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#6437. Design, fabrication and thermal performance of a novel ultra-thin loop heat pipe with printed wick structure for mobile electronics cooling
| November 2026 | publication date |
| Proposal available till | 24-05-2025 |
| 4 total number of authors per manuscript | 0 $ |
| The title of the journal is available only for the authors who have already paid for |
| Journal’s subject area: |
| Industrial and Manufacturing Engineering; Energy Engineering and Power Technology; |
| place 1 | place 2 | place 3 | place 4 |
| Free | Free | Free | Free |
| 2510 $ | 1340 $ | 1170 $ | 1000 $ |
Contract №6437.1   | Contract №6437.2 | Contract №6437.3 | Contract №6437.4 |
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Abstract:
Ultra-thin loop heat pipe (UT-LHP) is a high-performance heat transfer component that satisfies the requirement of thermal management problems in miniaturized electronic devices. In this study, a novel UT-LHP with capillary wick structures is developed for mobile electronics cooling. By using a novel print wick structuring process on copper substrates, the total thickness of the UT-LHP can be decreased to only 0.3 mm. The effects of the filling ratio and wick structure distribution have been investigated to optimize the vapor–liquid circulation in the UT-LHP. The heat transfer performance of the UT-LHP has been evaluated under different heat loads and configurations. The minimal thermal resistance of the UT-LHP is 1.03 °C /W at a heat load of 3 W which corresponds to a heat flux of 3 W/cm2. It is confirmed that the proposed UT-LHP can transfer a heat load of up to 3 W with low sensitivity to gravity. The proposed novel UT-LHP is a promising thermal solution for high-performance mobile electronic devices.
Keywords:
Heat transfer; Mobile electronic devices; Printed wick structure; Thermal resistance; Ultra-thin loop heat pipe
Contacts :
2 place - free (for sale)
3 place - free (for sale)
4 place - free (for sale)
Abstract:
Ultra-thin loop heat pipe (UT-LHP) is a high-performance heat transfer component that satisfies the requirement of thermal management problems in miniaturized electronic devices. In this study, a novel UT-LHP with capillary wick structures is developed for mobile electronics cooling. By using a novel print wick structuring process on copper substrates, the total thickness of the UT-LHP can be decreased to only 0.3 mm. The effects of the filling ratio and wick structure distribution have been investigated to optimize the vapor–liquid circulation in the UT-LHP. The heat transfer performance of the UT-LHP has been evaluated under different heat loads and configurations. The minimal thermal resistance of the UT-LHP is 1.03 °C /W at a heat load of 3 W which corresponds to a heat flux of 3 W/cm2. It is confirmed that the proposed UT-LHP can transfer a heat load of up to 3 W with low sensitivity to gravity. The proposed novel UT-LHP is a promising thermal solution for high-performance mobile electronic devices.
Keywords:
Heat transfer; Mobile electronic devices; Printed wick structure; Thermal resistance; Ultra-thin loop heat pipe
Contacts :
