We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Thermal Analysis Equipment.
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Thermal Analysis Equipment Product List and Ranking from 12 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Feb 11, 2026~Mar 10, 2026
This ranking is based on the number of page views on our site.

Thermal Analysis Equipment Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Feb 11, 2026~Mar 10, 2026
This ranking is based on the number of page views on our site.

  1. アイテス Shiga//Electronic Components and Semiconductors
  2. TA Instruments Japan (TAInstruments) Tokyo//Testing, Analysis and Measurement
  3. null/null
  4. 4 DKSHマーケットエクスパンションサービスジャパン テクノロジー事業部門 Tokyo//Trading company/Wholesale
  5. 5 大同分析リサーチ Aichi//Service Industry
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Thermal Analysis Equipment Product ranking

Last Updated: Aggregation Period:Feb 11, 2026~Mar 10, 2026
This ranking is based on the number of page views on our site.

  1. The Relationship Between Materials and Heat: An Introduction to Thermal Analysis アイテス
  2. [Catalog] Vaccines, Spheronization Agents, Slag Accumulation Preventive Agents, Thermal Analysis Equipment
  3. Setaram's thermal analysis device "Calvet Calorimeter Series" DKSHマーケットエクスパンションサービスジャパン テクノロジー事業部門
  4. Youtube Lecture Materials ~DSC Basic Edition 1~ TA Instruments Japan (TAInstruments)
  5. 4 List of Polymer Melting Heat for DSC Use TA Instruments Japan (TAInstruments)

Thermal Analysis Equipment Product List

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TA Instruments Comprehensive Catalog

TA Instruments Comprehensive Catalog

World leader in thermal analysis, calorimetry, and rheology / Comprehensive catalog of TA Instruments.

◆TA Instrument Handled Products◆ ■Thermal Analysis Equipment Differential Scanning Calorimeter Discovery DSC Thermogravimetric Analyzer Discovery TGA Differential Scanning Calorimeter DSC Thermogravimetric Analyzer TGA Vapor Adsorption/Desorption Measurement Device VTI-SA+ Simultaneous Differential Thermal and Thermogravimetric Analyzer SDT Thermomechanical Analyzer TMA Dynamic Mechanical Analyzer DMA ■Thermal Property Measurement Equipment Laser Flash Method Thermal Property Measurement Device DLF Xenon Flash Method Thermal Property Measurement Device DXF Thermal Conductivity Measurement Device DTC FOX Thermal Expansion Measurement Device DIL ODLT, ODHT P11 Heating Microscope HSM, HSML Fleximeter FLEX ■Viscoelasticity Measurement Equipment DHR ARES-G2 RSA-G2 Air Chiller System ACS-3 Rubber Testing Machine ■Microcalorimeters Isothermal Titration Calorimeter Nano ITC, Affinity ITC Differential Scanning Calorimeter Nano DSC Multi-Cell Differential Scanning Calorimeter MC DSC Isothermal Calorimeter TAM ●For other functions and details, please download the catalog or contact us.

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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[Analysis Case] Characterization of Biodegradable Plastics (PLA) by Thermal Analysis

[Analysis Case] Characterization of Biodegradable Plastics (PLA) by Thermal Analysis

Using PLA beverage cups as measurement samples, thermal and mechanical properties were investigated utilizing thermal analysis techniques such as temperature-modulated DSC and DMA!

As the industrial sector has begun to focus more on developing and manufacturing environmentally friendly products, various new biodegradable polymers have been adopted. Poly(Lactic Acid) (PLA) is a biodegradable aliphatic polyester produced from lactic acid obtained through the saccharification and fermentation of starch. Due to its high mechanical strength comparable to PETE and good biocompatibility, PLA has been commonly used in biomedical applications such as sutures and stents, but the expansion of PLA's applications is being considered. Understanding the properties of PLA is essential for the development of new applications. We present materials that investigate the thermal and mechanical properties of PLA-based beverage cups using temperature-modulated DSC and DMA. *Please download the materials.

