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mtex 5 2 8 matlab toolbox  (MathWorks Inc)


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    MathWorks Inc mtex 5 2 8 matlab toolbox
    Fig. 1. Schematic figures of the experimental setup. (a) In situ neutron diffraction lattice strain measurements and residual lattice strain measurements prior to loading. Inset figure shows the line scans were performed at 300 μm intervals, covering the three sub- regions during uniaxial tension. (b) Lab-based uniaxial tensile ex periments were conducted, and strain evolution was analysed using Vic-2D DIC system. The virtual extensometers (Ext-1-4) are high lighted for macro strain measurements in different regions. (c) In cremental PFIB milling procedures during which residual strain is released. Sequence of secondary electron mages were acquired for residual strain analysis using <t>MATLAB-based</t> DIC method. (d) Nanoindentation experiments were performed using a spherical indenter with 13 cycles of load and unload procedures at the highlighted position in fusion line, HAZ/BM interface, and BM region.
    Mtex 5 2 8 Matlab Toolbox, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 96/100, based on 2335 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/mtex 5 2 8 matlab toolbox/product/MathWorks Inc
    Average 96 stars, based on 2335 article reviews
    mtex 5 2 8 matlab toolbox - by Bioz Stars, 2026-06
    96/100 stars

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    1) Product Images from "Investigation of the residual strain and deformation mechanisms in laser-welded Eurofer97 steel for fusion reactors"

    Article Title: Investigation of the residual strain and deformation mechanisms in laser-welded Eurofer97 steel for fusion reactors

    Journal: Materials Science and Engineering: A

    doi: 10.1016/j.msea.2023.145147

    Fig. 1. Schematic figures of the experimental setup. (a) In situ neutron diffraction lattice strain measurements and residual lattice strain measurements prior to loading. Inset figure shows the line scans were performed at 300 μm intervals, covering the three sub- regions during uniaxial tension. (b) Lab-based uniaxial tensile ex periments were conducted, and strain evolution was analysed using Vic-2D DIC system. The virtual extensometers (Ext-1-4) are high lighted for macro strain measurements in different regions. (c) In cremental PFIB milling procedures during which residual strain is released. Sequence of secondary electron mages were acquired for residual strain analysis using MATLAB-based DIC method. (d) Nanoindentation experiments were performed using a spherical indenter with 13 cycles of load and unload procedures at the highlighted position in fusion line, HAZ/BM interface, and BM region.
    Figure Legend Snippet: Fig. 1. Schematic figures of the experimental setup. (a) In situ neutron diffraction lattice strain measurements and residual lattice strain measurements prior to loading. Inset figure shows the line scans were performed at 300 μm intervals, covering the three sub- regions during uniaxial tension. (b) Lab-based uniaxial tensile ex periments were conducted, and strain evolution was analysed using Vic-2D DIC system. The virtual extensometers (Ext-1-4) are high lighted for macro strain measurements in different regions. (c) In cremental PFIB milling procedures during which residual strain is released. Sequence of secondary electron mages were acquired for residual strain analysis using MATLAB-based DIC method. (d) Nanoindentation experiments were performed using a spherical indenter with 13 cycles of load and unload procedures at the highlighted position in fusion line, HAZ/BM interface, and BM region.

    Techniques Used: In Situ, Sequencing



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    mtex 5 2 8 matlab toolbox  (MathWorks Inc)
    96
    MathWorks Inc mtex 5 2 8 matlab toolbox
    Fig. 1. Schematic figures of the experimental setup. (a) In situ neutron diffraction lattice strain measurements and residual lattice strain measurements prior to loading. Inset figure shows the line scans were performed at 300 μm intervals, covering the three sub- regions during uniaxial tension. (b) Lab-based uniaxial tensile ex periments were conducted, and strain evolution was analysed using Vic-2D DIC system. The virtual extensometers (Ext-1-4) are high lighted for macro strain measurements in different regions. (c) In cremental PFIB milling procedures during which residual strain is released. Sequence of secondary electron mages were acquired for residual strain analysis using <t>MATLAB-based</t> DIC method. (d) Nanoindentation experiments were performed using a spherical indenter with 13 cycles of load and unload procedures at the highlighted position in fusion line, HAZ/BM interface, and BM region.
    Mtex 5 2 8 Matlab Toolbox, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/mtex 5 2 8 matlab toolbox/product/MathWorks Inc
    Average 96 stars, based on 1 article reviews
    mtex 5 2 8 matlab toolbox - by Bioz Stars, 2026-06
    96/100 stars
    		  Buy from Supplier

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    Fig. 1. Schematic figures of the experimental setup. (a) In situ neutron diffraction lattice strain measurements and residual lattice strain measurements prior to loading. Inset figure shows the line scans were performed at 300 μm intervals, covering the three sub- regions during uniaxial tension. (b) Lab-based uniaxial tensile ex periments were conducted, and strain evolution was analysed using Vic-2D DIC system. The virtual extensometers (Ext-1-4) are high lighted for macro strain measurements in different regions. (c) In cremental PFIB milling procedures during which residual strain is released. Sequence of secondary electron mages were acquired for residual strain analysis using MATLAB-based DIC method. (d) Nanoindentation experiments were performed using a spherical indenter with 13 cycles of load and unload procedures at the highlighted position in fusion line, HAZ/BM interface, and BM region.

    Journal: Materials Science and Engineering: A

    Article Title: Investigation of the residual strain and deformation mechanisms in laser-welded Eurofer97 steel for fusion reactors

    doi: 10.1016/j.msea.2023.145147

    Figure Lengend Snippet: Fig. 1. Schematic figures of the experimental setup. (a) In situ neutron diffraction lattice strain measurements and residual lattice strain measurements prior to loading. Inset figure shows the line scans were performed at 300 μm intervals, covering the three sub- regions during uniaxial tension. (b) Lab-based uniaxial tensile ex periments were conducted, and strain evolution was analysed using Vic-2D DIC system. The virtual extensometers (Ext-1-4) are high lighted for macro strain measurements in different regions. (c) In cremental PFIB milling procedures during which residual strain is released. Sequence of secondary electron mages were acquired for residual strain analysis using MATLAB-based DIC method. (d) Nanoindentation experiments were performed using a spherical indenter with 13 cycles of load and unload procedures at the highlighted position in fusion line, HAZ/BM interface, and BM region.

    Article Snippet: The post-data treatment was achieved using the MTEX 5.2.8 MATLAB toolbox [25], and the average grain size in the FZ, HAZ, and BM regions was measured from the EBSD orientation maps using the mean linear intercept method [26].

    Techniques: In Situ, Sequencing