A Comprehensive Constitutive Model Solver

Proceedings 56th US Rock Mechanics / Geomechanics Symposium Pub Date : 2022-06-26 DOI:10.56952/arma-2022-0038

J. Chieslar

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Abstract

The object-oriented software concept is applied to material mechanics calculations. The result is a comprehensive predictor-corrector which has been employed to solve virtually all of the constitutive exercises in a mature, general-purpose, finite element program. In addition to updating internal variables consistent with global inputs (corrector), the software also produces consistent material tangents (corrector), without resort to formulae. Coupled mechanical-thermal-porous flow problems are addressed as well as compound mechanical responses: creep-plasticity, creep-damage, etc. Material and spatial coordinate transformations are incorporated as well as transformation to and from local material axes. Internal calculations may be undertaken in either spatial or material coordinates, depending upon the native definition. Even viscoelasticity and hyper-viscoelasticity, via Prony series, are efficiently handled by the sparse solver. A tool to exercise any material model, simulating global inputs, is incorporated. Historical plots may be produced and inputs may be cyclical or otherwise simulate complex histories. This is accomplished by using PostScript operators.

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一个综合的本构模型求解器

将面向对象的软件概念应用于材料力学计算。结果是一个全面的预测校正器，它已被用来解决几乎所有的本构练习在一个成熟的，通用的，有限元程序。除了更新与全局输入(校正器)一致的内部变量外，该软件还产生一致的物质切线(校正器)，而无需诉诸公式。讨论了力学-热-多孔耦合流动问题以及复合力学响应:蠕变-塑性、蠕变-损伤等。材料和空间坐标的转换，以及转换到和从本地材料轴。内部计算可以在空间坐标或材料坐标中进行，这取决于本地定义。稀疏求解器通过proony级数有效地处理了偶粘弹性和超粘弹性问题。一个工具，以行使任何材料模型，模拟全球输入，被纳入。可以生成历史图，输入可能是周期性的或以其他方式模拟复杂的历史。这是通过使用PostScript操作符实现的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings 56th US Rock Mechanics / Geomechanics Symposium

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