A Brief Description of Thermally Conductive Materials - Carbon Fiber Thermal Pads
The popularization and research of 5G communication technology enables people to feel the experience of high-speed surfing in the network world, and also promotes the development of some 5G-related industries, such as unmanned driving, VR/AR, cloud computing, etc., 5G communication technology In addition to bringing people a pleasant network experience, it also has the problem of heat dissipation that needs to be solved.
Most of the heat source in the equipment is its power consumption electronic components, so the higher the power of the electronic components, the greater the heat it will generate, and applications such as 5G mobile phones and 5G communication base stations heat is much greater than the previous generation of products, so the heat dissipation of the device affects its reliability.
Fig.1
Why are thermally conductive materials used in addition to heat dissipation devices? The main reason is that the heat dissipation device and the surface of the heat source are not completely bonded, and there is still a large amount of uncontacted area, so the heat will be affected by the air when it is conducted between the two, and the conduction rate will be reduced, so it will be filled with a heat-conducting material. Between the heat dissipation device and the heat source, remove the air in the gap and fill the pits in the gap, thereby reducing the contact thermal resistance between the two.
Carbon fiber thermal pad is a thermal pad made of carbon fiber silica gel. It acts between the power device and the radiator. By filling the gap between the two, the air is removed, so that the heat from the heat source can be accelerated to the heat sink. device, so as to ensure the service life and performance of the body. Since this product uses carbon fiber as raw material, its thermal conductivity can exceed that of copper, and it has good mechanical properties, electrical conductivity, and excellent thermal conductivity and radiation cooling capabilities.
For some equipment or electronic products with high heat dissipation requirements today, carbon fiber thermal pads with high thermal conductivity are used to effectively protect the normal operation of the equipment and improve its reliability.
- |
- +1 赞 0
- 收藏
- 评论 0
本文由三年不鸣转载自SHEEN Official Website,原文标题为:A brief description of thermally conductive materials - carbon fiber thermal pads,本站所有转载文章系出于传递更多信息之目的,且明确注明来源,不希望被转载的媒体或个人可与我们联系,我们将立即进行删除处理。
相关推荐
Thermal Putty vs Thermal Pad: Which Is Right for You?
When it comes to managing heat in electronic devices, selecting the right thermal interface material (TIM) is crucial for ensuring optimal performance and longevity. Among the popular TIM options, thermal putty and thermal pads are widely used. This article explores the key differences to help you choose the best solution for your needs.
An Introduction and Comprehensive Guide to Thermal Interface Materials
