2024年3月11日发(作者：宓乐语)

TPS 2500 S 2200 1500





SPECIFICATIONS

KEY FEATURES

Top of the line Thermal Constants

Analyser

The Hot Disk TPS 2500 S is the flagship instrument in the system portfolio of Hot

Disk AB. This general-purpose R&D instrument is designed for precision analysis

of thermal transport properties - including thermal conductivity, thermal diffusivity

and specific heat capacity. The TPS 2500 S covers an extensive range of

materials of various geometries and dimensions, and meets ISO Standard

22007-2.

The standardized TPS technique – today used in more than 600 laboratories – is

highly appreciated for its ability to simultaneously determine thermal conductivity,

thermal diffusivity and specific heat capacity from a single measurement, with

limited emphasis on sample preparation. The operative simplicity of the TPS 2500

S and the performance achieved when using optimally designed Hot Disk sensors,

makes this system an ideal, trustworthy tool for tests of solids, liquids, powders,

pastes and foams. The trademark high accuracy and precision also makes the

instrument suitable for QC testing.

The selection of software modules allows the TPS 2500 S to be used in many

specialized applications, from basic testing of isotropic materials (Isotropic module)

to measurements of rod-shaped specimens (One-dimensional module); thin films,

coatings or adhesive layers (Thin Film module); high-conducting sheets or slabs

(Slab module); extremely light and low-conducting materials

(Low-density/Highly-insulating module); and anisotropic samples or layered

structures (Anisotropic module) – all important applications in the electronics,

automotive, aerospace, nuclear and chemical industries. Furthermore, with the

unique feature of being able to probe thermal conductivity as a function of sample

depth (Structural Probe module), the TPS 2500 S be used to determine

whether a sample is homogeneous or not. In addition to these applications the

TPS 2500 S can also be employed for dedicated specific heat capacity testing of

large (compared to conventional methods, e.g. DSC) solid samples, such as

complex composites.

Thermal Conductivity

Thermal Diffusivity

Specific Heat Capacity

Measurement Time

Reproducibility

Accuracy

Temperature Range

With Furnace

With Circulator

Power Requirements

Smallest Sample Dimensions

0.005 to 1800 W/m/K.

0.1 to 1200 mm²/s.

Up to 5 MJ/m³K.

1 to 1280 seconds.

Typically better than 1 %.

Better than 5 %.

-253 °C to 1000 °C.

Ambient to 750 °C [1000 °C oxygen free].

-35 °C to 200 °C.

Adjusted to the line voltage in the country of use.

0.5 mm × 2 mm diameter or square for bulk

testing.

0.1 mm × 10 mm diameter or square for slab

testing.

10 mm × 5 mm diameter or square for

one-dimensional testing.

Sensor Types Available All Kapton sensors.

All Mica sensors.

All Teflon sensors.

Meets ISO Standard 22007-2.

The Hot Disk Thermal Analyser software for the TPS 2500 S system incorporates

tools for automated measurements as well as automatic temperature control of

external devices. It also incorporates tools for exporting results to 3rd-party

software (MS Excel), for additional processing or statistical analysis. For precise

and automatic temperature readings an optional PT-100 temperature sensor is

available.

Specifications

Back to top

Key Features

Back to top

Sensors: The TPS 2500 S operates a wide variety of Hot Disk sensors. With sensor

radius from 0.5 mm up to 30 mm the instrument is suitable for all kinds of

materials and applications.

Temperature Control: Automatic Temperature series measurements (Isothermal

Steps) are easy to perform using either an optional external Furnace or a

temperature-controlled Circulating Bath. These external devices can be directly

controlled through the Hot Disk Thermal Analyser software to ensure ease of use.

Everything to get you started: The basic TPS 2500 S system includes everything

to get you started making measurements, including installation and on-site

training. The instrumentation includes: Hot Disk TPS 2500 S instrument; Isotropic,

One-dimensional and Structural Probe software modules; a Sensor; Stainless

Steel Verification Samples and Room-Temperature Sample Holder.

Optional Software Modules: In addition to the standard ISOTROPIC,

ONE-DIMENSIONAL and STRUCTURAL PROBE MODULES, optional software

modules for SLAB, THIN FILM, ANISOTROPIC, SPECIFIC HEAT CAPACITY and

LOW-DENSITY, HIGHLY-INSULATING SAMPLES are available.

