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How CEVT Improves Vehicle Architecture and Eliminates BSR Through Simulation - Part 2
Improving the ESL using Complete Vehicle Correlation

In the previous webinar, the development of an ESL has been shown based on a complete vehicle simulation. In order to validate this new approach, a comprehensive correlation work has been performed. Using the dynamic distortion in all closure body openings as correlation criteria offer a unique possibility to increase the understanding of the load from both the engine and the wheel suspension.

This webinar presents this correlation where a test vehicle is driven on different test tracks both in reality and virtually.

Presenter: Jens Weber | CAE Engineer, CEVT

How CEVT Improves Vehicle Architecture and Eliminates BSR Through Simulation - Part 1
ESL Development Based on Simulation - Application example

The body stiffness has a major impact on the Squeak & Rattle performance of a car. Since the body structure of electrical/autonomous cars will differ clearly from traditional bodies, an enhanced requirement is needed to limit the distortion in the closure openings.

This webinar presents a new approach of defining a requirement based on closure deformations using an equivalent static load (ESL), which considers both the reduction from a complete vehicle to a BIG and from a dynamic load to a static load. In addition, an example is shown how ESL can be used as input for body optimization.

Presenter: Viktor Jonsson | CAE Engineer (Consultant), CEVT

Processing CAE Data via Advanced Mathematical Scripting
High level, Matrix-based Numerical computing language & unified programming environment for all types of math from solving matrix analysis, differential equations signal analysis and control systems. It is an integrated HyperWorks post processing tool.

Minimising Interior Noise in Electric Vehicles
National Electric Vehicle Sweden (NEVS) leverages use of the Altair Squeak and Rattle Director in identifying and minimising risks of interior noise in electric vehicles.

Altair and Ziegler Instruments Combine Experience and Technologies to Identify and Eliminate Squeak and Rattle Issues
Altair has partnered with Ziegler-Instruments to enhance its Squeak and Rattle Director (SnRD), making it the most advanced and comprehensive solution on the market to predict and eradicate squeak and rattle phenomena in vehicles, aircraft and other products sensitive to Noise, Vibration and Harshness (NVH). The addition of Ziegler-Instruments’ PEM material database gives Altair’s SnRD clients access to the results for over 11,000 individual stick and slip phenomena for different materials pairs.

In this video, Patrick Schimmelbauer and Jens Herting of Ziegler Instruments give an overview of the partnership and what it means to companies needing to address squeak and rattle issues.

Squeak and Rattle Prevention - Why You Should Not Wait for Your First Prototype
This presentation will discuss how the industry challenges for S&R can be answered using NVH best practices and turn cost avoidance to cost reduction. Altair and ZIEGLER will discuss how to successfully integrate CPA, FE simulation and optimization in the heart of the virtual engineering phases, using the right technology and processes.

This presentation by Patrick Schimmelbauer, Managing Director at Ziegler was recorded at the 2017 Americas ATC East in Detroit, MI.

National Electric Vehicle Sweden (NEVS)
Due to a long-standing relationship with Altair and its HyperWorks suite of simulation solutions, NEVS approached Altair ProductDesign to see if the interior quality issue could be tackled with simulation. To perform the project, Altair ProductDesign worked on site alongside NEVS Interior
Simulation Team to implement Altair’s Squeak and Rattle Director (SnRD).

CalsonicKansei North America
CKNA contacted Altair ProductDesign for training on the Squeak and Rattle Director, which led to more in-depth consultation on the squeak and rattle methodologies, ultimately saving the company time and money by helping them identify detrimental issues early on and by improving vehicle quality.

PSA Groupe Discusses the Simulation of Squeak and Rattle Noise in its Vehicles
In this interview, Sebastien Gourg, CAE Methods, Expertise and Support Engineer from PSA Groupe gives us insight into his experience of working with Altair ProductDesign during the implementation and customization of the Squeak and Rattle Director (SnRD). The SnRD is used within PSA vehicle development programs today to help to quickly identify and eradicate unwanted noise from interiors, while cutting down the need for costly physical testing.

FIAT Customer Story
FIAT chose Altair ProductDesign as a partner to perform a pilot project to investigate squeak and rattle. The project focused on studying issues on the FIAT UNO, a vehicle made exclusively for the South American market. Altair ProductDesign suggested that FIAT implement Altair’s ‘Squeak and Rattle Director’ (SNRD), a comprehensive set of services and software automations that rapidly identify and analyze design alternatives to eliminate the root causes of squeak and rattle in assemblies. With customization from the Altair ProductDesign team, the solution provides a semi-automated approach to determine relative component displacements in the time domain that can lead to undesired noise. A dedicated four day workshop facilitated a fast ramp-up of the NVH team’s knowledge of the SNRD and helped Altair to identify FIAT’s specific design process that the solution could be tailored to.

NVH Webinar Series : Squeak and Rattle Simulation at Scania and LeanNova
Altair's Squeak and Rattle Director is a novel set of comprehensive software automations to rapidly identify and analyze design alternatives to eliminate the root causes of squeak and rattle in assemblies.

Scania Customer Story
Squeak and rattle phenomena are studied in the automotive industry in an attempt to reduce the cabin noise and as a result, give a better ride quality and comfort to occupants. In the case of Scania’s Cabin Development Department, this kind of simulation was not performed historically. The team had to rely on tolerance calculations as well as the choice of materials to reduce the risk of squeak and rattle. To reduce development time and cut down on iterative changes, a desirable solution was identified that enabled a simulation-driven design process during the early stages of the cabin development cycle.

SnR Prevention Start at Concept and Design Phase
If you are a designer, Squeak and Rattle test engineer or a maybe just a beginner to the SnR Analysis world, this presentation is for you. We will showcase how you can benefit from simulation as early as the concept design phase by performing a CAD based modal analysis combined with a material compatibility analysis, and perform a Screening Risk Assessment which provides upfront results using a streamlined and easy-to-use workflow in Squeak and Rattle Director.

A CAE based approach for SnR Detection and Prevention
This webinar provides an overview of a typical CAE based approach for SnR detection and prevention and demonstrates how this is achieved through a Risk and Root Cause analysis in Altair Squeak and Rattle Director. We will also discuss how to increase the complexity and fidelity of the model with the progression of development, and the importance of exploring multiple loading scenarios. Throughout the entire process, structural optimization is there as a helpful tool to find solutions to the problems we encounter on the way or even prevent them from the start.

Altair Solution Perceived Quality
In this webinar we will present Altair’s unique and industry proven simulation driven solution for SnR detection and prevention throughout the entire development cycle. We will discuss how the implementation of a simulation driven SnR Risk analysis at different stages and levels of development can improve quality while reducing production cost as well as the need for physical.

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