Engineering Day | Webinar

Designing 3D printed materials based on virtual material testing

Towards the realization of "Materials Informatics"

Date: 6 October 2021

Timetable: 14:00 CET

Speaker/s: Koji Yamamoto

Language: English

Koji Yamamoto

The microstructure of materials can now be controlled by additive manufacturing process with 3D printers. For example, it is possible to reduce the weight of a material by creating voids. This is expected to be superior to composite materials such as CFRP. This is not the only important feature. The material properties can be freely controlled by designing the voids as well.

In order to design such materials with a high degree of freedom, it is recommended to use virtual material tests and a data science approach that effectively utilizes the big material database obtained through those tests.

In this presentation, we will introduce an analysis case including an operational demonstration where a linked solution between Multiscale.Sim and Ansys Granta MI is used to achieve this.

Topics

  • Additive manufacturing;

  • Virtual material testing;

  • Multiscale analysis;

  • Lattice structures;

  • Composite materials;

  • Materials informatics.

  • ICME.



General Introduction of J-OCTA

Enrolment Methods

The event is free: you need to register to attend.

A Web platform (GoToWebinar) is used, which does not require local software installation.
You can participate in the session via: MAC, PC, or any mobile device.

Upon registration, a link, and credentials to participate will be sent to the e-mail address provided.

You can ask questions and participate in the discussion in the chat room.

Afterwards you will be able to watch the recording of this webinar, and our other initiatives, by visiting the Media Center on our website or our YouTube channel.

Engineering Day

2021, 6th October | Hour: 14:00 CET

Enjoy the initiative!

 

Find out more

software

Multiscale.Sim

A new tool for Ansys that facilitates materials testing and microscopic analysis of composite materials

Using this technique, all material constants can be evaluated without expensive experimental campaigns.

multiscale composites

NEWSROOM

Stay connected with us: news, analysis and trends from our experts.

Newsroom  

MEDIA CENTER

Scroll through our Media Center to view all the videos, video-tutorials and recorded webinars.

Media Center  

CASE STUDY

CFD Characterization of the Ventricular Assist Device HeartAssist 5® Through a Sliding Mesh Approach

Analysis to determine possible optimizations to enhance device safety and efficacy for long-term patient use

This technical article describes how high-end numerical Computational Fluid Dynamics (CFD) simulations were applied to mimic the realistic operating conditions of a Ventricular Assist Device (VADs) and analyze its hemodynamics in order to identify potential areas for optimization of the device’s performance, safety and efficacy.

ansys cfd biomechanics