CG数据库 >> HBM NCode DesignLife 9.1 X86/x64

HBM NCode DesignLife 9.1 X86/x64的图片1

nCode DesignLife 是全球领先的疲劳分析软件. 系统在产品原型开发完成之前,进行从有限元分析到耐久性和认证分析的疲劳寿命预测.

nCode 疲劳和耐久性软件

HBM nCode 软件可以帮助:

测试工程师做出正确的工程决定,进行快速分析和工作

设计工程师提高产品性能

操作和管理者明白产品用途并优化操作.

HBM nCode DesignLife 9.1 (x86/x64) | 1.24/1.34 Gb

The world’s leading software tool for FE-based fatigue analysis. nCode DesignLife provides fatigue life prediction from finite element results to answer the question "how long will it last?" or "will it pass the test?" before you even have prototype. Go beyond simplified stress analysis and avoid under or over-designing your products by simulating actual loading conditions.

For over 30 years, nCode products have established a reputation for the development of leading fatigue technology pioneering the world’s first commercial off-the-shelf FEA-based fatigue tool, P/Fatigue*, in the early 1990’s. Since then, nCode products have continued to invest in the development of cutting edge technology to provide solutions for large model sizes and realistic loading schedules. Unique capabilities include the ability to simulate shaker tests by predict fatigue analysis in the frequency domain.

In use by major OEMs and their suppliers around the world, DesignLife is industry proven to be the most intuitive, powerful and flexible solution for CAE fatigue and durability.

Key Features

• Intuitive and easy to use software for performing fatigue analysis from finite element models

• Direct support for leading FEA results data including ANSYS, Nastran, Abaqus, RADIOSS, …

• Efficiently analyze large finite element models and complete usage schedulesHBM NCode DesignLife 9.1 X86/x64的图片2

• Wide range of fatigue analysis capabilities including stress-life, strain-life, multi-axial, weld analysis, virtual shaker table, and more

• Highly configurable for the expert user

• Single environment for both Test and CAE data

• Enables standardization of analysis processes and reporting

Benefits

• Reduce reliance on physical test and avoid costly design and tooling changes

• Perform smarter and quicker physical tests by simulating first

• Reduce warranty claims by reducing failures

• Reduce cost and weight by assessing more design options• Improve consistency and quality with standardized analysis processes

• Correlate directly with physical test data

• Analyze wind turbine component designs in conformity with GL Renewables Certification's Guideline for the Certification of Wind Turbines (2010)

HBM_nCode_DesignLife_V9.1_WIN32_MERRY_XMAS-CAXiSO

HBM_nCode_DesignLife_V9.1_WIN64_MERRY_XMAS-CAXiSO