Thermal Analysis Labs offers a large variety of standard procedures for your testing needs. Whether a specific standard operation is required for quality assurance within your company, or you need a specific measurement, Thermal Analysis Labs is here for your materials testing needs. If you require a specific standard that is not listed, send a email to email@example.com or call us at 1 (506) 457-0498.
Thermal conductivity remains at the heart of our operations. We offer expertise in many different thermal conductivity methodologies including modified transcient plane source (MTPS), transcient plane source (TPS), xenon flash (XF), transcient line source (TLS) and heat flow meter (HFM).
|ISO 22007-2||Determination of thermal conductivity and thermal diffusivity — Part 2: Transient plane heat source (hot disc) method|
|IEEE 442-1981||Guide for Soil Thermal Resistivity Measurements|
|ASTM E2585||Standard Practice for Thermal Diffusivity by the Flash Method|
|ASTM D5334||Standard Test Method for Determination of Thermal Conductivity of Soil and Soft Rock by Thermal Needle Probe Procedure|
|ASTM D7984||Standard Test Method for Measurement of Thermal Effusivity of Fabrics Using a Modified Transient Plane Source (MTPS) Instrument|
|ASTM D5930||Standard Test Method for Thermal Conductivity of Plastics by Means of a Transient Line-Source Technique|
|ASTM E1461||Standard Test Method for Thermal Diffusivity by the Flash Method|
Using our own designed push rod type dilometer, we offer thermal expansion services up to 1600 °C.
|ASTM E228||Standard Test Method for Linear Thermal Expansion of Solid Materials With a Push-Rod Dilatometer|
Calorimetry measurements are very versatile, involving the exact measurement of heat flow or weight loss with respect to a temperature range. Thermal Analysis Labs offers a wide range of experiments, which are conducted with respect to industry standards. We also offer some custom standards and profiles.
|ASTM D1603||Carbon Black Content of Olefin Materials|
|ISO11357-3||Determination of Enthalpy Temperature of Melting and Crystallization|
|ISO11357-4||Determination of Specific Heat Capacity|
|EN-EN 728||Determination of the Oxygen Induction Time|
|ASTM E126||Determination Specific Heat Capacity by DSC|
|ASTM D1519||Rubber, Determination of Melting Range|
|ISO 22768||Rubber, Determination of the glass transition temperature by DSC|
|ASTM E1877||Standard Practice for Calculating Thermal Endurance of Materials from Thermogravimetric Decomposition Data|
|ASTM E968||Standard Practice for Heat Flow Calibration of Differential Scanning Calorimeters|
|ASTM E1356||Standard Test Method for Assignment of the Glass Transition Temperatures by Differential Scanning Calorimetry|
|ASTM E1131||Standard Test Method for Compositional Analysis by Thermogravimetry|
|ASTM E1641||Standard Test Method for Decomposition Kinetics by Thermogravimetry Using the Ozawa/Flynn/Wall Method|
|ASTM E1269||Standard Test Method for Determining Specific Heat Capacity by Differential Scanning Calorimetry|
|ASTM E793||Standard Test Method for Enthalpies of Fusion and Crystallization by Differential Scanning Calorimetry|
|ASTM E2041||Standard Test Method for Estimating Kinetic Parameters by Differential Scanning Calorimeter Using the Borchardt and Daniels Method|
|ASTM E2160||Standard Test Method for Heat of Reaction of Thermally Reactive Materials by Differential Scanning Calorimetry|
|ASTM E2890||Standard Test Method for Kinetic Parameters for Thermally Unstable Materials by Differential Scanning Calorimetry Using the Kissinger Method|
|ASTM E698||Standard Test Method for Kinetic Parameters for Thermally Unstable Materials Using Differential Scanning Calorimetry and the Flynn/Wall/Ozawa Method|
|ASTM E2040||Standard Test Method for Mass Scale Calibration of Thermogravimetric Analyzers|
|ASTM E794||Standard Test Method for Melting And Crystallization Temperatures By Thermal Analysis|
|ASTM E928||Standard Test Method for Purity by Differential Scanning Calorimetry|
|ASTM E2403||Standard Test Method for Sulfated Ash of Organic Materials by Thermogravimetry|
|ASTM E2253||Standard Test Method for Temperature and Enthalpy Measurement Validation of Differential Scanning Calorimeters|
