structural analysis

Ansys 2024 Release Highlights – Fluids

Recently LEAP ran an Ansys user group meeting in Perth where local Ansys users showcased their work and the LEAP Technical Team presented their highlights of the latest updates in Ansys Structures and Ansys Fluids.

If you were unable to make it in-person to the event or join the live stream, we’ve got the next best thing for you: a live recording of the Fluids update session presented Dr. Lewis Clark. Lewis is LEAP’s Fluids Technical Manager, and in the following videos he presents the highlights from the Ansys 2024 Fluids R1 and R2 releases.

Ansys 2024 Release Highlights – Structures

If you were unable to make it in-person to the event or join the live stream, we’ve got the next best thing for you: a live recording of the Structures update session presented by Dr. Luke Mosse. Luke is a Senior Application Engineer at LEAP Australia, and in the following videos he presents the highlights from the Ansys 2024 Structures & Explicit Dynamics R1 and R2 releases.

Ansys 2023 Release Highlights – Structures

Recording from LEAP’s recent series of Ansys 2023 R1 & R2 update seminars covering the latest updates in Ansys Structures & Explicit Dynamics. Thes videos are from our Melbourne event, presented by Dr. Luke Mosse, Senior Application Engineer at LEAP Australia.

How will AI impact the role of engineers in 2023 and beyond? We asked OpenAI’s ChatGPT!

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The internet is abuzz with excitement about ChatGPT, the new AI chatbot that allows you to interact with one of the world’s largest and most powerful AI models. Recent media coverage has ranged across the spectrum from hype to nope, but at LEAP we wanted to investigate further so we decided to go straight to the source – so we posed a series of questions directly to ChatGPT!

What’s new in Ansys for universities and academic researchers?

Highlights from a recent webinar by LEAP’s expert simulation team covering the most significant updates in Ansys for educators and academic researchers in ANZ – with a focus on Structures, Fluids and Electromagnetics across the last 2-3 years.

Reliability Physics Analysis Tools for Implementing MIL-810G STANDARD

In the final part of our series on using Electronics Reliability simulation tools to meet important industry standards, read how to apply Reliability Physics Analysis (RPA) in Ansys Sherlock to meet the MIL-STD-810G standard relating to environmental and lab tests approved for use by the US Department of Defence.

Reliability Physics Analysis Tools for Implementing DO-160G STANDARD

Read how to apply Reliability Physics Analysis (RPA) in Ansys Sherlock to the DO-160G standard which covers “Environmental Conditions and Test Procedures for Airborne Equipment” in the aerospace industry. PCBs installed in any airborne vehicles can be simulated in Ansys Sherlock to assess the vibrational and solder fatigue analysis in order to predict the life cycle/ Time-to-failure (TTF) of key components and the board itself.

Weld Creation in Ansys Mechanical 2022 R1

Welding is a commonly used method that plays a crucial role in the safety, structural integrity, and durability of many fabricated structures. Learn about the significant new features in Ansys Mechanical 2022 R1 which greatly aide the preparation of FEA models involving welded structures and will save you many days of model preparation time.

Reliability Physics Analysis Tools for Implementing GMW3172 STANDARD

Read how to apply Reliability Physics Analysis (RPA) in Ansys Sherlock to the GMW3172 Standard for “General Specification for Electrical/Electronic Components – Environmental/Durability”, part of engineering standards by General Motors which applies to electrical components for passenger/commercial vehicles & trucks.

Reliability Physics Analysis Tools for Implementing SAE J3168 STANDARD

Read how to apply Reliability Physics Analysis (RPA) in Ansys Sherlock to the SAE J3168 standard, covering Electrical, Electronic, Electromechanical Equipment, Modules and Components. This standard was jointly developed by the SAE Automotive Electronic Systems Reliability Standards Committee and SAE Avionics Process Management Committee, and is the first reliability physics analysis (RPA) standard developed specifically for use in the Aerospace, Automotive, Defence and other High-Performance (AADHP) industries.