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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[Analysis Case] Vibration Absorption and Viscoelastic Properties of Polyolefin-based Materials

[Analysis Case] Vibration Absorption and Viscoelastic Properties of Polyolefin-based Materials

Application Introduction / Vibration Absorption and Viscoelastic Properties of Polyolefin-based Materials - Measurement and Control of Residual Solvent Levels in the Wire Coating Process

◆Vibration Absorption and Viscoelastic Properties of Polyolefin-based Materials Materials with vibration absorption properties are attracting attention as they enable improvements in labor and living environments through soundproofing and vibration isolation. It is believed that vibration absorption occurs due to energy loss associated with internal friction in the material, and the amount of energy loss is known to correlate with the material's viscoelastic properties. By conducting viscoelastic measurements of the material, information regarding vibration absorption can be obtained. ◆Measurement and Control of Residual Solvent Levels in Wire Coating Processes Insulated wires used in discrete wiring circuit boards can cause various product defects (blisters, delamination, etc.) due to residual solvents present in the wire coating material. However, by utilizing thermal analysis techniques for the detection and quantification of residual solvents, it is possible to implement high-precision quality control.

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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Youtube Lecture Materials ~DSC Basic Edition 3~

Youtube Lecture Materials ~DSC Basic Edition 3~

This is the lecture material ~DSC Basic Edition 3~ that is posted on YouTube. It can be downloaded for free, so please feel free to make use of it.

Data Content This is a PDF version of the lecture materials from YouTube, converted for easier viewing. The video consists of a total of 14 pages and provides easy-to-understand explanations for beginners on the following topics related to DSC: - Glass transition - Crystalline polymers - Temperature-modulated DSC (MDSC) I think it might be difficult to understand with just the lecture materials, so please also refer to the YouTube videos below. YouTube TA Summary Site: https://www.youtube.com/channel/UCk3XzqRdsNQz1hJlqKrfujQ DSC Basics Part 3: https://www.youtube.com/watch?v=wWE7fOx7hD4

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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[Special Issue] Characterization of Pharmaceuticals by Thermal Analysis

[Special Issue] Characterization of Pharmaceuticals by Thermal Analysis

Step into the utilization of thermal analysis devices. Numerous measurement examples of DSC included. Online seminar held.

This document provides a detailed introduction to the characterization of pharmaceutical substances using Differential Scanning Calorimetry (DSC). It explains the "Modulated DSC," which allows for high-sensitivity and high-resolution measurements, and the "Tzero DSC," which measures the absolute values of heat flow, over more than 40 pages based on general characterization examples. You can also find an introduction to various analytical instruments offered by our company. 【Main Contents】 ■ Amorphous structure (detection of amorphous content in crystalline compounds including glass transition) ■ Degree of crystallinity (melting and crystallization, purity, polymorphism) ■ Drug-excipient interactions ■ Protein denaturation ■ Freeze-drying ■ Other complementary thermal analysis techniques *This document is available for immediate viewing via "PDF Download."

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  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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[Analysis Case] Pyrolysis GC/MS Double Shot Method, Identification of Plastics and Additives

[Analysis Case] Pyrolysis GC/MS Double Shot Method, Identification of Plastics and Additives

Composite analysis using TG-DTA and GC/MS.

By combining TG-DTA (thermogravimetric-differential thermal) analysis with GC/MS analysis, it is possible to select optimal temperature conditions to identify unknown polymer materials and the volatile organic compounds they contain. By investigating the pyrolysis temperature of the plastic parts of commercial products and continuously performing GC/MS measurements under two conditions—gentle heating below the pyrolysis temperature (thermal desorption method) and subsequent rapid heating at high temperatures (pyrolysis method) using the double-shot method—it was determined that this plastic is AS resin and contains the antioxidant additive IRGANOX 1076.

  • Contract Analysis
  • Thermal Analysis Equipment

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Case Study Collection 1 on Thermal Analysis (DL Available: DSC/TG-DTA)

Case Study Collection 1 on Thermal Analysis (DL Available: DSC/TG-DTA)

For those who want to touch on the substance of materials such as polymer materials, we will introduce numerous examples of thermal analysis using DSC, TG, DTA, etc., including hardness measurement and melting measurement.

