Finite element analysis in functional morphology

Richmond BG; Wright BW; Grosse L; Dechow PC; Ross CF; Spencer MA; Strait DS

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Finite element analysis in functional morphology

机译：功能形态学的有限元分析

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This article reviews the fundamental principles of the finite element method and the three basic steps (model creation, solution, and validation and interpretation) involved in using it to examine structural mechanics. Validation is a critical step in the analysis, without which researchers cannot evaluate the extent to which the model represents or is relevant to the real biological condition. We discuss the method's considerable potential as a tool to test biomechanical hypotheses, and major hurdles involved in doing so reliably, from the perspective of researchers interested in functional morphology and paleontology. We conclude with a case study to illustrate how researchers deal with many of the factors and assumptions involved in finite element analysis. (c) 2005 Wiley-Liss, Inc.

机译：本文回顾了有限元方法的基本原理以及使用它来检查结构力学的三个基本步骤（模型创建，求解以及验证和解释）。验证是分析中的关键步骤，否则研究人员无法评估模型在多大程度上代表或与真实生物状况相关。我们将从对功能形态学和古生物学感兴趣的研究人员的角度讨论该方法作为测试生物力学假设的工具的巨大潜力，以及可靠地进行此操作的主要障碍。我们以案例研究结束，以说明研究人员如何处理有限元分析中涉及的许多因素和假设。（c）2005 Wiley-Liss，Inc.

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《The anatomical record, Part A. Discoveries in molecular, cellular, and evolutionary biology》 |2005年第2期|共16页
作者
Richmond BG; Wright BW; Grosse L; Dechow PC; Ross CF; Spencer MA; Strait DS;
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正文语种 eng
中图分类人体形态学;
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finite-element analysis; mastication; primates; biomechanics; fimctional morphology; paleoanthropology; TRAIT LIST BIAS; BONE STRAIN; IN-VIVO; MECHANICAL SIGNIFICANCE; TRABECULAR BONE; ZYGOMATIC ARCH; PRIMATES; STRESS; MOLARS; BIOMECHANICS;

机译：有限元分析;塑化;灵长类动物;生物力学;功能形态学;古人类学;性状偏见;骨骼张力;体内;机械意义;小骨;

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Finite element analysis in functional morphology

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