Asset 12 Asset 10 Asset 15 Asset 15 autodesk_icon_font_04_06_16_kl Asset 11 autodesk_icon_font_04_06_16_kl autodesk_icon_font_1_18_17_start_over-01

Worldwide Sites

You have been detected as being from . Where applicable, you can see country-specific product information, offers, and pricing.

Change country/language X

Keyboard ALT + g to toggle grid overlay

11 Factors for efficient mold cooling

Autodesk

Small changes in cooling can have a huge impact on cycle time. Get an overview of all the ways you can maximize cooling efficiency to produce higher-quality parts more rapidly.

Reducing Mold Cycle Time

In every minute of cycle time, cooling consumes the vast majority of clock-ticks. That makes it an important factor in determining the profitability of a part. Mold and part designers understand the implications, relying on some combination of expertise, experience, intuition, prototyping and CAE analysis to develop trusted cooling system designs.

This approach helps practicing engineers maximize productivity. In other words, when you create a cooling system that works well and performs reliably for your application, you can spend more time designing high-quality molds as quickly as possible.

But pressures to reduce cycle time and increase cost-efficiency are growing more intense by the day. If you can find new ways to shorten cycle time or minimize piece part cost — without sacrificing your quality standards — it’s a clear opportunity to build valuable competitive advantage.

Download this eBook to get an overview of all the ways mold and part designers can maximize cooling efficiency to produce higher-quality parts more rapidly.