Thermal analysis is a technique for measuring the temperature dependence of certain physical properties of a substance while changing its temperature. Examples of methods: ● DSC: Can be used for analyzing the melting, glass transition, thermal history, crystallization, curing, Curie point, etc., as well as measuring specific heat. ● TG/DTA: Can be used for analyzing moisture content, ash content, decomposition, oxidation, and evaluating heat resistance. ● TMA: Can be used for measuring the expansion rate, glass transition, softening point, etc. In this collection of case studies, we will introduce examples of 'thermal analysis.' We encourage you to read it. [Contents] ■ The influence of atmosphere in TG-DTA measurements ■ Melting measurement of cocoa butter (introduction of peak separation function) ■ Introduction of temperature-modulated DSC method ■ Gelatinization of rice and noodles There are many other cases not included. We also have experienced technicians in our thermal analysis laboratory who can meet directly. Please feel free to contact us.

  • plastic
  • Contract Analysis
  • Contract Analysis
  • Thermal Analysis Equipment

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Case Study Collection 3 on Thermal Analysis (DL Available: DSC/TG-DTA/DMA, etc.)

Case Study Collection 3 on Thermal Analysis (DL Available: DSC/TG-DTA/DMA, etc.)

In addition to general thermal analysis, we will introduce many examples of our strengths in DSC, TG-DTA, DMA, etc., including low-temperature measurements and estimates of deformation and fracture.

In this case study collection, we will introduce examples related to "thermal analysis." - "DSC Measurement of Silicone Rubber (Low-Temperature Measurement)" - "Quantification of Carbon Black by Thermogravimetric Measurement" - "Estimation of Deformation and Fracture of Plastics under Compressive Stress" We also present various methods and results, as well as analysis results, measurement data, and case studies. We encourage you to take a look. [Contents] ■ DSC Measurement of Silicone Rubber (Low-Temperature Measurement) ■ Quantification of Carbon Black by Thermogravimetric Measurement ■ Estimation of Deformation and Fracture of Plastics under Compressive Stress ■ Long-Term Deformation Prediction by DMA *For more details, please refer to the PDF document or feel free to contact us.

  • Other measurement, recording and measuring instruments
  • Contract Analysis
  • Other polymer materials
  • Thermal Analysis Equipment

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NiKKi Fron Technical Development System

NiKKi Fron Technical Development System

We are engaged in product development that leads the market in all fields.

NiKKi Fron's technology development system consists of a total of 30 people, including shape design, material design, mechanical design, and equipment design. Based on the foundational technologies cultivated over many years and incorporating NiKKi Fron's unique development achievements, each engineer closely collaborates to develop products that lead the market in various fields. Additionally, NiKKi Fron is engaged in technology development in various prominent areas such as EV vehicles, aerospace, and environmentally harmonious clean energy, based on the material technologies accumulated over many years. Furthermore, by actively building collaborative systems with central and local companies, academic institutions, and government agencies, we are working on research for new technologies and the creation of new concepts. For more details, please contact us or refer to our catalog.

  • Mechanical Design
  • Thermal Analysis Equipment

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The forecast results of AKTS/TK・TS do not match the actual measurements! What are the countermeasures?

The forecast results of AKTS/TK・TS do not match the actual measurements! What are the countermeasures?

Introducing the basic functions of AKTS software! The ratio of forecast data to actual measurement data.

This document is a technical note explaining the measures to be taken when the predicted results of AKTS/TK and TS do not match the measured values. The heating rate measurement data used as measurement data has a window width of 0.5 to 8.0 K/min with a ratio of over 10 times, but when evaluating long-term thermal stability, it is necessary to further increase this window width. Please feel free to download and view it from the published catalog. 【Published Data (Excerpt)】 ■ The ratio of predicted data under isothermal conditions at 80°C estimated from heating measurement data to actual measurement data ■ Optimizing measurement data by integrating heat generation peaks from 4_data with different heating rates ■ Calculating the reaction rate curve (time scale) under isothermal conditions from free model analysis *For more details, please download the PDF or feel free to contact us.

  • Business Intelligence and Data Analysis
  • Thermal Analysis Equipment

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Thermal analysis TG-DTA and DSC

Thermal analysis TG-DTA and DSC

It is possible to measure the thermal behavior of materials and analyze their properties and composition.

In TG-DTA, information can be obtained regarding the thermal stability of samples, component analysis of mixtures, and quantification of additives. In DSC, information can be obtained regarding melting points, freezing points, degree of crystallinity, glass transition temperatures, and heat capacity.

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  • Thermal Analysis Equipment

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Setaram's thermal analysis device "Calvet Calorimeter Series"

Setaram's thermal analysis device "Calvet Calorimeter Series"

High-pressure measurements up to 50 MPa are possible! A series of calorimeters used in a wide range of fields.

