PerkinElmer

Thermal Analysis

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Improve accuracy, sensitivity, and performance in thermal analysis using our comprehensive portfolio of instruments. Applications of our industry-leading differential scanning calorimetry (DSC) instruments and other thermal analysis technology include:

  • QA/QC applications
  • Studying pharmaceutical processes
  • Polymer analysis
  • Identification of recycled plastics
  • Determination of packaging materials
  • Nanomaterials
  • Coatings
  • Composites
  • And much more

For research use only. Not for use in diagnostic procedures.

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1-12 of 214 Products & Services

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  • TGA 8000

    Our TGA 8000™ Thermogravimetric analyzer gives you complete control over your sample environment and delivers high throughput and reliability, even unattended. Plus, advanced hyphenation technology works beautifully with FT-IR, MS, GC/MS, and other systems for better understanding of evolved gases. 
  • DSC 4000 System, 100-240V/50-60Hz

    The DSC 4000 offers dependable performance and quality results. This single-furnace, heat flux DSC is designed to run all your routine applications and includes an easy-to-load vertical furnace that is resistant to oxygen and chemical corrosion.
  • DMA 8000 N5330101

    DMA 8000 SYS QUARTZ WINDOW SS/Ti CLAMPS

    The DMA 8000 is flexible and cost effective. Its innovative design, high functionality, and flexible operation make it ideal for advanced research and routine quality testing in the polymers, composites, pharmaceutical, and food industries.
  • DSC 8000

    The DSC 8000, double-furnace, power compensation DSC provides greater sensitivity and accuracy as well as faster and more reliable results then you ever thought possible.
  • TMA4000_Silhouette_wNameplate_320px

    TMA 4000 Lab System, 100-230V

    The PerkinElmer TMA 4000 is a uniquely designed thermomechanical analyzer (TMA) designed for optimal performance in measuring the coefficient of thermal expansion (CTE) in materials.
  • TGA 8000 Thermogravimetric Analyzer

    TGA 8000 Thermogravimetric Analyzer

    Our TGA 8000 thermogravimetric analyzer gives you complete control over your sample environment and delivers high throughput and reliability, even unattended. Plus, advanced hyphenation technology works beautifully with FT-IR, MS, GC/MS, and other systems for better understanding of evolved gases. In other words, this is complex characterization made simple.
  • Simultaneous Thermal Analyzer (STA) 8000

    Simultaneous Thermal Analyzer (STA) 8000

    The STA 8000 simultaneous thermal analyzer offers performance, reliability and productivity you can depend on.
  • LAB SYS-DSC 8500

    The DSC 8500 is a double-furnace DSC, featuring our second-generation HyperDSC technology. Now you can gain unlimited insight into the structure, properties and performance of your materials.
  • Simultaneous Thermal Analyzer (STA) 6000

    The STA 6000 simultaneous thermal analyzer offers performance, reliability and productivity you can depend on.
  • TGA 4000 N5370210

    TGA 4000 System, 100-240V/50-60Hz

    The TGA 4000 is designed with a compact ceramic furnace, which provides the temperature control you need for accurate results. Its rugged design is also corrosion resistant for the applications flexibility you need today and tomorrow.
  • DSC6000

    DSC 6000

    The DSC 6000 gives you all the advantages of the DSC 4000 and more. Designed for research application, it comes with Modulated Temperature DSC (MT-DSC) technology for easier data interpretation and new capabilities for product development.
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1-12 of 12 Business Insights

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  • Brochure

    The Power of the Sun, Solar Energy Development Solutions

    As the demand for solar power continues to grow, there needs to be a clear focus on different key issues in the life cycle of a solar cell. These issues are: efficiency, durability and cost. Coupling PerkinElmer’s application knowledge and experience together with our product portfolio, we can help manufacturers overcome these obstacles. At PerkinElmer, we’re taking action to ensure the quality of our environment.

  • Application Note

    Pharmaceutical Compounds are Analyzed in Half the Time by Simultaneous TGA-DSC

    In the “Early Drug Discovery Phase” of pharmaceutical development when there is a minimum amount of synthesized drug candidate, quick thermal analysis using a small amount of sample is the norm. The sample amount could be less than 3 mg. Because of the rush to identify possible drug candidates, analytical answers must be given within the day. The STA 6000 with its sensitivity of 0.1 µg allows minimum sample material to obtain reproducible results in half the time.

