Thermal conductivity measurement
View article: Measurements ofHydrogen Thermal Conductivity forPressures up to 37 MPa and Temperatures Between 69 and 150 K
Measurements ofHydrogen Thermal Conductivity forPressures up to 37 MPa and Temperatures Between 69 and 150 K Open
Cryo-compressed hydrogen (CcH2) storage is regarded as a highly promising method due to its low energy consumption and high storage density. The technological route for CcH2 storage requires precise thermal conductivi…
View article: Trident™ Thermal Conductivity Application Highlight: Thermal Conductivity Measurements of Hair and The Influence of Thermal Protectants
Trident™ Thermal Conductivity Application Highlight: Thermal Conductivity Measurements of Hair and The Influence of Thermal Protectants Open
The following Application Highlight addresses the thermal conductivity measurement of human hair using the Modified Transient Plane Source (MTPS) method.To achieve a desired style, hair can be subjected to various thermal, mechanical and c…
View article: Trident™ Thermal Conductivity Application Highlight: Characterizing Thermal Performance of Self-Adhesive Tapes for EV Battery Applications
Trident™ Thermal Conductivity Application Highlight: Characterizing Thermal Performance of Self-Adhesive Tapes for EV Battery Applications Open
The following Application Highlight addresses the measurement of self-adhesive tapes using the Modified Transient Plane Source (MTPS) method. Pressure sensitive adhesive tapes provide not only structural support to a system, but can also a…
View article: Trident™ Thermal Conductivity Application Highlight: Thermal Conductivity Measurements of Hair and The Influence of Thermal Protectants
Trident™ Thermal Conductivity Application Highlight: Thermal Conductivity Measurements of Hair and The Influence of Thermal Protectants Open
The following Application Highlight addresses the thermal conductivity measurement of human hair using the Modified Transient Plane Source (MTPS) method.To achieve a desired style, hair can be subjected to various thermal, mechanical and c…
View article: Trident™ Thermal Conductivity Application Highlight: Testing Concrete with FLEX TPS
Trident™ Thermal Conductivity Application Highlight: Testing Concrete with FLEX TPS Open
The following Application Highlight addresses testing of concrete using the C-Therm Trident™. The document highlights the use of bulk thermal conductivity testing on porous samples with the TPS method. Researchers, engineers, and students …
View article: Realization of Fine-Tuning the Lattice Thermal Conductivity and Anharmonicity in Layered Semiconductors via Entropy Engineering
Realization of Fine-Tuning the Lattice Thermal Conductivity and Anharmonicity in Layered Semiconductors via Entropy Engineering Open
View article: Trident™ Thermal Conductivity Application Highlight: Monitoring Resin Stability and Sedimentation with MTPS
Trident™ Thermal Conductivity Application Highlight: Monitoring Resin Stability and Sedimentation with MTPS Open
The following Application Highlight summarizes the use of C-Therm’s MTPS method in monitoring the stability of a filled resin system. Thermally conductive adhesives are a key component for thermal management of many advanced electronic sys…
View article: Trident™ Thermal Conductivity Application Highlight: Accelerated Thermal Conductivity Testing of Insulation for QA/QC
Trident™ Thermal Conductivity Application Highlight: Accelerated Thermal Conductivity Testing of Insulation for QA/QC Open
The following Application Highlight addresses the thermal conductivity measurement of rockwool insulation using the Modified Transient Plane Source (MTPS) method. Steady-state methods such as the Heat Flow Meter (HFM) and Guarded Hot Plate…
View article: Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Conductivity of Lubricants with MTPS
Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Conductivity of Lubricants with MTPS Open
C-Therm Resource Page: https://ctherm.com/resources/tech-library/application-highlight-lubricants/C-therm Main Page: https://ctherm.com/
View article: Trident™ Thermal Conductivity Application Highlight: Accelerated Thermal Conductivity Testing of Aerogels with MTPS
Trident™ Thermal Conductivity Application Highlight: Accelerated Thermal Conductivity Testing of Aerogels with MTPS Open
The following Application Highlight features the use of the Modified Transient Plane Source method in the thermal conductivity testing of aerogels. Aerogels represent a class of ultra-lightweight materials that are primarily composed of ai…
View article: Trident™ Thermal Conductivity Application Highlight: Characterizing Thermal Performance of Self-Adhesive Tapes for EV Battery Applications
