Establishment of a three-dimensional finite element model for gunshot wounds to the human mandible 被引量：4

Establishment of a three-dimensional finite element model for gunshot wounds to the human mandible

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摘要 Objective:To investigate the feasibility of a finite element model as an ideal research tool for human maxillofacial gunshot wounds.Methods:Mandible CT scan data on the Chinese Visible Human were imported into MIMICS software to obtain the surface mesh of the mandible.Then,these surface-meshed models were imported into ANSA software for automatic net generation.Elements and nodes were partitioned on the basis of the mesh to obtain a three-dimensional finite element model for the mandible with every internal parameter consistent with those of our previously developed model in the pig mandible.The finite element model was imported into LS-DYNA for computation.Finally,the LS-POST was used to complete the simulation and the measurements.Results:A three-dimensional finite element model was successfully established for gunshot wounds in the human mandible.The stress distribution and the degree of injury were simulated dynamically for shots from two types of projectiles in the mandible at one entry angle and at three impact velocities.Conclusion:Three-dimensional finite element models will become ideal research tools for treatment of ballistic wounds of the human maxillofacial region.Using this human mandibular model as a foundation,we will be able to successfully develop three-dimensional finite element models for human maxillofacial gunshot wounds. Objective： To investigate the feasibility of a finite element model as an ideal research tool for human maxillofacial gunshot wounds. Methods： Mandible CT scan data on the Chinese Visible Human were imported into MIMICS software to obtain the surface mesh of the mandible. Then, these surface-meshed models were imported into ANSA software for automatic net generation. Elements and nodes were partitioned on the basis of the mesh to obtain a three-dimensional finite element model for the mandible with every internal parameter consistent with those of our previously developed model in the pig mandible. The finite element model was imported into LS-DYNA for computation. Finally, the LS-POST was used to complete the simulation and the measurements. Results： A three-dimensional finite element model was successfully established for gunshot wounds in the human mandible. The stress distribution and the degree of injury were simulated dynamically for shots from two types of projectiles in the mandible at one entry angle and at three impact velocities. Conclusion： Three-dimensional finite element models will become ideal research tools for treatment of ballistic wounds of the human maxillofacial region. Using this human mandibular model as a foundation, we will be able to successfully develop three-dimensional finite element models for human maxillofacial gunshot wounds

作者 Tang Zhen Zhou Zhonghua Zhang Gang ChenYubin Lei Tao Tan Yinghui

机构地区 Department of Oral and Maxillofacial Surgery Department of Oral and Maxillofacial Surgery

出处《Journal of Medical Colleges of PLA(China)》 CAS 2012年第2期87-100,共14页 中国人民解放军军医大学学报（英文版）

关键词 BIOMECHANICS MANDIBLE Wound ballistics Finite element analysis 三维有限元模型下颌骨 LS-DYNA 表面网格 Mimics 动态模拟颌面部人体数据

分类号 TP391.72 [自动化与计算机技术—计算机应用技术] TQ336.1 [化学工程—橡胶工业]

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Establishment of a three-dimensional finite element model for gunshot wounds to the human mandible 被引量：4

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