This article is mainly SHEEN‘s comprehensive guide to what is a thermal interface material, introduces a number of thermal interface materials, and introduces a number of SHEEN applications.
Thermally Conductive Materials with Ultra-high Thermal Conductivity
The thermally conductive material is a general term for materials that are coated between the heating device and the cooling device of the equipment and reduce the contact thermal resistance between the two.
鸿富诚(HFC)热界面材料/屏蔽材料/吸波材料选型指南
目录- 公司介绍 Company Profile 热界面材料介绍 Thermal Interface Material Introduction 导热硅胶垫片 Thermal Pad 各向异性导热垫片 Anisotropic Thermal Pad 导热凝胶 Thermal Gel 导电泡棉 FOF Gasket 石墨泡棉 Graphite Foam 半包型导电泡棉 Half-wrapped Gasket SMT导电泡棉 SMT Gasket 全方位导电泡棉 XYZ Conductive Foam 导电PE Conductive PE 导电毛丝 Conductive FOA 导电布胶带 Conductive Fabric Tape 铜/铝箔胶带 Copper/Atuminum Foil Tape 吸波材料 Wave-absorbing Material 导热吸波材料 Thermal Conductive Absorbing Material
型号- H800-LY,HFS-15,HFS-18,H100,HFC-MC,H300,HFC-SMT,H500,H700,H350-SOFT,H100RS,H300-RB,HTG-150DK,HFC-MC系列,HTG-150D,HFC-GB系列,SMFB系列,H200RS,HFC-MFZ系列,HFC-AM,H1200,H250,HFC-GR系列,HTG-1000,HTG-100DK,H1000,HFS-20,H1000-SOFT,H150RS,HFC-A18000,SMFB,H250RS,HTG-600,HTG-500SF,HTG-800,SMFA,HTG-200,HFC-AM系列,HFC-MF,H300MAS,HFC-MT,SMT,H500-RB,HTG-200D,HFC-A系列,HFC-A25000,H150A15,H500-LY,HTG-800D,H100A15,HFS-30,HFC-AM5000,H200,H400,H600,H200-SOFT,H800,H300-SOFT,H100-SOFT,HFC-MF系列,HFC-AM1000,H200MAS,HFC-A5000,SMFA系列,H300-HC,HTG-300SF,HFC-MFZ,H150,HFC-GR,HTDG-250,H150-LY,H700-SOFT,H600-LY,H300-LY,HFC-A,H300-HR,H300-DR,SMT系列,HTG-300,HFC-GB,H200-LD,HTG-500,H150-LD
金菱通达(GLPOLY)热对策材料选型指南
目录- Company Profile Low Density Thermally Conductivity Silicone Gel Pad/Stressless Silicone Thermal Putty Gel Thermal Pad Thermal Silicone Pad & Silicone Thermal Fiberglass/Film EMI absorber/Absorption Gel Two-part Liquid Thermal Gap Pad/PCMs/Non-Silicone Sealing Compound Silicone/Non-Silicone Thermal grease Silicone Thermal Tape Graphite Thermal radiation Pad/Vibration Dampening Silicone Pad
型号- XK-G20E,XK-P20系列,XK-R系列,XK-P PUTTY,XK-PN50,XK-Z系列,XK-P20LD,XK-P80,XK-RE SERIES,XK-RAY310,XK-A100,XK-FN系列,XK-F系列,XK-FN,XK-FN20,XK-J系列,XK-C35D,XK-C35C,XK-PN45,XK-GN SERIES,XK-Z,XK-FST,XK-F35,XK-R30,XK-Z SERIES,XK-F10ST,XK-FN10,XK-P PUTTY SERIES,XK-FN15,XK-FST系列,XK-SF SERIES,XK-P45-PUTTY,XK-GN20,XK-Z15,XK-RE系列,XK-FN50,XK-X SERIES,XK-T SERIES,XK-G40,XK-F20,XK-J20,XK-SF35,XK-XN40,XK-P60,XK-RAY,XK-J25,XK-FST SERIES,XK-C系列,XK-SN SERIES,XK-R20,XK-G系列,XK-PN系列,XK-K系列,XK-TN08,XK-GN15,XK-XN系列,XK-SN系列,XK-FN40,XK-XN50,XK-G30,XK-S15LV,XK-F10,XK-C35,XK-PN60,XK-S30LV,XK-TN,XK-J10,XK-P50,XK-F15,XK-A SERIES,XK-TN12,XK-PS SERIES,XK-R10,XK-J18,XK-X50,XK-SF系列,XK-R15,XK-P30S20,XK-A80,XK-A60,XK-P系列,XK-PLD SERIES,XK-P20 SERIES,XK-PN15,XK-T系列,XK-P50-PUTTY,XK-C20,XK-X系列,XK-G20,XK-S20LV,XK-C25,XK-PLD,XK-SN,XK-SF15,XK-GEL 100,XK-SF18,XK-SN10,XK-P45,XK-PS系列,XK-P80-P,XK-SF,XK-K4,XK-X40,XK-TN SERIES,XK-F20ST,XK-K6,XK-P20S,XK-F SERIES,XK-GN30,XK-J SERIES,XK-S12LV,XK-C15,XK-C16,XK-P PUTTY 系列,XK-K10,XK-P15LD,XK-G15,XK-P50-P,XK-P30,XK-SN20,XK-P SERIES,XK-P80-PUTTY,XK-RE,XK-PN SERIES,XK-C,XK-TN系列,XK-G,XK-F,XK-F60,XK-R SERIES,XK-S25LV,XK-PN30,XK-A,XK-P20S20,XK-R,XK-A系列,XK-T,XK-R10E9,XK-PLD系列,XK-P20,BETA GEL 100,XK-X,XK-P25,XK-K,XK-J,XK-P45-P,XK-RAY SERIES,XK-P,XK-G SERIES,XK-PN,XK-T09,XK-A30,XK-PS,XK-F50,XK-F15ST,XK-C SERIES,XK-PN20,XK-K SERIES,XK-XN,XK-XN10,XK-XN SERIES,XK-RAY 系列,XK-P10LD,XK-FN SERIES,XK-R50,XK-GN系列,XK-T12,XK-GN,XK-ANFC,XK-X10