Trident™ Thermal Conductivity Application Highlight: Characterizing Thermal Performance of Self-Adhesive Tapes for EV Battery Applications Open
The following Application Highlight addresses the measurement of self-adhesive tapes using the Modified Transient Plane Source (MTPS) method. Pressure sensitive adhesive tapes provide not only structural support to a system, but can also a…
View article: Trident™ Thermal Conductivity Application Highlight: Testing Aluminum Foil with TPS Slab Utility
Trident™ Thermal Conductivity Application Highlight: Testing Aluminum Foil with TPS Slab Utility Open
The following Application Highlight details the use of the slab utility in testing thin foils of highly conductive metals. C-Therm’s Trident™ thermal conductivity instrument using the Transient Plane Source (TPS) test method. Aluminum is c…
View article: Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Properties Under Cryogenic Conditions
Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Properties Under Cryogenic Conditions Open
The following Application Highlight features the use of the FLEX Transient Plane Source method in thermal conductivity testing under cryogenic conditions. One of the most common variables investigated in thermal characterization is how a m…
View article: Trident™ Thermal Conductivity Application Highlight: Measuring Polymer Melts Under High-Pressure Conditions
Trident™ Thermal Conductivity Application Highlight: Measuring Polymer Melts Under High-Pressure Conditions Open
This Application Highlight addresses the use of C-Therm’s novel HT-TLS300 sensor for testing polymer melts under varying pressure conditions up to 3000 psi. Polymer melts are widely used in various industries, such as plastics, rubber, and…
View article: Trident™ Thermal Conductivity Application Highlight: Accelerated Thermal Conductivity Testing of Aerogels with MTPS
Trident™ Thermal Conductivity Application Highlight: Accelerated Thermal Conductivity Testing of Aerogels with MTPS Open
The following Application Highlight features the use of the Modified Transient Plane Source method in the thermal conductivity testing of aerogels. Aerogels represent a class of ultra-lightweight materials that are primarily composed of ai…
View article: Trident™ Thermal Conductivity Application Highlight: Testing Concrete with FLEX TPS
Trident™ Thermal Conductivity Application Highlight: Testing Concrete with FLEX TPS Open
The following Application Highlight addresses testing of concrete using the C-Therm Trident™. The document highlights the use of bulk thermal conductivity testing on porous samples with the TPS method. Researchers, engineers, and students …
View article: Trident™ Thermal Conductivity Application Highlight: Testing Polymer Melts Using the TLS-HT300 Needle Probe
Trident™ Thermal Conductivity Application Highlight: Testing Polymer Melts Using the TLS-HT300 Needle Probe Open
The following Application Highlight features the use of the Transient Line Source (TLS) method in the thermal conductivity testing of polymer at elevated temperatures. In recent years, the manufacturing landscape has been reshaped by the r…
View article: Trident™ Thermal Conductivity Application Highlight: Testing Granular Materials Using the TLS Needle Probe
Trident™ Thermal Conductivity Application Highlight: Testing Granular Materials Using the TLS Needle Probe Open
The following Application Highlight features the use of the Transient Line Source method in the thermal conductivity testing of granular materials. Granular materials (such as polymeric pellets, mineral aggregates, etc.) can be challenging…
View article: Trident™ Thermal Conductivity Application Highlight: Testing Granular Materials Using the TLS Needle Probe
Trident™ Thermal Conductivity Application Highlight: Testing Granular Materials Using the TLS Needle Probe Open
The following Application Highlight features the use of the Transient Line Source method in the thermal conductivity testing of granular materials. Granular materials (such as polymeric pellets, mineral aggregates, etc.) can be challenging…
View article: Trident™ Thermal Conductivity Application Highlight: Measuring Thin Film Samples using Flex TPS Sensor
Trident™ Thermal Conductivity Application Highlight: Measuring Thin Film Samples using Flex TPS Sensor Open
The following Application Highlight addresses the measurement of polymeric thin films using the Flex Transient Plane Source (TPS) sensor and the Thin Films utility available on Trident. Thin Films are used for a variety of applications in …
View article: Trident™ Thermal Conductivity Application Highlight: Monitoring Resin Stability and Sedimentation with MTPS
