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文档和支持信息

以下文档可用于提供AFGROW的许多功能和选项的帮助:

用户手册

AFGROW Component Object Model (COM) Manual
用于开发AFGROW自动化软件。

会议报告

AFGROW Version 5.3.4, New Capabilities & Features
Broad Application for Modeling Failure (BAMF) Training
AFGROW Training at ASIP 2018
AFGROW基础知识和新功能介绍。
COM Automation
AFGROW COM接口的基本功能介绍。
Building AFGROW Plug-Ins
开发用户定义的应力强度因子解决方案插件模块的分步说明。
Accurate Stress Intensity Factor Solutions for Unsymmetric Corner Cracks at a Hole (Aging A/C Conference-2000)
开发高级多角裂纹孔K解的FEM建模方法的说明。
Experimental Verification of Stress Intensity Factor Solutions for Corner Cracks at a Hole Subject to General Loading (ICAF-2003)
验证高级多角裂纹K解的文档。
Using the World’s Largest Stress Intensity Factor Database for Fatigue Life Predictions (International Conf. on DTA of A/C Structures-2007)
记录了使用先进的多角裂纹K解进行寿命预测的文档。
The Effect of Stress Intensity Factor Models on Inspection Intervals (International Conf. on DTA of A/C Structures (ASIP-2007)
比较了经典K和高级K解对恒幅和变幅载荷下裂纹扩展寿命的影响。

参考文献

AFGROW Flow Chart
Beta Factors for Collinear Asymmetrical Cracks Emanating from an Offset Circular Hole in a Rectangular Plate
本文介绍了澳大利亚国防科技集团针对板中偏置孔的不对称裂纹进行独立研究的结果。该解决方案与AFGROW中当前的Advanced K-solutions吻合度相当好。
Stress Intensity Solutions for Continuing Damage
AFGROW当前使用的持续损伤解决方案。
Stress-Intensity Factor Equations for Cracks in Three-Dimensional Bodies Subjected to Tension and Bending Loads
经典的Newman-Raju闭合形式应力强度因子。
Modification of Stress Intensity Factor Equation for Corner Cracks From a Hole Under Remote Bending
经典Newman-Raju方程的面外弯曲修正。
Development of Weight Functions and Computer Integration Procedures for Calculating Stress Intensity Factors Around Cracks Subjected to Complex Stress Fields
AFGROW中当前使用的权函数解决方案。
Hsu Model
AFGROW中使用的Hsu迟滞模型。
Application of Multiple Through Cracks in Plates With and Without Holes
AFGROW中使用的高级多穿透裂纹K-解。
Implementing Models and Libraries – External K-Solver Demonstration
该文档证明了使用AFGROW和外部K-Solver(StressCheck)交互进行复杂几何形状的寿命预测的可行性。
Fatigue Crack Growth Database for Damage Tolerance Analysis
NASGRO材料疲劳数据库。