The "Kalbe-type Calorimeter Series" is a calorimeter manufactured by SETARAM that combines the features of high-sensitivity isothermal measurements and thermal analysis device DSC for temperature rise measurements. You can choose devices within a temperature range from low temperatures (-196℃) to high temperatures (1000℃), and various measurements are possible with dedicated sample equipment. It is used in a wide range of fields, including chemistry, energy, food, and process safety evaluation. 【Features】 ■ Capable of high-pressure measurements up to 50MPa (High-pressure containers can comply with high-pressure gas safety regulations) ■ Monitoring of pressure changes inside the container is possible ■ Measurements can also be conducted in corrosive gas or water vapor atmospheres ■ Custom fabrication of various sample containers is possible ■ Usable in a wide range of fields, including process safety evaluation *For more details, please refer to the PDF document or feel free to contact us.

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  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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Thermal Analysis Device THEMYS ONE Setaram Instrumentation

Thermal Analysis Device THEMYS ONE Setaram Instrumentation

Standard model of thermal analysis equipment.

The unique tungsten furnace developed by SETARAM enables a compact, maintenance-free design that does not require protective gas. It allows for TGA, (TG-)DTA, (TG-)DSC, and high-precision Cp measurements at temperatures up to 1,600°C. Due to the small sample atmosphere, inert gas replacement can be performed without vacuum replacement, preventing oxidation of the sample.

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  • Analytical Equipment and Devices
  • Other physicochemical equipment
  • Thermal Analysis Equipment

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Ultra High Temperature Thermal Analysis Device [Manufactured by Setaram Instrumentation]

Ultra High Temperature Thermal Analysis Device [Manufactured by Setaram Instrumentation]

It is possible to measure temperatures up to 2400℃.

We have adopted a graphite furnace, achieving a compact desktop-sized device with a maximum temperature of 2400°C. By combining protective tubes and temperature sensors within the furnace, measurements can be taken in various atmospheres, including air, oxygen, and hydrogen, in addition to inert gases.

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  • Analytical Equipment and Devices
  • Other measurement, recording and measuring instruments
  • Other physicochemical equipment
  • Thermal Analysis Equipment

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Analysis case: Characteristic analysis of thermoplastic and thermosetting resins using DSC and DMA.

Analysis case: Characteristic analysis of thermoplastic and thermosetting resins using DSC and DMA.

A clear explanation of thermal property analysis using DSC (Differential Scanning Calorimetry), DMA (Dynamic Mechanical Analysis), and other methods. An introduction to various devices is also included.

Our company is engaged in the development and sales of various devices for thermal analysis, rheology, microcalorimetry, and mechanical analysis, boasting numerous installations worldwide. Currently, we are offering a "technical document" that provides a brief explanation of representative DSC, MDSC, DMA, etc., used for the property analysis of thermoplastic and thermosetting resins! [Overview of Contents] - The effect of thermal annealing on CFRTP (carbon fiber-reinforced thermoplastic resin) - Analysis of glass transition and curing using Modulated DSC - Determination of the glass transition temperature of resins through viscoelastic measurements - The impact of plasticizer addition on polyvinyl chloride *Please view the document by clicking the "Download" button. Feel free to contact us with any inquiries.

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  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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[Analysis Case] Evaluation of Device Materials and Film Properties for 5G Compatibility

[Analysis Case] Evaluation of Device Materials and Film Properties for 5G Compatibility

Ideal for the characterization of high-speed communication 5G-compatible materials and films!

The thermal analysis and viscoelasticity measurement devices are equipped with a variety of measurement modes, enabling a wide range of assessments. They are also suitable for evaluating the properties of materials and films compatible with high-speed communication 5G. 【Device Lineup / Main Evaluation Items】 <DSC Differential Scanning Calorimeter> Melting heat, temperature / Glass transition temperature / Crystallization, melting / Reaction heat, temperature / Oxidation <TGA Thermogravimetric Analyzer> Decomposition temperature / Quantification of composite material composition / Residual solvent amount / Kinetic analysis of decomposition reactions <TMA Thermomechanical Analyzer> Glass transition temperature / Coefficient of thermal expansion / Residual strain <DMA Dynamic Mechanical Analyzer> Glass transition temperature / Elastic modulus, Young's modulus / Frequency dependence / Master curve / Creep characteristics <Rheometer> Viscoelastic properties / Glass transition temperature / Elastic modulus / Frequency dependence / Master curve / Thixotropy *For more details, please contact us or download the PDF to view.