  • Application Note

    HyperDSC for High Throughput Formulation Development

    The concept of High-Throughput Design has gained more and more interest as a way to increase profitability and to decrease research costs. One technique that can increase the ability of a laboratory to evaluate formulations is HyperDSC™ or High Ramping Rate DSC. HyperDSC is the ability to quantitatively measure small samples at extreme heating and cooling rates, typically 100-500 °C/min.

  • Application Note

    Proximate Analysis of Coal and Coke using the STA 8000 Simultaneous Thermal Analyzer

    The purpose of this study is to demonstrate the proximate analysis of two standard samples using the STA and show that the performance is easily able to allow this moderate cost, small profile and sturdy instrument to be used for this type of routine analysis.

  • Application Note

    Analysis of Polluted Soil by TG-IR Technique

    One of the most challenging analytical problems with increasing importance is the possibility to analyze soil polluted by the dispersion of organic fluids which sometimes features particularly high boiling points. The current techniques used solvent extraction and headspace chromatographic analysis, have shown their limits. Solvent extraction needs time consuming sample preparation. Headspace makes it impossible to heat the sample at temperatures exceeding 200 °C, which risks not being able to identify the heaviest fractions of the polluting agents.

  • Application Note

    Curing Determination of EVA for Solar Panel Application

    This study shows that DSC can be used to study the curing degree of the EVA resin by measuring the residual curing enthalpy. The data show that the residual curing enthalpy can be correlated to the curing time in a linear way. The DSC test is quick and easy.

  • Application Note

    Soot Content Determination of In-Service Lubricants of Diesel Engine as Per ASTM D5967 Annex A4

    Internal combustion in an engine produces soot as a result of incomplete fuel combustion. The soot deposits deplete the quantity of dispersant additives which may cause an increase in viscosity which in turn increases engine wear. These soot particles adversely affect the engine performance and can lead to damage of the engine parts. This application note demonstrates the quantification of soot content as well as the repeatability of the measurement.

  • Application Note

    Improved HyperDSC Method to Determine Specific Heat Capacity of Nanocomposites and Probe for High-Temperature Devitrification

    Where ΔCp and ΔCp pure are the changes in specific heat at the glass transition temperature, Tg, for the composite, and for the unfilled polymer, respectively. This work suggests an alternative method for determining Cp that takes advantage of fast heating and cooling rates to obtain quantitative Cp in the upper temperature region without having to dwell in that high temperature region to establish an upper isothermal.

  • Application Note

    A novel method (TG-IR) for the rapid determination of Total Petroleum Hydrocarbons (TPH) in soil

    A gas chromatographic analysis of the extract can provide even greater sensitivity and more detailed compositional information, but further increases the time required for the analysis. Thermogravimetric analysis coupled to infrared spectroscopy (TG-IR) can provide detailed information about the amount and nature of the pollution, while requiring no sample preparation at all. This application note illustrates the kind of data that can be obtained with a modern TG-IR system.

  • Application Note

    High Resolution Characterization of Pharmaceutical Polymorphs Using Power Compensation DSC

    Many pharmaceutical materials exhibit polymorphism, which means that, depending upon the given processing conditions, the crystalline form may exist in two or more states. The crystalline states or forms exhibit different levels of thermodynamic stabilities and an unstable form can melt at a temperature significantly less than the melting point of the thermodynamically stable form. Depending upon the conditions used to generate the crystalline form(s), the drug may exhibit one or more unstable, polymorphic crystalline states.

  • Application Note

    Study Rigid Amorphous Fraction in Polymer Nano-Composites by StepScan and HyperDSC

    Heat capacity measurement has been performed in order to detect a possible second Tg on nanocomposites of polymethyl methacrylate (PMMA) with silicon oxide nanoparticles of different shape. StepScan™ DSC was used for determination of precise heat capacity and HyperDSC® to prevent degradation and identify devitrification of the RAF at elevated temperatures.

  • Case Study

    Renault F1® Team - Stronger and Safer with PerkinElmer Analysis

    PerkinElmer has been helping Renault F1 Team's Enstone Technical Center with their analytical needs for nearly 30 years. PerkinElmer began by outfitting the team’s testing lab with the analytical instrumentation needed to conduct materials testing. Today, a dedicated PerkinElmer scientific laboratory operates within the team’s Enstone facility where the latest thermal analysis, infrared spectroscopy, and imaging technologies are being utilized for proactive monitoring, issue prevention, and performance enhancement of the team’s single seater. This case study shows you how we offer analytical expertise in helping Renault F1 Team master the thermal stability challenge.