HBM nCode webinars

An important input to durability analysis is service loading: How does a customer actually use the product you are designing? and, how can your durability analysis best reflect these loads?

In this webinar, we will explore how signal processing tools can be used to accurately define input loads for FE-based durability analysis with nCode DesignLife. Demonstrations will also show how these signal processing tools – frequency spectra, statistical analysis, cycle counting, etc. – improve understanding of service loading.

Originally presented: Tuesday, March 27, 2012

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Engine- or gear box-mounted components are submitted to loads coming from both the rotating machinery and the road profile. This vibratory mechanical environment is traditionally defined as swept sines or random profiles. In this webinar, we will present a methodology which enables to you to superimpose swept sines and a power spectral density of acceleration to optimize and accelerate the durability tests of such components.

Originally presented: Tuesday, March 20

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Rotating machinery like transmissions, gears, and shafts can be tricky to analyze because underlying trends may not be apparent in the time domain. Using the periodic cycles or rotations domain can highlight performance characteristics. This webinar covers analysis features in nCode 7 related to rotating machinery, including waterfall analysis, order tracking, period displays, periodic and nonperiodic statistical analysis.

Originally presented: April 14, 2011

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Originally presented: Thursday, 3 March

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The Scripting Glyph now enables the MATLAB® programming language to be used in an nCode process. This webinar will highlight this new feature and demonstrate some of the benefits of having the mathematical capabilities of MATLAB in nCode GlyphWorks 7.

Originally presented: February 24, 2011

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Proving grounds are an extremely efficient means of qualifying the durability of vehicle components. They accelerate damage accumulation rates so failures are detectable in a very short period of time. It is important that proving ground damage is correlated with target customer usage. It is also important to determine the most efficient use of the proving ground in order to meet project targets and minimize overall development costs. This webinar describes the latest techniques for proving ground correlation and optimization that will be available in the next release of nCode GlyphWorks.

Originally presented: 02 December 2010

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Python scripting provides a very flexible and powerful method of adding new or proprietary functionality to nCode GlyphWorks. Some tasks require custom programming such as reading or writing new file formats or using a calculation that is specific to your company and this is where Python scripting has major benefits.

This webinar shows through several examples how the Scripting glyph can be used to rapidly create and implement your own glyphs.

Even if you have never used the Scripting glyph before, this webinar is a good place to start!

Originally presented: March 30, 2010

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Block cycle testing is a common method of component durability validation. It relies on the concept of equivalent fatigue damage to condense complicated service loads into a simple set of cycles that can be easily reproduced in the test lab.

Watch this webinar to learn how nCode GlyphWorks software can be used to easily create an equivalent damage block cycle test. We’ll discuss some of the common requirements of a block cycle test, and tips and tricks that can improve the accuracy of the test profile.

Originally presented: November 5, 2009

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Aerospace structures and increasingly other applications such as heavy equipment typically need to tolerate the presence of cracks during real-world operation. The challenge is to optimize inspection intervals and to ensure cracks are detectable prior to catastrophic failure.

This webinar provides examples of damage tolerant design using Crack Growth capabilities in nCode software. Topics covered will include:

• Predicting critical crack lengths, growth rates and estimating maximum permissible flaw sizes
• Performing forensic failure studies including estimation of initial flaw size
• Crack Growth being now included as part of GlyphWorks Fatigue and DesignLife products.

Originally presented: March 4, 2010

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This webinar demonstrates the technical and productivity benefits of ICE-flow GlyphWorks for fatigue and durability analysis. This includes stress-life (SN), strain-life (EN), and crack growth (LEFM) methods for fatigue life estimation.

Applications include fatigue life predictions, relative damage calculations, and the use of fatigue methods to create accelerated lab test.

Originally presented: May 19, 2009

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A shaker table test can prove the durability of a component that sees vibration loading. But how do you create the shaker profile? How do you compare this to an existing test spec?

Join us as we discuss:

• Defining an equivalent damage shaker test for random or swept sine vibration testing.
• Accelerating this shaker test to save test time.
• Verifying that the accelerated test is still reasonable in terms of shock.
• Comparing different shaker test specifications - which is more severe?
• Comparing measured vibration data with an existing test specification - how conservative is the existing vibration profile?

