What question did this study set out to answer?

The aim is to analyze thermal efficiency in CPU heat sinks with varying perforation designs and shapes.

February 2, 2026

Analyzing Thermal Efficiency with Pin Fins, Perforated Bases, SolidWorks 2023 Transient Analysis

Key Points

The aim is to analyze thermal efficiency in CPU heat sinks with varying perforation designs and shapes.
Created and analyzed 15 CPU heat sink designs with circular, hexagonal, and rectangular shapes.
Applied a heat flux of 65 W in boundary conditions.
Considered surrounding air at 25°C and a heat transfer coefficient of 6 W/m2·K.
Examined the effects of different perforation sizes and orientations on thermal performance.
Perforation led to a weight decrease of up to 67.4% in the heat sinks.
Perforation orientation significantly impacted heat dissipation over perforation size.
Vertically perforated pins and base R5 resulted in the lowest maximum temperature of 77.5°C and weight of 412.56 g.

Abstract

A group of fifteen central processing unit (CPU) heat sinks of circular, hexagonal, and rectangular shapes with different f in designs and perforation directions was created and analyzed using SolidWorks 2023. In boundary conditions, a heat flux of 65 W was applied, while the surrounding air was at 25°C, and a heat transfer coefficient of 6 W/m2·K was considered. Perforation caused a weight decrease of up to 67.4% in the heat sinks, while perforation orientations had a greater effect on heat dissipation than perforation size. In heat sinks with vertically perforated pins and base R5, the lowest maximum temperature of 77.5°C, the lowest weight of 412.56 g, and the best heat dissipation occurred.

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Cite This Study

Serwan Sarbast Mohammed Talabani (Thu,) studied this question.

synapsesocial.com/papers/6980feabc1c9540dea810f16 https://doi.org/https://doi.org/10.14500/aro.12357

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