使用新型三维体视显微镜设备对浸没式动脉瘤类似物进行零应变分析。
Null strain analysis of submerged aneurysm analogues using a novel 3D stereomicroscopy device.
作者信息
Lane Brooks A, Lessner Susan M, Vyavahare Narendra R, Sutton Michael A, Eberth John F
机构信息
Biomedical Engineering, University of South Carolina, Columbia, SC, USA.
Cell Biology and Anatomy, University of South Carolina, Columbia, SC, USA.
出版信息
Comput Methods Biomech Biomed Engin. 2020 Jun;23(8):332-344. doi: 10.1080/10255842.2020.1724974. Epub 2020 Feb 18.
Abstract
To measure the inhomogeneous 3D-strain fields present during inflation-extension testing of physiologically submerged micro-aneurysms, a Stereo Digital Image Correlation (StereoDIC) microscopy system is developed that revolves 15 stereo-angle cameras around a centrally-mounted target. Calibration is performed using submerged dot patterns and system accuracy verified using strain and deformation analyses for rigid body motions of speckle-patterned, micro-aneurysmal surrogates. In terms of the Green-Lagrange strain tensor and the 3D displacement fields, the results are stable even after 120 minutes, with maxima in both strain bias and strain standard deviation less than 2E-03 for all components, and micron-level displacement standard deviation.
摘要
为了测量生理浸没微动脉瘤膨胀-伸展测试过程中存在的非均匀三维应变场,开发了一种立体数字图像相关(StereoDIC)显微镜系统,该系统围绕中心安装的目标旋转15个立体角相机。使用浸没点图案进行校准,并通过对散斑图案化的微动脉瘤替代物的刚体运动进行应变和变形分析来验证系统精度。就格林-拉格朗日应变张量和三维位移场而言,即使在120分钟后结果仍然稳定,所有分量的应变偏差和应变标准偏差最大值均小于2E-03,且位移标准偏差为微米级。
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