nTop

We're excited to share that Blanca Aguado, our Chief Operating Officer, will be speaking at #AU2024 this year about Manufacturing Automation & AI Partners in Fusion! We hope to see you there! Enroll here: https://lnkd.in/eFHQBDGs @adskFusion #AU2024 #nTop

I’m excited to be speaking this year on Manufacturing Automation & AI Partners in Fusion. Looking forward to sharing how nTop and Autodesk are working together to help engineering teams accelerate product development timelines via computational design. If you're attending the conference, please join us on Thursday, 10/17 https://lnkd.in/dg-VRbiK #AU2024 #autodesk #nTop

For the same reason implicit modeling excels at lattices, it can create complex arrays and patterns at virtually no extra cost. We're talking arrays of tens, hundreds, thousands, or more (and not just identical ones). The output can be combined with other geometry and modified as any other object would be. Design parameters (not just offsets!) can even be varied throughout space within the array while maintaining the same computation speed. #implicitmodeling is changing what geometric complexity in CAD means and I can't wait to help push the frontier further. I decided to start making this simplified scale model of an adjustable exhaust nozzle as an experiment, in nTop, from scratch. It's inspired by the F-15 design and I've had a super fun time building it out. The current iteration is fully parametric, meshes super fast, and even includes a basic encoding of the main linkage with two angle inputs. This way, we can run (meshless!) CFD on it in different configurations. If I want to export it to other software, I have several options, and the .implicit file is just 123kB. What new #implicitmodeling features for arrays and patterns would you like to see in nTop?

Congratulations Fynn-Henrik Duus on your master thesis! ? 'Concept development for the integration of mechanically highly resilient lattice structures in structural optimization using nTop's "implicit field technology" for additive manufacturing processes.' Awesome way to apply Field Optimization to a part like the GE Jet Engine Bracket. Thank you to Jaco Beckmann and Jens Telgkamp for sharing this work and advancing computational design methods!

I have always believed that ‘Together, we can do more’. A great example of how collaboration can push our industry forward is the marine engine cylinder head by W?rtsil?. Our collaboration with nTop and Nikon SLM Solutions allowed W?rtsil? to overcome important challenges and make the unprintable printable! Carolyn Schwaar wrote an excellent piece about this amazing project, that I encourage you to read. #3DPrinting?#Metal3Dprinting #3DPrintingChallenges

Meet Zenchi Sun, a rising junior at Avenues: The World School and a talented intern at nTop. ?? Zenchi embarked on a journey in computational design, mastering nTop’s advanced software to design and lightweight a drone. Read more about Zenchi's intern experience at nTop: https://lnkd.in/eTHCM_4P #nTop #computationaldesign #internship

With our partnership with nTop, we are excited to make Intact.Simulation for nTop commercially available! ???? ?????????????? ????????????????: Perform simulations on complex models without needing a conformal FE mesh ???????? ????????????????????: Efficiently analyze and optimize intricate designs ???????????? ??????????????????????: Set up and launch simulations within nTop, maintaining high fidelity throughout ???????????????? ????????????: Save and reuse simulation setups for future designs ????????????-???????? ???????????? ????????????????????: Validate designs and optimize models seamlessly using simulation results Thanks to all who beta-tested our software and workflow. You provided us with valuable feedback in making this integration work for you! ???????? ?? ???????? ??-???????? ?????????? ???? ?????????????? ????????: https://lnkd.in/e_cj-jR3 ??????????-??????????????: intact-solutions-announces-availability-of-intact-simulation-for-ntop #IS4NTOP

Check out this podcast with Pipeline Design & Engineering in an episode of Being and Engineer Podcast where Brad discussed how nTop's software enables engineers to create complex, optimized geometries for industries like aerospace, automotive, and medical devices, with a focus on additive manufacturing. If you're looking for a podcast to listen to during your workday, check this out! ?? #ntop #computationaldesign

Are you attending CDFAM NYC 2024? nTop CEO, Bradley Rothenberg will join Andrew Kappers from Siemens Energy to present on computational design for large turbine engines! October 2nd, mid-afternoon session. See you there! #nTop #CDFAM #computationaldesign

Implicit modeling is about a lot more than just lattices (as much as I love lattices). Highly parametric designs can be updated nearly instantly with no risk of small topological changes breaking the workflow. Derivatives can be accessed quickly for gradient-based parameter optimization within a broader engineering system. I had a lot of fun making this parametric impeller completely in nTop. This particular design has 16 parameters exposed, which could be reconfigured depending on the design study. If I save it to a .implicit file, each variant is just 61KB! nTop is making lots of advances in #implicitmodeling and Computational Design that I can't wait to see go out into the world. What modeling features and #computationaldesign examples would you like to see? (this gif is real time, by the way, not a time lapse!)