The Dispersion Calculator - a free software for calculating dispersion curves of guided waves
The nondestructive inspection of components by means of guided waves is an emerging technology in fields like aerospace or pipeline construction and maintenance. The guided waves' capability of propagating many meters in a structure is utilized for swift inspection tasks as well as structural h...
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| Veröffentlicht in: | E-journal of Nondestructive Testing 2024-06, Vol.29 (6) |
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| container_title | E-journal of Nondestructive Testing |
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| creator | Huber, Armin |
| description | The nondestructive inspection of components by means of guided waves is an emerging technology in fields like
aerospace or pipeline construction and maintenance. The guided waves' capability of propagating many meters in
a structure is utilized for swift inspection tasks as well as structural health monitoring. The German Aerospace
Center uses Lamb waves for the quality assurance of large-scale aerospace vehicle components made from carbon
composites. However, the use of guided waves in NDT requires knowledge of the dispersion curves. DISPERSE
is the most renown software for the calculation of dispersion curves. This paper presents the open source
Dispersion Calculator (DC). The MATLAB® -based DC is an interactive and fully validated software for the
computation of dispersion curves and mode shapes of guided waves in isotropic plates and multilayered anisotropic
composites. Damping caused by viscoelasticity and fluid-loading can be considered. DC features the capability of
calculating laminates consisting of several hundreds of layers so that even the largest specimens, like rocket booster
pressure vessels, can be calculated. This is made possible through the implementation of the stiffness matrix
method. DC is also able to distinguish the different mode families, like symmetric, antisymmetric, and
nonsymmetric Lamb, shear horizontal, and Scholte waves, depending on the symmetry and coupling properties of
a given layup. Lastly, DC features a highly efficient and robust dispersion curve tracing algorithm. DC is available
at GitHub, and it has gained many users world-wide since its initial release in 2018. |
| doi_str_mv | 10.58286/29894 |
| format | Article |
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aerospace or pipeline construction and maintenance. The guided waves' capability of propagating many meters in
a structure is utilized for swift inspection tasks as well as structural health monitoring. The German Aerospace
Center uses Lamb waves for the quality assurance of large-scale aerospace vehicle components made from carbon
composites. However, the use of guided waves in NDT requires knowledge of the dispersion curves. DISPERSE
is the most renown software for the calculation of dispersion curves. This paper presents the open source
Dispersion Calculator (DC). The MATLAB® -based DC is an interactive and fully validated software for the
computation of dispersion curves and mode shapes of guided waves in isotropic plates and multilayered anisotropic
composites. Damping caused by viscoelasticity and fluid-loading can be considered. DC features the capability of
calculating laminates consisting of several hundreds of layers so that even the largest specimens, like rocket booster
pressure vessels, can be calculated. This is made possible through the implementation of the stiffness matrix
method. DC is also able to distinguish the different mode families, like symmetric, antisymmetric, and
nonsymmetric Lamb, shear horizontal, and Scholte waves, depending on the symmetry and coupling properties of
a given layup. Lastly, DC features a highly efficient and robust dispersion curve tracing algorithm. DC is available
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aerospace or pipeline construction and maintenance. The guided waves' capability of propagating many meters in
a structure is utilized for swift inspection tasks as well as structural health monitoring. The German Aerospace
Center uses Lamb waves for the quality assurance of large-scale aerospace vehicle components made from carbon
composites. However, the use of guided waves in NDT requires knowledge of the dispersion curves. DISPERSE
is the most renown software for the calculation of dispersion curves. This paper presents the open source
Dispersion Calculator (DC). The MATLAB® -based DC is an interactive and fully validated software for the
computation of dispersion curves and mode shapes of guided waves in isotropic plates and multilayered anisotropic
composites. Damping caused by viscoelasticity and fluid-loading can be considered. DC features the capability of
calculating laminates consisting of several hundreds of layers so that even the largest specimens, like rocket booster
pressure vessels, can be calculated. This is made possible through the implementation of the stiffness matrix
method. DC is also able to distinguish the different mode families, like symmetric, antisymmetric, and
nonsymmetric Lamb, shear horizontal, and Scholte waves, depending on the symmetry and coupling properties of
a given layup. Lastly, DC features a highly efficient and robust dispersion curve tracing algorithm. DC is available
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aerospace or pipeline construction and maintenance. The guided waves' capability of propagating many meters in
a structure is utilized for swift inspection tasks as well as structural health monitoring. The German Aerospace
Center uses Lamb waves for the quality assurance of large-scale aerospace vehicle components made from carbon
composites. However, the use of guided waves in NDT requires knowledge of the dispersion curves. DISPERSE
is the most renown software for the calculation of dispersion curves. This paper presents the open source
Dispersion Calculator (DC). The MATLAB® -based DC is an interactive and fully validated software for the
computation of dispersion curves and mode shapes of guided waves in isotropic plates and multilayered anisotropic
composites. Damping caused by viscoelasticity and fluid-loading can be considered. DC features the capability of
calculating laminates consisting of several hundreds of layers so that even the largest specimens, like rocket booster
pressure vessels, can be calculated. This is made possible through the implementation of the stiffness matrix
method. DC is also able to distinguish the different mode families, like symmetric, antisymmetric, and
nonsymmetric Lamb, shear horizontal, and Scholte waves, depending on the symmetry and coupling properties of
a given layup. Lastly, DC features a highly efficient and robust dispersion curve tracing algorithm. DC is available
at GitHub, and it has gained many users world-wide since its initial release in 2018.</abstract><doi>10.58286/29894</doi><oa>free_for_read</oa></addata></record> |
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| issn | 1435-4934 1435-4934 |
| language | eng |
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| source | DOAJ Directory of Open Access Journals |
| title | The Dispersion Calculator - a free software for calculating dispersion curves of guided waves |
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