Trident™ Thermal Conductivity Application Highlight: Monitoring Resin Stability and Sedimentation with MTPS Open
The following Application Highlight summarizes the use of C-Therm’s MTPS method in monitoring the stability of a filled resin system. Thermally conductive adhesives are a key component for thermal management of many advanced electronic sys…
View article: Trident™ Thermal Conductivity Application Highlight: 60 mm TPS Sensor Recommended for Testing Large Heterogeneous Concrete Samples
Trident™ Thermal Conductivity Application Highlight: 60 mm TPS Sensor Recommended for Testing Large Heterogeneous Concrete Samples Open
The following Application Highlight addresses the testing of concrete using the C-Therm Trident™. This document highlights the benefits of testing heterogeneous samples with the 60mm TPS. Concrete is a composite material produced by mixing…
View article: Trident™ Thermal Conductivity and Effusivity Application Highlight: Measuring Thermal Properties of Materials Used in an EV Car Seat
Trident™ Thermal Conductivity and Effusivity Application Highlight: Measuring Thermal Properties of Materials Used in an EV Car Seat Open
The following Application Highlight features the use of the Modified Transient Plane Source method in the thermal conductivity and effusivity testing of various foams, insulations, and fabrics used in the construction of an EV car seat. In…
View article: Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Conductivity of Thermal Interface Materials with MTPS
Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Conductivity of Thermal Interface Materials with MTPS Open
The following Application Highlight features the use of the Modified Transient Plane Source method in the thermal conductivity testing of thermal interface materials (TIMs). TIMs are employed as a form of thermal management used in many of…
View article: Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Conductivity of Thermal Interface Materials with MTPS
Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Conductivity of Thermal Interface Materials with MTPS Open
The following Application Highlight features the use of the Modified Transient Plane Source method in the thermal conductivity testing of thermal interface materials (TIMs). TIMs are employed as a form of thermal management used in many of…
View article: Trident™ Thermal Conductivity Application Highlight: 60 mm TPS Sensor Recommended for Testing Large Heterogeneous Concrete Samples
Trident™ Thermal Conductivity Application Highlight: 60 mm TPS Sensor Recommended for Testing Large Heterogeneous Concrete Samples Open
The following Application Highlight addresses the testing of concrete using the C-Therm Trident™. This document highlights the benefits of testing heterogeneous samples with the 60mm TPS. Concrete is a composite material produced by mixing…
View article: Trident™ Thermal Conductivity Application Highlight: Testing Aluminum Foil with TPS Slab Utility
Trident™ Thermal Conductivity Application Highlight: Testing Aluminum Foil with TPS Slab Utility Open
The following Application Highlight details the use of the slab utility in testing thin foils of highly conductive metals. C-Therm’s Trident™ thermal conductivity instrument using the Transient Plane Source (TPS) test method. Aluminum is c…
View article: Trident™ Thermal Conductivity Application Highlight: Measuring Thin Film Samples using Flex TPS Sensor
Trident™ Thermal Conductivity Application Highlight: Measuring Thin Film Samples using Flex TPS Sensor Open
The following Application Highlight addresses the measurement of polymeric thin films using the Flex Transient Plane Source (TPS) sensor and the Thin Films utility available on Trident. Thin Films are used for a variety of applications in …
View article: Trident™ Thermal Conductivity and Effusivity Application Highlight: Measuring Thermal Properties of Materials Used in an EV Car Seat
Trident™ Thermal Conductivity and Effusivity Application Highlight: Measuring Thermal Properties of Materials Used in an EV Car Seat Open
The following Application Highlight features the use of the Modified Transient Plane Source method in the thermal conductivity and effusivity testing of various foams, insulations, and fabrics used in the construction of an EV car seat. In…
View article: Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Conductivity of Lubricants with MTPS
Trident™ Thermal Conductivity Application Highlight: Measuring Thermal Conductivity of Lubricants with MTPS Open
C-Therm Resource Page: https://ctherm.com/resources/tech-library/application-highlight-lubricants/C-therm Main Page: https://ctherm.com/