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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[Analysis Case] Summary of Film Thermal Analysis and Moisture Absorption Analysis Cases

[Analysis Case] Summary of Film Thermal Analysis and Moisture Absorption Analysis Cases

We will introduce examples of film analysis. We also include features of the equipment used for characteristic evaluation.

Under the title "Which devices are used for film property evaluation?", we will introduce suitable devices and applications for evaluation. <Film Analysis Examples> - Glass transition temperature analysis of PET film (DMA/influence of measurement frequency) - DMA measurement of automotive paint film under solvent immersion - High-sensitivity analysis of polyamide blends using Modulated DSC - Evaluation of water vapor permeability of films <Evaluation Item Keywords> - DMA Dynamic Mechanical Analysis Device - Relaxation behavior such as heat resistance, hardness, flexibility, glass transition, and impact absorption - DSC Differential Scanning Calorimeter - Glass transition, crystallization, melting, phase change, curing, oxidation stability - TMA Thermomechanical Analysis Device - Coefficient of thermal expansion (CTE), softening point, load deflection temperature, stress relaxation - SA Moisture Vapor Adsorption/Desorption Analysis Device - Water vapor permeability, barrier properties *For more details, please contact us or download the PDF to view.

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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Youtube Lecture Materials ~DSC Basic Edition 1~

Youtube Lecture Materials ~DSC Basic Edition 1~

This is the lecture material posted on YouTube ~DSC Basic Edition 1~. It is available for free download, so please feel free to make use of it.

Data Content This is a PDF version of the lecture materials from YouTube, converted for easier viewing. The video consists of a total of 12 pages and provides an easy-to-understand explanation for beginners about: - Principles - Analytical methods - Enthalpy relaxation (recovery) I think it might be difficult to understand with just the lecture materials, so please also refer to the YouTube videos below. YouTube TA Summary Site: https://www.youtube.com/channel/UCk3XzqRdsNQz1hJlqKrfujQ DSC Basics Part 1: https://www.youtube.com/watch?v=DbGpordpweg

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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YouTube Lecture Materials ~ DSC Basic Edition 2 ~

YouTube Lecture Materials ~ DSC Basic Edition 2 ~

This is the lecture material ~DSC Basic Edition 1~ that I am posting on YouTube. It is available for free download, so please feel free to use it.

Data Content This is a PDF version of the lecture materials from YouTube, converted for easier viewing. The video consists of a total of 13 pages and provides an easy-to-understand explanation for beginners about DSC, including: - Glass transition - Crystalline polymers - Temperature-modulated DSC (MDSC) I think it may be difficult to understand with just the lecture materials, so please also refer to the YouTube video below. YouTube TA Summary Site: https://www.youtube.com/channel/UCk3XzqRdsNQz1hJlqKrfujQ

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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List of Polymer Melting Heat for DSC Use

List of Polymer Melting Heat for DSC Use

This is a list of melting heats of polymers. It is free to use, so please feel free to take advantage of it.

We have provided a list of various polymer materials used in DSC analysis along with their melting heats.

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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Youtube Lecture Materials ~ Rheology: Basic Edition 1 ~

Youtube Lecture Materials ~ Rheology: Basic Edition 1 ~

This is the lecture material posted on YouTube ~Rheology: Basic Edition 1~. It is available for free download, so please feel free to make use of it.

Data Content This is a PDF version of the lecture materials from YouTube, converted for better readability. The video consists of a total of 12 pages and provides easy-to-understand explanations for beginners on the following topics: - What is rheology? - What is viscoelasticity? - About measurement modes. I think it might be difficult to understand just from the lecture materials, so please also refer to the YouTube videos below. YouTube TA Summary Site: https://www.youtube.com/channel/UCk3XzqRdsNQz1hJlqKrfujQ Rheology Basics Part 1: https://www.youtube.com/watch?v=_gPrWIK6yYo&t=4s

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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YouTube Lecture Materials ~ Rheology: Basic Edition 2 ~

YouTube Lecture Materials ~ Rheology: Basic Edition 2 ~

This is the lecture material for "Rheology: Basic Edition 2" posted on YouTube. It is available for free download, so please feel free to make use of it.

