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meshed structure generated with simmetrix' meshsim  (Simmetrix Inc)

 
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    Simmetrix Inc meshed structure generated with simmetrix' meshsim
    Mesh structure of the In718 dataset generated by <t>XtalMesh.</t> ( a ) Element sets are colored using the inverse pole-figure map according to the grains they represent. ( b ) A large parent grain is selected for closer inspection of the mesh.
    Meshed Structure Generated With Simmetrix' Meshsim, supplied by Simmetrix Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/meshed structure generated with simmetrix' meshsim/product/Simmetrix Inc
    Average 90 stars, based on 1 article reviews
    meshed structure generated with simmetrix' meshsim - by Bioz Stars, 2026-03
    90/100 stars

    Images

    1) Product Images from "Multi-modal Dataset of a Polycrystalline Metallic Material: 3D Microstructure and Deformation Fields"

    Article Title: Multi-modal Dataset of a Polycrystalline Metallic Material: 3D Microstructure and Deformation Fields

    Journal: Scientific Data

    doi: 10.1038/s41597-022-01525-w

    Mesh structure of the In718 dataset generated by XtalMesh. ( a ) Element sets are colored using the inverse pole-figure map according to the grains they represent. ( b ) A large parent grain is selected for closer inspection of the mesh.
    Figure Legend Snippet: Mesh structure of the In718 dataset generated by XtalMesh. ( a ) Element sets are colored using the inverse pole-figure map according to the grains they represent. ( b ) A large parent grain is selected for closer inspection of the mesh.

    Techniques Used: Generated

    Diagram of the XtalMesh smoothing and twin insertion process for a single parent grain. The smoothing process ignores surface mesh geometry of all features ( a ) and considers only that of the parent grain ( b ), producing the smoothed parent grain mesh. ( c ) Twins are inserted back into the parent grain mesh by taking their now partially smoothed representations ( d ), computing their convex hull e and calculating the intersection with the parent grain mesh ( f ). ( g–i ) Insertion process repeats until all twins are inserted, in order of twin size, from smallest to largest.
    Figure Legend Snippet: Diagram of the XtalMesh smoothing and twin insertion process for a single parent grain. The smoothing process ignores surface mesh geometry of all features ( a ) and considers only that of the parent grain ( b ), producing the smoothed parent grain mesh. ( c ) Twins are inserted back into the parent grain mesh by taking their now partially smoothed representations ( d ), computing their convex hull e and calculating the intersection with the parent grain mesh ( f ). ( g–i ) Insertion process repeats until all twins are inserted, in order of twin size, from smallest to largest.

    Techniques Used:

    Diagram of the XtalMesh tetrahedralization and segmentation process for a single parent grain. ( a ) Surface mesh after all twin insertion is complete, input to fTetWild algorithm. ( b ) Volume mesh output of fTetWild, elements produced within grain surface meshes, but algorithm unaware of grain ID assignment. ( c ) Final mesh after segmenting elements according to grain IDs.
    Figure Legend Snippet: Diagram of the XtalMesh tetrahedralization and segmentation process for a single parent grain. ( a ) Surface mesh after all twin insertion is complete, input to fTetWild algorithm. ( b ) Volume mesh output of fTetWild, elements produced within grain surface meshes, but algorithm unaware of grain ID assignment. ( c ) Final mesh after segmenting elements according to grain IDs.

    Techniques Used: Produced

    Mesh quality statistics for the meshed structure generated with XtalMesh and Simmetrix’ MeshSim. ( a ) Metrics include scaled Jacobian, ( b ) shape, and ( c ) minimum dihedral angle as defined by “The Verdict Library Reference Manual” .
    Figure Legend Snippet: Mesh quality statistics for the meshed structure generated with XtalMesh and Simmetrix’ MeshSim. ( a ) Metrics include scaled Jacobian, ( b ) shape, and ( c ) minimum dihedral angle as defined by “The Verdict Library Reference Manual” .

    Techniques Used: Generated



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    Mesh structure of the In718 dataset generated by <t>XtalMesh.</t> ( a ) Element sets are colored using the inverse pole-figure map according to the grains they represent. ( b ) A large parent grain is selected for closer inspection of the mesh.
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    Image Search Results


    Mesh structure of the In718 dataset generated by XtalMesh. ( a ) Element sets are colored using the inverse pole-figure map according to the grains they represent. ( b ) A large parent grain is selected for closer inspection of the mesh.