Parker Chomerics(派克固美丽)热界面材料(用于电子产品散热)选型指南
目录- Company Profile Heat Transfer Fundamentals Thermal Gels Gap Filler Pads Phase Change Materials Thermal Tapes Potting and Underfill Materials Dielectric Pads Heat Spreaders Thermal Greases Glossary
型号- PAD30G,60-XX-D065-ZZZZ,60-XX-4353-ZZZZ,60-XX-D379-ZZZZ,60-XX-D417-ZZZZ,G570,PAD30A,GEL 75,T500,60-XX-6875-ZZZZ,60-XX-D420-ZZZZ,G974,60-XX-D381-ZZZZ,60-XX-4305-ZZZZ,60-XX-D382-ZZZZ,G579,579PN,A580,60-XX-D396-ZZZZ,T630,60-XX-4997-ZZZZ,60-XX-4306-ZZZZ,PAD 30,60-XX-D416-ZZZZ,6W-XX-YYYY-ZZZZ,60-XX-4996-ZZZZ,60-XX-D421-ZZZZ,60-XX-D402-ZZZZ,60-XX-6956-ZZZZ,60-XX-D404-ZZZZ,G569,60-XX-D415-ZZZZ,60-XX-D418-ZZZZ,60-XX-D429-ZZZZ,65-00-T670-3790,65-1P-CIP35-5600,60-XX-D395-ZZZZ,60-XX-D398-ZZZZ,60-XX-5792-ZZZZ,69-1X-YYYYY-ZZZZZZ,65-00-CIP35-0400,60-XX-D406-ZZZZ,T404,T647,60-12-20264-TW10,PAD60A,T405,T646,60-XX-D400-ZZZZ,T766,T644,T642,60-XX-4511-ZZZZ,60-XX-D384-ZZZZ,60-XX-D428-ZZZZ,60-XX-5791-ZZZZ,65-00-YYYY-ZZZZ,60-XX-D419-ZZZZ,T650,60-XX-D385-ZZZZ,60-XX-D391-ZZZZ,T636,T635,60-XX-D394-ZZZZ,G580,TC50,60-XX-D397-ZZZZ,60-XX-D378-ZZZZ,60-XX-D375-ZZZZ,60-XX-D425-ZZZZ,1641,65-5P-CIP35-10452,60-XX-D422-ZZZZ,60-XX-D372-ZZZZ,60-XX-D403-ZZZZ,60-12-20267-TW10,GEL 37,6W-XX-1015-ZZZZZZ,60-XX-D373-ZZZZ,60-XX-D409-ZZZZ,PC07DM-7,60-XX-4661-ZZZZ,579KT,60-XX-D387-ZZZZ,60-XX-YYYY-ZZZZ,60-XX-D412-ZZZZ,65-00-1641-0000,60-XX-D388-ZZZZ,65-00-T644-0045,65-00-T644-0200,GEL 30,64-XX-YYYY-ZZZZ,60-XX-D374-ZZZZ,60-XX-D390-ZZZZ,60-XX-4659-ZZZZ,60-XX-D408-ZZZZ,T670,65-00-T642-0035,T405-R,60-XX-4374-ZZZZ,T418,60-XX-D424-ZZZZ,60-XX-D410-ZZZZ,GEL 45,T777,1642 65-00-1642-0000,60-XX-D413-ZZZZ,T414,T411,T412,1671,60-12-20266-TW10,60-XX-8531-ZZZZ,60-12-20269-TW10,60-XX-D407-ZZZZ,PAD 60,569PN,60-XX-5527-ZZZZ,65-XX-YYYYY-ZZZZ,60-XX-5442-ZZZZ,60-XX-D426-ZZZZ,569,65-00-CIP35-0200,65-00-CIP35-0045,T660,PAD30PN,HCS10,T725,60-XX-D370-ZZZZ,60-XX-D376-ZZZZ,67-XX-YYYY-ZZZZ,65-00-T642-0250,60-XX-8302-ZZZZ,T444,GEL 8010,T766-06,65-00-T646-0045,A569,65-01-1641-0000,60-XX-D423-ZZZZ,PAD30KT,60-XX-D392-ZZZZ,60-XX-4969-ZZZZ,T609,570,65-00-T646-0200,1678,1674,60-XX-D371-ZZZZ,974,60-XX-D399-ZZZZ,60-XX-D405-ZZZZ,579,60-XX-D401-ZZZZ,976,60-XX-D377-ZZZZ,65-00-CIP35-1200,65-00-T647-0200,65-00-T647-0045,60-XX-D393-ZZZZ,60-XX-D427-ZZZZ,65-00-T650-0160,T558,HCS10G,6W-XX-0909-ZZZZZZ,T710,T557,CIP 35,60-XX-D383-ZZZZ,A579,PAD60,60-XX-D386-ZZZZ,580,60-XX-D389-ZZZZ,A570,60-XX-D430-ZZZZ,GEL 25NS,60-XX-D411-ZZZZ,HCS10A,60-XX-D414-ZZZZ,60-12-20268-TW10,T441,60-XX-D380-ZZZZ,60-12-20265-TW10
Waermtimo WT5902 and WT5921 Series High Thermal Conductive Materials Suitable for VR Glasses Heat Conduction