TPS-2500S：Hot Disk TPS 2500 S是热物性行业领先仪器，可以同时测得导热系数、热扩散系

数和比热 (符合ISO/DIS 22007-2标准). TPS 2500 S可用于测试大量不同类型的材料，包括固

体、液体、粉末和复合材料。它也可用于测试合成材料如高分子、涂层、塑料、油品、基底材料、

纳米材料以及液体、凝胶、相转变或界面材料，还可以用于各向异性材料如纤维增强材料和多层

材料的测试。除此之外，TPS 2500 S还可用于如高温超导体、金属合金、陶瓷、橡胶、添加剂、

织物、玻璃、碳和石墨材料。此外，TPS 2500 S还可用于天然材料如木头、谷物、流体、生物

组织、土壤、岩石、金属和矿物。

许多常规工业产品可以归到以上分类，包括连续精细化工产品或建筑材料或常规材料复合物

如纸、泡沫、薄膜、保温层、防护膜和隔套。所有这些样品都可以使用TPS 2500 S快速测得，

这在热物性测试领域独一无二。在市场上也有其他测试手段，但要覆盖所有这些分类不可避免的

需要综合几种不同的仪器，成本高昂，而所有这些测试只需要TPS 2500 S一台仪器就可以快速

可靠地完成。

采用TPS 2500 S进行测试非常便捷与可靠，只需要简单地将一个Hot Disk探头固定在两块

样品之间，探头同时作为热源和温度传感器，测试过程非常迅速和准确。用户也可以使用TPS

2500 S单面测试模块进行检测。此时，探头被固定在一块被测样品和另一块已知导热性能的样

品之间，通常采用聚苯乙烯。这一选项被广泛地应用与质量检控领域。与市场上其他的单面技术

相比，TPS技术能同时提供实时并精确的导热系数和热扩散系数。对于液体、凝胶和粉末样品，

测试时只需将 Hot Disk探头简单地插到材料中或将材料涂到探头两边。对于液体测试，Hot Disk

特别提供液体样品架。

TPS 2500 S的最新特点是测试时间提高到1秒，这表明温度测试记录最小间隔可达到5 毫

秒。 由于这一进展, 可以使用基本模块测试导热系数高达400 W/(mK)的材。此外，较短的测试

间隔对一些粘度极小的液体如甲苯和乙醇等的测试带来了极大的便利。

包含:

Hot Disk TPS 2500 S主机

标准测试模块- 软件

一个Hot Disk探头: S/N 5501

室温样品架

一天安装培训

适合测试：

金属、陶瓷、液体、粉末、凝胶、高分子、复合材料、纤维材料、固体和液体纳米材料等。

技术指标

导热系数: 0.005 - 1800 W/(mK)

热扩散系数: 0.1 - 1200 mm2/s

比热: up to 5 MJ/(m3K)

温度范围: 30 K - 1000 ℃

测试时间: 1 - 1280 s

重复性: < 1%

精度: <2%

最小样品尺寸: 厚度0.5 mm, 直径 2 mm

2024年3月11日发(作者：宓乐语)

TPS 2500 S 2200 1500





SPECIFICATIONS

KEY FEATURES

Top of the line Thermal Constants

Analyser

The Hot Disk TPS 2500 S is the flagship instrument in the system portfolio of Hot

Disk AB. This general-purpose R&D instrument is designed for precision analysis

of thermal transport properties - including thermal conductivity, thermal diffusivity

and specific heat capacity. The TPS 2500 S covers an extensive range of

materials of various geometries and dimensions, and meets ISO Standard

22007-2.

The standardized TPS technique – today used in more than 600 laboratories – is

highly appreciated for its ability to simultaneously determine thermal conductivity,

thermal diffusivity and specific heat capacity from a single measurement, with

limited emphasis on sample preparation. The operative simplicity of the TPS 2500

S and the performance achieved when using optimally designed Hot Disk sensors,

makes this system an ideal, trustworthy tool for tests of solids, liquids, powders,

pastes and foams. The trademark high accuracy and precision also makes the

instrument suitable for QC testing.

The selection of software modules allows the TPS 2500 S to be used in many

specialized applications, from basic testing of isotropic materials (Isotropic module)

to measurements of rod-shaped specimens (One-dimensional module); thin films,

coatings or adhesive layers (Thin Film module); high-conducting sheets or slabs

(Slab module); extremely light and low-conducting materials

(Low-density/Highly-insulating module); and anisotropic samples or layered

structures (Anisotropic module) – all important applications in the electronics,

automotive, aerospace, nuclear and chemical industries. Furthermore, with the

unique feature of being able to probe thermal conductivity as a function of sample

depth (Structural Probe module), the TPS 2500 S be used to determine

whether a sample is homogeneous or not. In addition to these applications the

TPS 2500 S can also be employed for dedicated specific heat capacity testing of

large (compared to conventional methods, e.g. DSC) solid samples, such as

complex composites.

Thermal Conductivity

Thermal Diffusivity

Specific Heat Capacity

Measurement Time

Reproducibility

Accuracy

Temperature Range

With Furnace

With Circulator

Power Requirements

Smallest Sample Dimensions

0.005 to 1800 W/m/K.

0.1 to 1200 mm²/s.

Up to 5 MJ/m³K.

1 to 1280 seconds.

Typically better than 1 %.

Better than 5 %.

-253 °C to 1000 °C.

Ambient to 750 °C [1000 °C oxygen free].

