源阳热能(Yythermal)直流风扇和鼓风机选型指南
March 19th, 2020 - 选型指南 源阳热能 - DISH BLOWER,AXIAL FAN,DISH AXIAL FAN,BLOWER FAN,直流鼓风机,DC BLOWER,鼓风机风扇,直流风扇,DC FAN,轴流风机,碟式鼓风机,A6025_VII,B4009_I,D8015_VIII,A4015_I,D6625_I,D8015_IV,A4020_III,A8025_II,D8015_IX,D8015_VI,D8010_I,A2507_I,A2510_II,D9010_I,A5015_I,B3007_I,A12025_IV
铲齿/铝挤散热器定制
服务提供商 - 源阳热能 支持铲齿散热器鳍片最大加工厚度0.1-10mm,最大宽度600mm,铝挤散热器鳍片最小铝挤厚度5mm,最小鳍片间距1cm;定制散热器产品工艺有热管焊接,穿片,打磨,铲齿,铝挤及CNC加工修边飞面等。
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【经验】设备外壳自然散热对流系数估算经验
2022-12-13 - 设计经验 散热方式一般分为被动散热与主动散热两种,其中被动散热由于无需额外散热设备,是大多数低功耗设备的首选散热方式。然而,在设计被动散热设备时,由于其散热能力有限,存在极限值,需要在设计之初确定机器的散热量,本文将介绍被动散热量初步估算经验。
【经验】利用热仿真软件FlothermXT确定水冷系统散热能力
2022-12-14 - 设计经验 目前水冷散热器主要分为两部分,冷头将热源产生的热量转移至流体里,流体将热量带到换热器部分通过风冷将热量转移至环境中,实现热传递,达到散热效果。然而对于水冷系统的散热能力却很难经验评估,本文通过热仿真软件FlothermXT研究水冷换热器的换热能力。
What Is a Heat Sink in a Computer
2025-12-05 - 技术探讨 In modern computing, managing heat is essential to ensure performance and longevity, and a heat sink in a computer plays a critical role in this process. A heat sink is a component designed to absorb and dissipate heat generated by key hardware, such as the CPU, GPU, and power supply units, preventing overheating and maintaining stable operation. A typical computer heat sink is made from aluminum or copper, materials known for their high thermal conductivity. The heat sink is mounted directly onto the processor or electronic component, often with a thermal paste layer in between to improve hea
【经验】光模块中各导热材料的应用及优缺点
2021-05-04 - 设计经验 光模块导热主要会用到空气,导热垫片,导热凝胶,U形金属块及高导热石墨等导热材料。其中空气没有成本但导热太差;导热垫片性价比高,但有一定压应力可能会造成光路偏离;导热凝胶可自动化生产且贴合度,任意成型,但前期准入门槛高;U形金属块导热效率高但增加重量,且需要开模;高导热石墨导热及均热效果突出但目前技术不够成熟且成本高。
【经验】利用热仿真软件Flotherm进行自然散热齿片设计
2022-11-02 - 设计经验 对于电子设备而言,自然散热与风冷是最常用的散热方式,相对于自然散热,风冷虽然拥有更好的散热效果,然而其不可避免的噪声问题、可靠性问题等问题,工程师一直在追求更安静、可靠性更高的被动散热。本文介绍如何利用热仿真软件Flotherm进行自然散热齿片设计。
Heat Pipe Heat Sinks – The Silent Heroes of Modern Electronics
2025-10-27 - 技术探讨 With the continued push for smaller, faster, and more energy-intensive devices, heat pipe heat sinks are likely to remain a key technology in thermal management. Their ability to silently transfer heat without moving parts makes them a backbone of modern electronics, ensuring that devices stay cool, reliable, and safe for years to come.
【经验】如何提高散热性能同时降低成本?通过热仿真软件FlothermXT优化散热器齿片间距
2023-06-26 - 设计经验 一客户需要使用热管穿Fin散热器进行散热,目前遇到散热问题,产品的温度超过要求4℃左右,希望在不改变风扇与整体结构的基础上能将温度降低达标。为此为客户进行理论与热仿真分析,通过调整散热器齿片间距的方式,提高散热器散热性能,达到温度要求,同时新方案的散热器成本相对更低,成功解决客户散热难题。
Understanding CPU Heat Sink Prices: Factors That Influence Cost and Value
2025-09-25 - 技术探讨 As technology advances, the demand for efficient and reliable cooling solutions continues to rise, particularly in the realm of computing. One of the most crucial components for cooling a computer’s central processing unit (CPU) is the CPU heat sink. Whether you‘re building a custom gaming PC, upgrading a workstation, or simply ensuring the longevity of your computer, the heat sink plays a vital role in keeping the CPU from overheating. But what drives the price of a CPU heat sink, and how can consumers navigate the options available in the market?
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可定制水冷板加工平面度范围0.3mm,粗糙度均最大可满足0.8umMAX以内;最大加工长度1200mm,最大厚度100mm;水冷管直径可定制范围Φ8-Φ42mm。
最小起订量:1pcs 提交需求>
可定制风扇尺寸覆盖18x18x04mm~165x165x25mm,随散热器大小而定制;风扇转速范围:1000 RPM~16500 RPM。支持DC风扇,直流风扇轴流风机,鼓风机以及电脑笔记本风扇等产品定制。
最小起订量:500pcs 提交需求>
