A Heatpipe Heatsink Is A Heatsink With A Heatpipe. The Heatpipe Itself Does Not Dissipate Heat, But It Transports Heat From One End Of The Heat Pipe To The Other End Of The Heat Pipe Through Its Own Internal Structure, And So On, Keeping The CPU Temperature At A Low Level. Heatpipe Heatsinks Have The Following Advantages Over Other Heatsinks.
Ⅰ. Special Thermal Conductivity Mechanism
Heatpipe Heatsinks Can Be Used Without Fans, Thus Reducing Noise Generation And Producing A Relatively Quiet Usage Environment. Heatpipe Heatsinks Are Highly Efficient At Directing Heat Through The Heatpipe, Thus Keeping The CPU’s Operating Temperature At A Low Level. The Heatpipe Itself Does Not Conduct Heat, But Works As Follows: The Liquid Inside The Heatpipe Is Vaporized By Heat, And The Vaporized Saturated Steam Flows Like The Cold End, Condensing The Liquid At The Cold End And Releasing Heat, Then The Liquid Returns To The Hot End Through The Capillary Action Inside The Heatpipe And Continues To Vaporize And Absorb Heat, And So On, Completing The Transfer Of Heat Again And Again, And It Works As Follows：
Ⅱ、Efficient Heat Dissipation Effect
Heat Pipe Heatsink Has A Highly Efficient Heat Dissipation Effect, Because The Heat Pipe Has A Unique Thermal Conductivity Characteristics, Under The Conditions Of Natural Cooling, It Heat Dissipation Performance Is More Than Ten Times The Performance Of Ordinary Solid Heatsink.
Ⅲ、Relatively Low Prices
Heat Pipe Heatsinks Have A Much Higher Cooling Effect Than Ordinary Solid Heatsinks, But In Terms Of Cost Are Just A Few More Heat Pipes Than Ordinary Heatsinks. The Cost Of Heat Pipes Is Not High, So The Slight Increase In Cost In Exchange For Such A Significant Cooling Effect Is Still Very Cost Effective.
Heatpipe Heatsink Heatpipe
Heat Pipe Heatsink Basically Consists Of Two Parts: The Base Plate And The Heat Pipe. The Base Plate Is Commonly Made Of Aluminum Alloy And Usually Uses Extruded, Spade Tooth Structure. Of Course, The Base Plate Also Has A Buckle FIN Piece Of This Type, Buckle FIN Using The Stamping Stack Processing Method, And Then FIN Piece And The Base Plate With Welding Into A Whole. The Other Surface Of The Substrate Is Opened With A Groove, And The Groove Is Riveted With A Heat Pipe; The Electronic Components Are Installed Above The Heat Pipe Before Use, And The Heat Generated On The Electronic Components Is Transferred To The Heat Pipe, And Then The Heat Pipe Transfers The Heat To The Substrate, And Finally The Heat Dissipation Teeth On The Substrate Are Transferred To The Outside World, Thus Realizing The Heat Dissipation Of The Electronic Components.
Ⅳ）Services And Capabilities Of Regis
Regis technical team has 15 years of experience in radiator design and manufacturing, and has maintained market-leading technology through years of cooperation with world-renowned companies. Can provide from thermal simulation, mechanical design optimization, production, testing and quality improvement, to customer after-sales service. At present, the company has more than 100 sets of processing equipment, and has more than 3,000 sets of various extrusion dies, cold forging dies, stamping dies and die-casting dies. Products are exported to more than 60 countries and regions around the world, serving more than 80 customers around the world.
1》 Design Services
- Computer Fluid Dynamics (CFD) helps radiator research and development, reducing research and development costs and time
- Computer-aided design (CAD) provides guarantee for radiator structure design
- Passive Solutions for Increased Reliability
- Estimated cost of the product
- Reduce volume and weight
2》Sample Design And Reliability Testing
- CMMs and precision measuring tools
- Thermal Resistance Test Equipment
- Hot Chamber Shock Testing and Cycling
- Salt Spray Testing for Corrosion Analysis
- State-of-the-art CNC machinery
- Strict quality management
- The latest production technology
- Focus on continuous improvement
- Sturdy packaging design
In this day and age, personal computers have become so popular that almost everyone has a desktop computer at home. The CPU is the heart of the computer, and the CPU generates a lot of heat when it works. Water-cooled heat sinks have good heat dissipation and appearance, but are relatively expensive, while air-cooled heat sinks are not as luxurious as water-cooled heat sinks, but are very inexpensive, while the heat dissipation effect is not bad, and have good cost performance. This air-cooled heat sink is mostly heatpipe heatsink.