Originally presented: June 26, 2008

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This webinar reviews the source of vibration loading on a helicopter and describes standard qualification tests that are used to ensure the safe life of equipment on the aircraft. It describes how the vibration environment can be measured in terms of a Fatigue Damage Spectrum (FDS) and Shock Response Spectrum (SRS). These spectra are calculated from measured flight load data as well as from the vibration test. By comparing the flight spectra with the test spectra, the paper shows how highly optimized vibration tests are derived.

Although the paper deals specifically with helicopters, these techniques are now common in all industries, including: ground vehicles, offshore, power generation and electronics.

Originally presented: December 2, 2009

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Download the paper by Andrew Halfpenny and T.C. Walton of AgustaWestland

A shaker table test can prove the durability of a component that sees vibration loading. But how do you create the shaker profile? How do you compare this to an existing test spec?

Join us as we discuss:

• Defining an equivalent damage shaker test for random or swept sine vibration testing.
• Accelerating this shaker test to save test time.
• Verifying that the accelerated test is still reasonable in terms of shock.
• Comparing different shaker test specifications - which is more severe?
• Comparing measured vibration data with an existing test specification - how conservative is the existing vibration profile?

Originally presented: September 23, 2008

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Need to create your own glyphs? Learn about this new capability of nCode GlyphWorks which uses the Python programming language in a new Scripting glyph. Find out how it works, how easy it is to use and see some real examples of Python in action inside GlyphWorks.

Originally presented: February 7, 2008

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This webinar demonstrates capabilities of nCode DesignLife relevant for aerospace applications such as aero spectrum loading for flight based duty cycles and virtual strain gauges feeding crack growth calculations.

Originally presented: December 6, 2011

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This webinar gives practical instruction in setting up DesignLife for batch submission enabling design optimization and the solution of larger jobs on remote computers.

Originally presented: November 10, 2011

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Originally presented: April 21, 2011

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Many components and structures are subject to complex loads in service, which may result in fatigue damage. In some cases, although the applied loads are complex, the geometry and load paths create stress states locally that are relatively simple. In others, the relative size and/or phase of local stress components may vary with time, giving rise to multiaxial loadings. Multiaxial loadings require greater sophistication both in terms of modelling stress-strain response, and predicting fatigue damage.

This webinar shows how DesignLife may be used to understand multiaxial loadings, and looks at the methods available for analysis and automatic selection of appropriate criteria.

Originally presented: 31 March 2011

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During this webinar we will discuss the additional capabilities for structural stress calculation methods, locations and orientations that have recently been added to the nCode DesignLife Seam Weld option in version 7. Suggested use cases and recommended modeling techniques will be discussed and the correlation of predictions with physical test specimans using these new techniques will be demonstrated.

Originally presented: Thursday, 17 March

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nCode DesignLife can help make better FE based fatigue predictions with a powerful list of features including Plasticity Corrections, Multiaxial Assessment, Stress Gradients, and Mean Stress Corrections.

These features allow for few assumptions and greater confidence in evaluating fatigue related issues before real parts are fabricated.

Originally presented: 04 November 2010

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A new Virtual Strain Gauge feature is now available in nCode DesignLife 6 to provide a unique, powerful way of correlating physical test with finite element simulation results.

This webinar shows from start-to-finish how to setup Virtual Strain Gauges on your finite element model, how to extract the strain results and how to assess correlation with measured data.

Originally presented: March 16, 2010

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This webinar demonstrates the use of nCode DesignLife with commercial process integration and design optimization software. In this example, we use DesignLife together with modeFRONTIER. You will see procedures that can modify the DesignLife process properties, run that process in batch, and capture key results.

To illustrate this, nCode DesignLife is shown as a part of two modeFRONTIER workflows. The first workflow performs a stochastic fatigue analysis, assuming several of the DesignLife inputs are statistical distributions rather than fixed constants, where the resulting output is a distribution of predicted life. The second example includes DesignLife in a workflow performing multi-objective shape optimization, where fatigue life is one of the constraints on the design space.

Originally presented: December 15, 2009

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nCode DesignLife is an industry-standard software package for fatigue life prediction of engineering components and structures. It now has a Python-based customization capability which allows organizations to rapidly deploy new or proprietary fatigue analysis methods.

