Meshing Meaning: Definition, Examples, and Translations

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meshing

[ˈmɛʃɪŋ ]

Definitions

Context #1 | Noun

engineering design

Meshing refers to the process of creating a mesh, which is a network of interconnected elements that represent a physical object in computational analyses. It is commonly used in finite element analysis (FEA) and computational fluid dynamics (CFD) to simulate how physical systems behave under various conditions. A well-constructed mesh is crucial for obtaining accurate results in simulations, as it affects the precision of the numerical methods applied. Different types of meshes, such as structured, unstructured, or hybrid meshes, can be employed depending on the complexity of the geometry and the requirements of the analysis.

Synonyms

gridding, interlinking, networking.

Examples of usage

  • The meshing process is crucial for FEA simulations.
  • Improper meshing can lead to inaccurate results.
  • Engineers often optimize meshing for better performance.
Context #2 | Verb

connecting elements

Meshing as a verb describes the action of combining or interlocking multiple components or entities. In various contexts, this can imply creating a cohesive system where different parts work together harmoniously. In digital animations or design, meshing can refer to the integration of different geometric shapes or elements into a single coherent model. This action not only enhances the functionality of the project but also improves the overall aesthetic and performance.

Synonyms

connecting, integrating, intertwining.

Examples of usage

  • The team is meshing the different design elements.
  • She is meshing textures to create a realistic surface.
  • They are meshing data from various sources for analysis.

Translations

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Origin of 'meshing'

The term 'meshing' derives from the word 'mesh', which originated from the Old English word 'mysca', meaning a net or lace. The evolution of the term reflects its application in various fields, particularly in engineering and computer science. The concept of meshing gained prominence in the context of computer modeling and simulation as the complexity of design and analysis grew. In the late 20th century, as finite element and computational fluid dynamics methods became more prevalent, meshing became increasingly significant in ensuring accuracy in these simulations. Today, the term is commonly used across multiple disciplines, including mechanical engineering, graphics design, and computational sciences, emphasizing its versatility and importance in modern technology.


Word Frequency Rank

At rank #25,142, this word represents specialized academic or technical vocabulary. It's less frequently encountered but may be valuable in specific contexts.