    Journal: Scientific Data

    Article Title: Multi-modal Dataset of a Polycrystalline Metallic Material: 3D Microstructure and Deformation Fields

    doi: 10.1038/s41597-022-01525-w

    Figure Lengend Snippet: Mesh structure of the In718 dataset generated by XtalMesh. ( a ) Element sets are colored using the inverse pole-figure map according to the grains they represent. ( b ) A large parent grain is selected for closer inspection of the mesh.

    Article Snippet: Fig. 20 Mesh quality statistics for the meshed structure generated with XtalMesh and Simmetrix’ MeshSim. ( a ) Metrics include scaled Jacobian, ( b ) shape, and ( c ) minimum dihedral angle as defined by “The Verdict Library Reference Manual” .

    Techniques: Generated

    Diagram of the XtalMesh smoothing and twin insertion process for a single parent grain. The smoothing process ignores surface mesh geometry of all features ( a ) and considers only that of the parent grain ( b ), producing the smoothed parent grain mesh. ( c ) Twins are inserted back into the parent grain mesh by taking their now partially smoothed representations ( d ), computing their convex hull e and calculating the intersection with the parent grain mesh ( f ). ( g–i ) Insertion process repeats until all twins are inserted, in order of twin size, from smallest to largest.

    Journal: Scientific Data

    Article Title: Multi-modal Dataset of a Polycrystalline Metallic Material: 3D Microstructure and Deformation Fields

    doi: 10.1038/s41597-022-01525-w

    Figure Lengend Snippet: Diagram of the XtalMesh smoothing and twin insertion process for a single parent grain. The smoothing process ignores surface mesh geometry of all features ( a ) and considers only that of the parent grain ( b ), producing the smoothed parent grain mesh. ( c ) Twins are inserted back into the parent grain mesh by taking their now partially smoothed representations ( d ), computing their convex hull e and calculating the intersection with the parent grain mesh ( f ). ( g–i ) Insertion process repeats until all twins are inserted, in order of twin size, from smallest to largest.

    Article Snippet: Fig. 20 Mesh quality statistics for the meshed structure generated with XtalMesh and Simmetrix’ MeshSim. ( a ) Metrics include scaled Jacobian, ( b ) shape, and ( c ) minimum dihedral angle as defined by “The Verdict Library Reference Manual” .

    Techniques:

    Diagram of the XtalMesh tetrahedralization and segmentation process for a single parent grain. ( a ) Surface mesh after all twin insertion is complete, input to fTetWild algorithm. ( b ) Volume mesh output of fTetWild, elements produced within grain surface meshes, but algorithm unaware of grain ID assignment. ( c ) Final mesh after segmenting elements according to grain IDs.

    Journal: Scientific Data

    Article Title: Multi-modal Dataset of a Polycrystalline Metallic Material: 3D Microstructure and Deformation Fields

    doi: 10.1038/s41597-022-01525-w

    Figure Lengend Snippet: Diagram of the XtalMesh tetrahedralization and segmentation process for a single parent grain. ( a ) Surface mesh after all twin insertion is complete, input to fTetWild algorithm. ( b ) Volume mesh output of fTetWild, elements produced within grain surface meshes, but algorithm unaware of grain ID assignment. ( c ) Final mesh after segmenting elements according to grain IDs.

    Article Snippet: Fig. 20 Mesh quality statistics for the meshed structure generated with XtalMesh and Simmetrix’ MeshSim. ( a ) Metrics include scaled Jacobian, ( b ) shape, and ( c ) minimum dihedral angle as defined by “The Verdict Library Reference Manual” .

    Techniques: Produced

    Mesh quality statistics for the meshed structure generated with XtalMesh and Simmetrix’ MeshSim. ( a ) Metrics include scaled Jacobian, ( b ) shape, and ( c ) minimum dihedral angle as defined by “The Verdict Library Reference Manual” .

    Journal: Scientific Data

    Article Title: Multi-modal Dataset of a Polycrystalline Metallic Material: 3D Microstructure and Deformation Fields

    doi: 10.1038/s41597-022-01525-w

    Figure Lengend Snippet: Mesh quality statistics for the meshed structure generated with XtalMesh and Simmetrix’ MeshSim. ( a ) Metrics include scaled Jacobian, ( b ) shape, and ( c ) minimum dihedral angle as defined by “The Verdict Library Reference Manual” .

    Article Snippet: Fig. 20 Mesh quality statistics for the meshed structure generated with XtalMesh and Simmetrix’ MeshSim. ( a ) Metrics include scaled Jacobian, ( b ) shape, and ( c ) minimum dihedral angle as defined by “The Verdict Library Reference Manual” .

    Techniques: Generated