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Development and Optomisation of Conformal Cooling Channel with Dynamic Thermal Analysis

Key Information

AM Tech
Array
Industry
Array
Potential Applications

Design 3D printed conformal cooling channel

Collaborators
Namic @ NYP X Sunningdale Tech

Problem Statement

Increasing industries have realized the benefits of conformal cooling, and more moulding inserts are leveraging on embedded conformal cooling design to be competitive. However, conformal cooling channels are currently manually designed. The design process is tough and time-consuming, and significant human empirical knowledge is required in conformal cooling design.

Objective

This project aims to develop a software product and solution for automatic design and optimization of conformal cooling channels, which incorporates dynamic thermal analysis and assessment in a single system.

Key Benefits/Outcomes

  • The automated software could enhance manufacturing productivity by improving part quality, reducing design lead time and tooling verification time.
  • The solution also minimizes the dependence on human knowledge capital, and solve the manpower intensive process in developing rapid tooling with conformal cooling.
  • It allows user to design 3D printed conformal cooling channel more efficiently, at lower cost and shorter timelines.
  • 3D printed conformal cooling could potentially reduce injection moulding cycle times between 30%-60% over conventional cooling system.