The majority of metal fatigue life predictions reasonably make the assumption that material properties are homogeneous and isotropic. These assumptions are quite inappropriate for predicting the life of fiber reinforced plastics, the fatigue strength of which is strongly dependent on fibre orientation and density.

During this webinar we will demonstrate the Python-based customization capability in nCode DesignLife, implementing as an example a method for predicting the life of components made from engineered polymers (plastic matrix with short fibers).

Originally presented: November 18, 2009

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Fatigue is an important design consideration for modern wind turbines. In this webinar we describe how fatigue failure locations and fatigue life estimates can be obtained using Finite Element-based stress analysis. Guidance is given on selecting appropriate material parameters and load spectra, along with advice on how to optimize the analysis for faster preliminary design assessments.

An overview of the theory is also presented for those who are new to FE-based fatigue analysis.

Originally presented: June 30, 2009

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This webinar demonstrates usage of nCode DesignLife in combination with Abaqus.

Usage of Abaqus linear and non-linear results will be examined. Examples of fatigue analyses using modal dynamic, and steady state dynamic results will also be shown. A demonstration of DesignLife will be given, and features enabling it to efficiently analyze large models described.

Originally presented: May 27, 2009

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Utilizing wind turbines for electric power generation depends on the structural integrity of the equipment operating continuously over long periods of time. This 45 minute webinar demonstrates how nCode software is used by turbine designers and operators to:

• Predict fatigue damage in design of key components such as gearboxes
• Understand the structural loading envelope
• Monitor operational performance and identify statistical trends
• Assess the reliability and structural integrity of the systems for long term operation

Originally presented: March 3, 2009

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This webinar will describe the benefits of using ICE-flow DesignLife to replace FE-Fatigue.

Originally presented: August 14, 2007

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nCode Automation is a complete environment for automated data storage, analysis and reporting. It also provides a web-based collaborative interface for sharing test data and associated information throughout an organization. This webinar will provide an overview of the nCode Automation environment and how you can learn from large amounts test data and share the knowledge.

Originally presented: May 12, 2011

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This webinar gives an introduction to a new product, nCode Automation Personal Edition (PE) – and shows with live examples how the ability of Automation PE to manage and find data is an ideal add-on product to GlyphWorks.

nCode Automation PE takes the power of nCode Automation with its search and data warehousing capabilities and applies it to local data on a laptop or shared drive. nCode Automation PE increases the productivity of the individual user – making it possible to quickly find, organize, and analyze data that is directly accessible from your computer.

Originally presented: March 4, 2010

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nCode Automation is our solution for streamlining test data acquisition, monitoring data and analysis. It's an web-based system designed to automate data analysis and provide summary information, trends, and reports all while managing the data upload and user access.

Applications include flight testing, structural testing, and performance monitoring.

This 45-minute webinar will highlight features & benefits as well as customer applications.

Originally presented: May 28, 2009

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nCode Automation is our solution for streamlining test data acquisition, monitoring data and analysis. It's an on-line system designed to automate data analysis and provide summary information, trends, and reports all while managing the data upload and user access.

Applications include road load testing, lab testing, and customer usage profiling.

Originally presented: May 21, 2009

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nCode Automation is our new solution for streamlining test data acquisition, monitoring data and analysis. It's an on-line system designed to automate analysis, create new data, and provides summary information, trends, and reports all while managing the data upload and user access.

This 45-minute webinar will highlight features & benefits as well as customer applications.

Originally presented: July 31, 2008

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Lors de ce Webinar, les nouveautés et améliorations de Glyphworks, Design Life et Automation seront présentées. Les bénéfices apportés par ces fonctionnalités seront démontrées en direct.

s'inscrire

How do you maximize your investment in nCode software and get the right people using it when they need it?

This webinar shows the benefits in using a flexible licensing system, nCode CDS for running any combination of nCode product options. This avoids the need for lengthy justifications and additional costs for new purchases. nCode CDS provides cost effective method for accessing all of GlyphWorks, DesignLife and Automation PE.

Also demonstrated is how to use license borrowing to assign a floating license to a computer for a specific period of time. This can enable licenses to be used at off-site locations such as at test sites and proving grounds. License borrowing is also available with the flexibility of nCode CDS licensing units.

Originally presented: 21 October 2010

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