Join us on Wednesday, June 21 for a very special event on planning, validating, and implementing a reliability test plan during hardware development.
The purpose of reliability testing is to discover potential problems with the design as early as possible and, ultimately, provide confidence that the product meets its requirements. However, every hardware project is different, has different constraints, customers, features, use cases, and expectations.
There isn’t a set of activities that will address eliminates risk in a product. By incorporating a reliability plan into your hardware development lifecycle, builders can mitigate risk, identify failures and effectively address reliability risks in a project.
You’ll hear three experts on how to develop the right reliability plan for your product, how to use simulation software to test critical features, and how to de-risk complex products on the path to production.
Tickets are very limited, get yours now to secure your place!
Topics include:
How to develop and manage the right reliability program
Creating a tailored reliability plan
Finite Element Analysis
Stress analysis
Modal and vibrations analysis
Heat transfer
Fatigue analysis
Drop testing
Engineering testing
De-risking complex products
Bonus!
Get paired with other reliability enthusiasts during the event, we’ll take care of the first step by matching you beforehand based on your interests. Simply fill out this google form with your preferences and we’ll do the rest. Expect to receive a calendar invite a few days beforehand.
Agenda
3.00 - Registration and Introduction
3.30 - Bringing Reliable Products to Market Faster with Engineering Simulations
4.45 - Building a Reliability Plan
6.15 - Engineering testing: de-risking complex products on the path to production
7.30 - Drinks, food, and networking
Questions? Email finbarr(at)fictiv.com
Speakers:
Henry H. Vu, PhD, Senior Applications Engineer ANSYS, Inc.
Title: Bringing Reliable Products to Market Faster with Engineering Simulations
In this presentation, you will learn about the basic theory of Finite Element Analysis and common applications for product designers and engineers. Topics will include stress analysis, modal and vibrations analysis and heat transfer.
You will gain an understanding of the simulation process and pertinent issues such as geometry clean-up and simplification, material model definition, creation of high-quality computational meshes, contact technology, solution methods, and post-processing of results. Applications for fatigue analysis, drop testing, and design exploration will also be addressed.
Fred Schenkelberg founder at FMS Reliability
Title: Building a Reliability Plan
"Insanity: doing the same thing over and over and expecting different results." - attributed to Albert Einstein, basically, describes many organizations reliability program plans. The idea that a set of activities will effectively address all of the reliability risks of a new design is all too common in the industry. Why is this?
Let's explore recognizing the current situation and which activities will provide the most value. The focus should be on creating a product that meets customer and business expectations with the lowest risk and cost.
In this interactive presentation, we will discuss a couple of different situations and how to develop and manage the right reliability program. Startups with brand new technology to mature industrial equipment families of products all have reliability performance expectations, it is how we create and execute the reliability activities in support of the project that is key.
Each element of the entire program should add value, not done 'just because we always do that." With just a little thought you can create and justify a tailored plan. Plan to join the discussion.
Elias R. Samia - Mechanical Engineer at Cooper Perkins
Title: Engineering testing: de-risking complex products on the path to production
Testing and evaluating a design can be daunting and time-consuming. When do we decide and how do we conduct testing and experiments to achieve project and business goals? Let's talk about some general guidelines and some specific examples.
Join us on Wednesday, June 21 for a very special event on planning, validating, and implementing a reliability test plan during hardware development.
The purpose of reliability testing is to discover potential problems with the design as early as possible and, ultimately, provide confidence that the product meets its requirements. However, every hardware project is different, has different constraints, customers, features, use cases, and expectations.
There isn’t a set of activities that will address eliminates risk in a product. By incorporating a reliability plan into your hardware development lifecycle, builders can mitigate risk, identify failures and effectively address reliability risks in a project.
You’ll hear three experts on how to develop the right reliability plan for your product, how to use simulation software to test critical features, and how to de-risk complex products on the path to production.
Tickets are very limited, get yours now to secure your place!
Topics include:
How to develop and manage the right reliability program
Creating a tailored reliability plan
Finite Element Analysis
Stress analysis
Modal and vibrations analysis
Heat transfer
Fatigue analysis
Drop testing
Engineering testing
De-risking complex products
Bonus!
Get paired with other reliability enthusiasts during the event, we’ll take care of the first step by matching you beforehand based on your interests. Simply fill out this google form with your preferences and we’ll do the rest. Expect to receive a calendar invite a few days beforehand.
Agenda
3.00 - Registration and Introduction
3.30 - Bringing Reliable Products to Market Faster with Engineering Simulations
4.45 - Building a Reliability Plan
6.15 - Engineering testing: de-risking complex products on the path to production
7.30 - Drinks, food, and networking
Questions? Email finbarr(at)fictiv.com
Speakers:
Henry H. Vu, PhD, Senior Applications Engineer ANSYS, Inc.
Title: Bringing Reliable Products to Market Faster with Engineering Simulations
In this presentation, you will learn about the basic theory of Finite Element Analysis and common applications for product designers and engineers. Topics will include stress analysis, modal and vibrations analysis and heat transfer.
You will gain an understanding of the simulation process and pertinent issues such as geometry clean-up and simplification, material model definition, creation of high-quality computational meshes, contact technology, solution methods, and post-processing of results. Applications for fatigue analysis, drop testing, and design exploration will also be addressed.
Fred Schenkelberg founder at FMS Reliability
Title: Building a Reliability Plan
"Insanity: doing the same thing over and over and expecting different results." - attributed to Albert Einstein, basically, describes many organizations reliability program plans. The idea that a set of activities will effectively address all of the reliability risks of a new design is all too common in the industry. Why is this?
Let's explore recognizing the current situation and which activities will provide the most value. The focus should be on creating a product that meets customer and business expectations with the lowest risk and cost.
In this interactive presentation, we will discuss a couple of different situations and how to develop and manage the right reliability program. Startups with brand new technology to mature industrial equipment families of products all have reliability performance expectations, it is how we create and execute the reliability activities in support of the project that is key.
Each element of the entire program should add value, not done 'just because we always do that." With just a little thought you can create and justify a tailored plan. Plan to join the discussion.
Elias R. Samia - Mechanical Engineer at Cooper Perkins
Title: Engineering testing: de-risking complex products on the path to production
Testing and evaluating a design can be daunting and time-consuming. When do we decide and how do we conduct testing and experiments to achieve project and business goals? Let's talk about some general guidelines and some specific examples.
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