ◽

Strain Field ◽

The Self ◽

Uniform Strain ◽

Assembly Process ◽

Elastic Substrate ◽

Substrate Strain ◽

Self Assembled

A binary monolayer on an elastic substrate may self-organize into ordered nanoscale phase patterns. Here we report a work of using a substrate strain field to guide the self-assembly process. The study shows that straining a substrate uniformly does not influence the pattern. However, a non-uniform strain field significantly influences the size, shape and distribution of self-assembled features. The study suggests a method of strain field design to make various monolayer patterns.

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