-35 °C to 200 °C.

Adjusted to the line voltage in the country of use.

0.5 mm × 2 mm diameter or square for bulk

testing.

0.1 mm × 10 mm diameter or square for slab

testing.

10 mm × 5 mm diameter or square for

one-dimensional testing.

Sensor Types Available All Kapton sensors.

All Mica sensors.

All Teflon sensors.

Meets ISO Standard 22007-2.

The Hot Disk Thermal Analyser software for the TPS 2500 S system incorporates

tools for automated measurements as well as automatic temperature control of

external devices. It also incorporates tools for exporting results to 3rd-party

software (MS Excel), for additional processing or statistical analysis. For precise

and automatic temperature readings an optional PT-100 temperature sensor is

available.

Specifications

Back to top

Key Features

Back to top

Sensors: The TPS 2500 S operates a wide variety of Hot Disk sensors. With sensor

radius from 0.5 mm up to 30 mm the instrument is suitable for all kinds of

materials and applications.

Temperature Control: Automatic Temperature series measurements (Isothermal

Steps) are easy to perform using either an optional external Furnace or a

temperature-controlled Circulating Bath. These external devices can be directly

controlled through the Hot Disk Thermal Analyser software to ensure ease of use.

Everything to get you started: The basic TPS 2500 S system includes everything

to get you started making measurements, including installation and on-site

training. The instrumentation includes: Hot Disk TPS 2500 S instrument; Isotropic,

One-dimensional and Structural Probe software modules; a Sensor; Stainless

Steel Verification Samples and Room-Temperature Sample Holder.

Optional Software Modules: In addition to the standard ISOTROPIC,

ONE-DIMENSIONAL and STRUCTURAL PROBE MODULES, optional software

modules for SLAB, THIN FILM, ANISOTROPIC, SPECIFIC HEAT CAPACITY and

LOW-DENSITY, HIGHLY-INSULATING SAMPLES are available.

TPS-2500S：Hot Disk TPS 2500 S是热物性行业领先仪器，可以同时测得导热系数、热扩散系

数和比热 (符合ISO/DIS 22007-2标准). TPS 2500 S可用于测试大量不同类型的材料，包括固

体、液体、粉末和复合材料。它也可用于测试合成材料如高分子、涂层、塑料、油品、基底材料、

纳米材料以及液体、凝胶、相转变或界面材料，还可以用于各向异性材料如纤维增强材料和多层

材料的测试。除此之外，TPS 2500 S还可用于如高温超导体、金属合金、陶瓷、橡胶、添加剂、

织物、玻璃、碳和石墨材料。此外，TPS 2500 S还可用于天然材料如木头、谷物、流体、生物

组织、土壤、岩石、金属和矿物。

许多常规工业产品可以归到以上分类，包括连续精细化工产品或建筑材料或常规材料复合物

如纸、泡沫、薄膜、保温层、防护膜和隔套。所有这些样品都可以使用TPS 2500 S快速测得，

这在热物性测试领域独一无二。在市场上也有其他测试手段，但要覆盖所有这些分类不可避免的

需要综合几种不同的仪器，成本高昂，而所有这些测试只需要TPS 2500 S一台仪器就可以快速

可靠地完成。

采用TPS 2500 S进行测试非常便捷与可靠，只需要简单地将一个Hot Disk探头固定在两块

样品之间，探头同时作为热源和温度传感器，测试过程非常迅速和准确。用户也可以使用TPS

2500 S单面测试模块进行检测。此时，探头被固定在一块被测样品和另一块已知导热性能的样

品之间，通常采用聚苯乙烯。这一选项被广泛地应用与质量检控领域。与市场上其他的单面技术

相比，TPS技术能同时提供实时并精确的导热系数和热扩散系数。对于液体、凝胶和粉末样品，

测试时只需将 Hot Disk探头简单地插到材料中或将材料涂到探头两边。对于液体测试，Hot Disk

特别提供液体样品架。

TPS 2500 S的最新特点是测试时间提高到1秒，这表明温度测试记录最小间隔可达到5 毫

秒。 由于这一进展, 可以使用基本模块测试导热系数高达400 W/(mK)的材。此外，较短的测试

间隔对一些粘度极小的液体如甲苯和乙醇等的测试带来了极大的便利。

包含:

Hot Disk TPS 2500 S主机

标准测试模块- 软件

一个Hot Disk探头: S/N 5501

室温样品架

一天安装培训

适合测试：

金属、陶瓷、液体、粉末、凝胶、高分子、复合材料、纤维材料、固体和液体纳米材料等。

技术指标

导热系数: 0.005 - 1800 W/(mK)

热扩散系数: 0.1 - 1200 mm2/s

比热: up to 5 MJ/(m3K)

温度范围: 30 K - 1000 ℃

测试时间: 1 - 1280 s

重复性: < 1%

精度: <2%

最小样品尺寸: 厚度0.5 mm, 直径 2 mm