nTop Live: Blending Gyroids & TPMS Structures for Heat Exchanger Inlets & Outlets
To minimize turbulence and pressure drop, heat exchanger inlets and outlets must create a smooth flow transition. With Additive Manufacturing, you can produce such smooth transitions while also improving the efficiency of your heat exchangers using gyroids and TPMS structures.
In this nTop Live, Dr. Ryan O’Hara, Technical Director of Aerospace and Defence at nTopology, shows you how to smoothen the flow of an advanced heat exchanger in nTop Platform. He creates a design workflow that creates TPMS structures with smooth blends to guide the flow in a heat exchanger inlet.
Watch and learn how to:
- Use TPMS structures to isolate the domains of a heat exchanger
- Design smooth features to minimize turbulence in a flow field
- Create gradient transitions between any lattice and structural element
Download the files Ryan used in this presentation here: https://ntopolo.gy/6r2
Don’t have a license of nTop Platform yet? Get a demo: https://ntopolo.gy/demo
Видео nTop Live: Blending Gyroids & TPMS Structures for Heat Exchanger Inlets & Outlets канала nTop
In this nTop Live, Dr. Ryan O’Hara, Technical Director of Aerospace and Defence at nTopology, shows you how to smoothen the flow of an advanced heat exchanger in nTop Platform. He creates a design workflow that creates TPMS structures with smooth blends to guide the flow in a heat exchanger inlet.
Watch and learn how to:
- Use TPMS structures to isolate the domains of a heat exchanger
- Design smooth features to minimize turbulence in a flow field
- Create gradient transitions between any lattice and structural element
Download the files Ryan used in this presentation here: https://ntopolo.gy/6r2
Don’t have a license of nTop Platform yet? Get a demo: https://ntopolo.gy/demo
Видео nTop Live: Blending Gyroids & TPMS Structures for Heat Exchanger Inlets & Outlets канала nTop
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Lightweighting 3D Printed Injection Mold Tools: Reduce Cost & Manufacturing TimenTop Live: Create multiple unique ornament designs using a reusable workflownTop Live: 3D Printed Foam Design for Automotive Seat CushionnTop Live: Working with Assemblies & Part Consolidation in nTop PlatformnTop Live: Generate Cooling Channels with Fins for 3D Printed Injection MoldsnTopology: Next Generation Design SoftwarenTopology x EOS Print Interview - Formnext 2022nTop Live: Support StructuresnTop Live: Reusable Design Workflows for Large Product Families of Medical DevicesnTop Live: Streamlined Design of Lattices for Osseointegration Using Custom BlocksnTop Live: Simple Characterizations of Osseointegrative Lattice Structure using Custom BlocksnTop for Autodesk FusionnTop Live: Computational Design of Performance-Driven Heat SinksnTop Live: Streamlined Customization and Lightweighting of ProstheticsnTop Live: How to Have Complete Control over Geometry via Field-Driven DesignLightweighting an impeller for additive manufacturing7 Practical Tips to Get the Most out of nTopologynTop Live: Rapid Design of Thermoforming Molds for Clamshell PackagingnTop Live: Exporting Topology Optimization Results from nTop to external CAD - June 24 2020nTop Live: What’s New in nTop Platform | September 2020nTop Live: Lightweight & Cut Costs of 3D Printed Orthotics & Prosthetic