|ASTM E967||Standard Test Method for Temperature Calibration of Differential Scanning Calorimeters and Differential Thermal Analyzers|
|ASTM E1582||Standard Test Method for Temperature Calibration of Thermogravimetric Analyzers|
|ASTM E2550||Standard Test Method for Thermal Stability by Thermogravimetry|
|ASTM E1858||Standard Test Methods for Determining Oxidation Induction Time of Hydrocarbons by Differential Scanning Calorimetry|
|ASTM E2070||Standard Test Methods for Kinetic Parameters by Differential Scanning Calorimetry Using Isothermal Methods|
|ASTM E2958||Standard Test Methods for Kinetic Parameters by Factor Jump/Modulated Thermogravimetry|
|ASTM E1868||Standard Test Methods for Loss-On-Drying by Thermogravimetry|
|ASTM E2009||Standard Test Methods for Oxidation Onset Temperature of Hydrocarbons by Differential Scanning Calorimetry|
|ASTM D2584, D5630||Total Ash Content of a Polymer|
|ASTM D3418||Transition Temperatures of Polymers By DSC|
Thermal Analysis Labs, in partnership with Metravib instrumentation, offers dynamic mechanical analysis of a wide variety of materials and methods. Below is a subset of industry standards we offer.
|ASTM D4440||Standard Method for Dynamic Mechanical Properties: Melt Rheology|
|ASTM D4065||Standard Method for Dynamic Mechanical Properties: Determination and Report of Procedures|
|ASTM D279||Standard Method for Dynamic Mechanical Properties: Properties in Torsion|
Thermal Analysis Labs offer a few standard lab operations for supporting our other standards.
|ASTM D5946||Standard Method for conducting and analyzing Contact Angle Measurements on polymer, textiles and composite materials.|
|ASTM D792||Standard Method for Density and Specific Gravity Measurement|
|ASTM C271||Standard Method for determining the Density of Sandwich Core Materials|
I had a request for thermal conductivity information on one of my adhesives and contacted Thermal Analysis Labs. The process was very smooth – I experienced none of the issues typical of other contract labs we work with. The results were delivered on time and I have used the data in our sales literature to help my clients have success in their applications.
Vice President of Sales
I was completely satisfied with the testing experience.
Vice President of Technology
I was well pleased with the experience. The instructions for the sample configuration was clear. The people responded promptly to questions. The lab double checked results to address any questions. The report was clear, easily understood.
Vice President of Technology
I am very happy with the testing services I received from Thermal Analysis Labs. I’ve found them very responsive, and they were able to get us the data we needed to get quickly so that we could use it to validate our designs. I refer my other colleagues to them, and they’re my go-to group for thermal testing.
Scott Kramer, PEng.,
Principal R&D Engineer
I sought thermal conductivity testing from Thermal Analysis Labs to aid in device design. My group has experienced good customer service with speedy sample processing and fast turnaround time. I would be happy to recommend this group to anyone looking for this service.
Project & Supply Chain Manager
I’ve outsourced thermal testing of several materials to TAL. My experience has been very positive. Their professionalism shows in management, quality of work, and customer service. They are always eager to accommodate my needs and timeline. I highly recommend their services.
Thermodynamics and CFD Group Manager
All data and reports were very helpful and we appreciate your support; you did an amazing job to conduct the tests and confirm the reports within such a short time frame. This really helped us get out of jam and your support meant a lot to our efforts with our customer. We will certainly contact you again on these matters.
Thermal Analysis Labs has provided great service for all our materials testing needs by providing quick turn-around testing results while also providing the service for a reasonable cost. TAL’s professional approach to our material testing request has also provided great insight to the materials being tested and the best method to achieve the measurements. TAL has been an invaluable resource for our product development process.
Fellow Engineer, Advanced Concepts