Data Content This is a PDF version of the lecture materials from YouTube, converted for better readability. The video consists of a total of 12 pages and provides easy-to-understand explanations for beginners on the following topics related to DSC: - What is a flow curve? - Weissenberg effect - Thixotropic I think it might be difficult to understand with just the lecture materials, so please also refer to the YouTube videos below. YouTube TA Summary Site: https://www.youtube.com/channel/UCk3XzqRdsNQz1hJlqKrfujQ Rheology Basics Part 2: https://www.youtube.com/watch?v=P3BxRkHnQ8w

  • Analytical Equipment and Devices
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YouTube Lecture Materials ~ Rheology: Basic Edition 3 ~

YouTube Lecture Materials ~ Rheology: Basic Edition 3 ~

This is the lecture material posted on YouTube ~Rheology: Basic Edition 3~. It is available for free download, so please feel free to make use of it.

Data Content This is a PDF version of the lecture materials from YouTube, converted for easier viewing. The video consists of a total of 12 pages and provides easy-to-understand explanations for beginners on the following topics: - Rheology of dispersed systems - Emulsions - Carbon black-containing materials I think it may be difficult to understand just from the lecture materials, so please also refer to the YouTube videos below. YouTube TA Summary Site: https://www.youtube.com/channel/UCk3XzqRdsNQz1hJlqKrfujQ Rheology Basics Part 3: https://www.youtube.com/watch?v=VmGG8yTRs8Q

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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TG-DTA (Thermogravimetric Differential Thermal Analysis)

TG-DTA (Thermogravimetric Differential Thermal Analysis)

Output the temperature difference between the sample and the reference material as a DTA signal! Change the temperature according to a constant program.

TG-DTA (Thermogravimetric Differential Thermal Analysis) is an analysis that simultaneously measures the weight of a sample (TG) and the temperature difference between the sample and a reference material (Differential Thermal Measurement) (DTA) as a function of temperature, while varying the sample's temperature according to a specific program. The measurable conditions are a temperature range of room temperature to 1000°C, a required sample amount of 10 to 20 mg, and sample shapes including film, powder, and bulk. 【Features】 - Thermogravimetric Differential Thermal Analysis - Varies the sample's temperature according to a specific program - Simultaneously measures the sample's weight and the temperature difference from the reference material as a function of temperature - Required sample amount: 10 to 20 mg - Sample shapes include film, powder, and bulk *For more details, please refer to the PDF document or feel free to contact us.

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  • Thermal Analysis Equipment

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The Relationship Between Materials and Heat: An Introduction to Thermal Analysis

The Relationship Between Materials and Heat: An Introduction to Thermal Analysis

It is also possible to estimate the relationship with molecular-level structures! Introducing the types of thermal analysis and the properties that can be understood.

When heat is applied to materials, various properties change. Thermal analysis is suitable for investigating such properties. Depending on the changes in the properties we want to observe, we use different devices and combine them as necessary. By understanding the various changes that occur when materials are subjected to heat, we can gain insights into how they will behave in practical applications. When combined with other chemical analyses, it is also possible to estimate the relationship with molecular-level structures. If you have any questions about the relationship between materials and heat, please feel free to consult us. 【Analysis Equipment (Excerpt)】 <DSC (Differential Scanning Calorimeter)> ■ Changes observed: Heat flow (exothermic/endothermic) ■ Properties that can be determined: Melting point (freezing point), glass transition, crystallization, specific heat capacity ■ Applicable materials: Plastics, rubber, metals ■ Analysis examples: Measurement of the curing degree of thermosetting resins, measurement of the transformation temperature of shape memory alloys *For more details, please refer to the PDF document or feel free to contact us.

  • Analytical Equipment and Devices
  • Thermal Analysis Equipment

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Data Download Available: Case Studies of Thermal Analysis (DSC/TG/DMA/TMA) Volume 4

Data Download Available: Case Studies of Thermal Analysis (DSC/TG/DMA/TMA) Volume 4

Analysis and measurement methods of hardening characteristics! We introduce numerous examples using DSC, TG, DMA, and TMA. Please download the materials for more details.

