The Advantages of Carbon-Based Thermal Gap Fillers 3

The Advantages of Carbon-Based Thermal Gap Fillers

Topics Covered

Carbon Fillers Overview
CF210A Thermal Gap Filler
Addressing Oil Bleed
Maintaining a Clean Production Environment

White Paper Overview

Thermal gap filler conductivity has increased dramatically over the last 10 years. The ever-increasing power and smaller area have driven the need for higher conductivity thermal gap fillers. In order to increase thermal conductivity, Fujipoly has explored various thermal fillers to achieve ultra-high thermal conductivity. One of those fillers is carbon fiber. We will look at the need for higher conductivity materials and how carbon fiber-oriented thermal gap fillers can meet the demand for higher heat flux. This paper by Fujipoly explores some of the properties of carbon fiber-oriented gap fillers as well as best practices for implementing them.

Thank You For Your Interest

First Name *

Last Name *

Business Email *

Job Title *

Company Name *

Post Code *

City *

State *

Country *

By checking this box, I agree my personal information (including but not limited to my name and email) will be disclosed to Fujipoly and used according to Fujipoly's Privacy Policy, and I agree that it may be shared with Fujipoly's affiliates, which are based all over the world. I understand that my personal information may be transferred for processing outside my country of residence. I also understand Fujipoly may share some personal information with media partners, including but not limited to vendors and distributors. Fujipoly will use such information for Fujipoly's marketing purposes to contact me regarding Fujipoly's products and services.

By clicking ‘Submit’ you agree to our Terms of Use. We take your privacy seriously. For more information please read our Privacy Policy. By registering with All About Circuits you will automatically receive our weekly Product Update and Technology Insider eNewsletters.