Join us at the International Thermal Conductivity Conference (ITCC) and the International Thermal Expansion Symposium (ITES).
Applications using the GHFM-02 Guarded Heat Flow Meter GHFM-02 Guarded Heat Flow Meter is used for measuring the thermal resistance and thermal conductivity of a wide variety of solids, such as metals, polymers and composites, in accordance to ASTM E1530-19. The GHFM-02 portable meter follows the trusted steady-state approach, with the addition...
The THW-L2 Transient Hot Wire Liquid Thermal Conductivity Meter is an advanced measurement system for direct determination of the thermal conductivity of liquids and pastes in accordance with ASTM D7896. Portable, economical, accurate, and easy to use. Get your results without the effects of convection.
Measurement Platform (MP-1 with TPS and TPS-TP) The MP-1 with Transient Plane Source (TPS Method) and Temperature Platform (TPS-TP) is designed to test absolute thermal conductivity, thermal diffusivity and specific heat of solids, pastes and powders over a board temperature range. Best for: Thermal Conductivity Thermal Diffusivity Specific Heat...
Thermal Conductivity Research Paper Database Thermtest has compiled the world’s largest thermal conductivity academic paper database. All research papers are searchable by method, authors, keywords, and titles. The research paper database is dedicated to the Transient Plane Source (TPS), Transient Hot Wire (THW), Transient Line Source (TLS), and...
Chemically modified graphene (CMG) was obtained by combining aminopropyllsobutyl polyhedral oligomeric silsesquioxane (NH2-POSS) and hydrazine monohydrate to functionalize graphene oxide (GO). CMG and polyimide (PI) were combined to create the CMG/PI nanocomposite. The properties of this nanocomposite were obtained using a variety of methods. The thermal conductivity measurements were performed using a TPS instrument by utilizing the transient plane source (TPS) method. It was found that the thermal conductivity of the CMG/PI nanocomposites were all increased with increasing the CMG loading. The thermal conductivity of the CMG/PI nanocomposite with 5 wt% CMG was significantly improved to 1.05 W/mK (from 0.28 W/mK for a pristine PI matrix). The experimentally obtained thermal conductivity values and the values from the proposed thermally conductive model were also consistent with one another.