In this case study collection, we will introduce examples related to "thermal analysis." Starting with the analysis case of "curing property analysis of resins by thermal analysis," we will also cover the objectives, methods, and results of "high-resolution TG measurement methods (quasi-isothermal and quasi-isobaric weight measurement)," as well as the objectives, methods, and results of "glass transition measurement of PE by dynamic viscoelastic measurement." Additionally, we will present analysis results, measurement data, simulation results, and more. We encourage you to read through it. [Contents] ■ Curing property analysis of resins by thermal analysis ■ High-resolution TG measurement methods (quasi-isothermal and quasi-isobaric weight measurement) ■ Glass transition measurement of PE by dynamic viscoelastic measurement ■ Measurement of the firing process of clay using high-temperature TMA *Other cases are also available. Please contact us, and we will send them to you.

  • Contract Analysis
  • Other polymer materials
  • plastic
  • Thermal Analysis Equipment

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[Analysis Case] Quantification of water generated when heating water-absorbent polymers.

[Analysis Case] Quantification of water generated when heating water-absorbent polymers.

This article presents a case where water adhered to the surface of nylon 6, known as a water-absorbing polymer, and water generated during thermal decomposition were quantified separately.

The TG-MS (Thermogravimetric-Mass Spectrometry) method involves introducing gases generated during the TG-DTA (Thermogravimetric Differential Thermal Analysis) measurement of a sample online to a mass spectrometer (MS) for analysis. This technique allows for the acquisition of information regarding the thermal decomposition behavior of the sample, the types of gases generated, and the temperature ranges at which these gases are produced. Additionally, by creating a calibration curve using standard substances, it is possible to quantify the generated gases. [Analysis Sample] Nylon 6 (PA6) [Analysis Equipment] TG-DTA: Rigaku Thermo plus EVO2 GC-MS: Agilent 8890GC/5977B Inert Plus [Analysis Results] The TG-MS method allows for the quantification of water generated from the sample, separated by temperature. [Summary] Using the TG-MS method, it is possible to understand the amount of moisture adhering to the sample length and the amount of moisture generated during thermal decomposition.

  • Contract measurement
  • Thermal Analysis Equipment

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Exploration of reaction model equations from DSC data using AKTS/TK and TKsd.

Exploration of reaction model equations from DSC data using AKTS/TK and TKsd.

A function to predict reactions at various temperatures and times, and a function to estimate lifespan from accelerated test data.

This document is a technical note explaining the exploration of reaction model equations from DSC data using AKTS/TK and TKsd. How is the reaction model of self-catalyzed reactions described? The AKTS_TK software includes a feature for exploring reaction models based on accelerated test data called AKTS_TKsd. Please take a look at the analysis results of the reaction model equations obtained using this feature. 【Published Data】 ■ Flowchart for analysis using the free model method and the model method ■ Isothermal conditions for DSC measurements are determined through isothermal simulation ■ Screen for reading accelerated test data ■ After calculating 66 types of reaction model explorations, a ranking table of the estimated reaction model equations will be displayed. *For more details, please download the PDF or feel free to contact us.

  • Business Intelligence and Data Analysis
  • Thermal Analysis Equipment

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Model fitting of the decomposition reaction of DTBP + 20 wt% Toluene.

Model fitting of the decomposition reaction of DTBP + 20 wt% Toluene.

Calculate TMR24 in three ways! Predict data from analysis results obtained from measured data.

This document is a technical note explaining the model fitting analysis of the decomposition reaction of DTBP + Toluene 20wt%. Two exothermic peaks were separated into 1st_peak, 2nd_peak, and the combined 1st_peak + 2nd_peak to calculate TMR24 in three different ways. It is a common judgment that the TMR24 value should be analyzed using all peaks, but by comparing the three results, the same conclusion is reached. For details, please download and view from the published catalog. 【Published Data (Excerpt)】 ■ Peak separation of the two exothermic peaks in DTBP 20% / Toluene air atmosphere ■ Analysis using three data points from only the 1st_peak with the differential equivalent method ■ Analysis using data obtained by adding the 1st_peak and 2nd_peak ■ Activation energy was determined for both 1st_peak_only and 1st_peak + 2nd_peak ■ Predicted data at 0.001 K/min from the analysis results obtained from the 1st_peak only *For more details, please download the PDF or feel free to contact us.

  • Business Intelligence and Data Analysis
  • Thermal Analysis Equipment

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