Important components are densely distributed on the motherboards of the somatosensory devices, like VR glasses or VR headsets. High thermal conductive materials suitable for heat conduction and evacuation of VR glasses include Waermtimo WT5902 series thermal pad and WT5921 series thermal gel.
你见过“会相变”的导热垫片吗?——导热相变材料
导热硅胶片方便裁剪与贴附,但是导热效果不够导热膏好,导热膏便于重复返工,导热效率相对导热硅胶片要好但是操作没有导热硅胶片便利,人们往往会选择哪一种而考虑许久,这时如果出现一种集合两者的优点的导热材料该多好,下面给大家介绍今天的推荐:导热相变材料。
Thermal Pad vs Paste: Which is Better for Your Needs?
When it comes to thermal management in electronic devices, choosing the right thermal interface material (TIM) is crucial. Two common options are thermal pads and thermal paste. Each has its unique properties and applications, and understanding their differences can help you make an informed decision.
CSF45 碳纤维导热片
描述- CSF45碳纤维导热片是一种复合材料,具有低密度、良好耐用性等特点。它采用碳纤维增强的液体硅橡胶,具有良好的导热性能,适用于半导体散热装置等多种应用。
型号- CSF45
Advantages of Carbon Fiber Thermal Pads over Silicone Thermal Pads
The highest thermal conductivity of Sheen‘s carbon fiber thermal pad CSF series has reached 45W/mK. The CSF series has a lower density than traditional thermal conductive silicone pads, low precipitation, is non-sticky, better mechanical properties, and other advantages.
What is Thermal Pad?
Thermal pads are essential components in modern electronic devices, designed to facilitate efficient heat transfer from heat-generating components to heat sinks or other cooling solutions. Understanding what thermal pads are and their importance can help you choose the right material for your specific application.
What Are the Characteristics of a Phase Change Thermal Pad?
The phase change thermal pad is a member of the thermally conductive material. , is also a very characteristic of a new type of thermal conductivity material. In this article, Sheen will introduce the characteristics of a phase change thermal pad.
Why Does Thermal Resistance Affect the Thermal Conductivity of Thermal Silicone Pad?
Thermal silicone pad is a kind of gap-filling thermal pad made of silicone resin as the base material and added with temperature-resistant and thermally conductive materials. It has the characteristics of high thermal conductivity, low thermal resistance, insulation, compression, etc.
A Brief Description of Thermally Conductive Gap Filler Material-Silicon-free Thermal Pad
Power consumption electronic components are the main body of heat generation in electronic equipment. The higher the power of electronic components, the more heat they will generate. However, the development trend of science and technology in today‘s society is based on high performance, high integration and light weight. Mainly, the performance of electronic components is getting stronger and stronger, which also means that their power is also rising, so the heat dissipation must keep up with the pace.
电子商城
授权代理品牌:集成电路
授权代理品牌:分立元件
授权代理品牌:接插件及结构件
授权代理品牌:部件、组件及配件
授权代理品牌:电源及模块
授权代理品牌:电子材料
授权代理品牌:仪器仪表及测试配组件
授权代理品牌:电工工具及材料
授权代理品牌:机械电子元件
授权代理品牌:加工与定制
我要提问
登录 | 立即注册
提交评论