Download the Thermal Management Guide
Fill out the form to receive nTop's Guide to Thermal Management in your inbox
What's included in the guide?
- What major industries drive the demand for more efficient heat exchangers
- Why additive manufacturing is a disruptive technology for heat exchanger design
- What is the basic anatomy of an AM heat exchanger
- What are the benefits of AM HEXs, with use cases and examples
- How can you use AM to optimize other thermal management system elements
Exploring Heat Exchanger Design for Additive Manufacturing
As products become higher-powered, electrified, and digitally connected, the heat they generate increases rapidly. Yet, the available space that a thermal management system can occupy usually remains the same.
This creates a need for next-generation Heat Exchangers (HEXs) that are more efficient and compact than their predecessors.
This guide explores how additive manufacturing, when combined with advanced engineering design software, can enable thermal engineers to address this need for more efficient and compact HEXs.
Software built on transformative technology
Implicit Modeling
Design technology that will not break.
Remove design limitations and overcome fundamental challenges with our unique modeling engine.
Field-Driven Design
Your data goes in; optimized designs come out.
Feed your design workflows with real-world data, physics, and logic to harness the power of implicit modeling.
Design Process Automation
Build processes, not just parts.
Create reusable workflows and algorithmic processes that save you time and empower your team to scale.
Is your software ready for additive manufacturing?
You can only reap the benefits of additive manufacturing for thermal management if you have the right engineering design tools.