Distribution Measuring Instrument Product List and Ranking from 6 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Aug 27, 2025~Sep 23, 2025
This ranking is based on the number of page views on our site.

Distribution Measuring Instrument Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Aug 27, 2025~Sep 23, 2025
This ranking is based on the number of page views on our site.

  1. マイクロトラック・ベル Osaka//others
  2. シバタ ファインバブル事業部 Aichi//others
  3. ウェーブクレスト Saitama//Educational and Research Institutions
  4. 4 ナノシーズ Aichi//others
  5. 4 null/null
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Distribution Measuring Instrument Product ranking

Last Updated: Aggregation Period:Aug 27, 2025~Sep 23, 2025
This ranking is based on the number of page views on our site.

  1. [Data] Particle Size Distribution (Particle Diameter Distribution) and Particle Shape of Activated Carbon マイクロトラック・ベル
  2. Particle Size Distribution (Particle Diameter Distribution) and Particle Shape Measurement Device 'SYNC' マイクロトラック・ベル
  3. [Data] Cement and Particle Size Distribution (Grain Size Distribution) マイクロトラック・ベル
  4. Laser diffraction and scattering particle size distribution measurement device MT3000 II series マイクロトラック・ベル
  5. 5 [Data] Particle size distribution and particle shape of superabsorbent polymers マイクロトラック・ベル

Distribution Measuring Instrument Product List

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No. 13 T-plot method for mesoporous materials...(Applied Edition 4)

No. 13 T-plot method for mesoporous materials...(Applied Edition 4)

Introduction to the structural evaluation of mesoporous zeolite using the t-plot method (Application Edition 4)!

This document introduces the structural evaluation of mesoporous zeolite using the t-plot method (Application Edition 4) with graphs and tables. The H+-type ZSM-5, prepared by heating NH4-type ZSM-5 at 535°C for 3 hours under atmospheric pressure, is confirmed to be an aggregate of polyhedral layered particles around 200 nm in size, with slit-shaped pores between the particles, as observed in SEM images. The N2 adsorption-desorption isotherm at 77.4K for H+-type ZSM-5 shows hysteresis that closes at p/p0=0.43, indicating the presence of mesopores between fine particles. The adsorption isotherm is classified as Type I+IV, which also indicates the presence of micropores within the particles. *For more details, please refer to the PDF document or feel free to contact us.*

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[Data] Measurement of the grain size distribution (particle size distribution) of Apollo 11 lunar soil.

[Data] Measurement of the grain size distribution (particle size distribution) of Apollo 11 lunar soil.

Measurement of Particle Size Distribution as an Alternative to the Sieve Method: Example of High-Precision Measurement Using Microtrack MT3000

This document introduces the measurement of particle size distribution of lunar soil from Apollo 11. The "Microtrack Particle Size Distribution Measurement Device" is useful for various research in the aerospace industry. Most of the particle size distribution measurements of lunar soil collected during the Apollo program were conducted using the sieve method, but there were issues such as long measurement times, large sample requirements, and doubts about the reliability of analysis data for submicron and nanoparticle sizes below 10μm, which are prone to dispersion and adhesion. This product was adopted to overcome these challenges. From the analysis results, it was confirmed that the particle size distribution of particles below 90μm measured by Microtrack showed a high correlation with the results obtained using the sieve method in 2001. *For more details, please refer to the PDF document or feel free to contact us.

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[Data] Evaluation of the Manufacturing Process of Cosmetics and Particle Size Distribution (Particle Diameter Distribution)

[Data] Evaluation of the Manufacturing Process of Cosmetics and Particle Size Distribution (Particle Diameter Distribution)

Introducing an example of particle size distribution measurement of UV lotion using a microtrack!

This document introduces the manufacturing process of UV lotion containing UV scattering agents as sunscreen ingredients, along with examples of particle size distribution measurements at each stage. Many cosmetics are emulsified formulations, and they are generally homogenized using surfactants to create a uniform oil phase-water phase (liquid-liquid system). Cosmetics have high added value and are produced in a variety of types and quantities that change with the seasons, which is why batch manufacturing processes are often adopted. [Contents] ■ Overview ■ Flow sheet of batch vacuum emulsification equipment and examples of particle size distribution measurements at each stage *For more details, please refer to the PDF document or feel free to contact us.

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[Data] Evaluation of the Dispersion of the Protein Crystallization Process

[Data] Evaluation of the Dispersion of the Protein Crystallization Process

Evaluation of dispersibility by measuring the particle size distribution of ribosome-lysozyme.

This document presents an example of using the nanoparticle tracking analysis device, NanoTrack, to measure the particle size distribution of protein dispersion solutions with high precision and to appropriately evaluate the dispersion state. In the process of crystallizing proteins, it is a very important factor that the proteins are uniformly dispersed (monodisperse) in the solution. We encourage you to read it. 【Contents】 ■ Overview ■ Example of resolution measurement at ultra-low concentrations Sample: Ribosome ■ Transition of aggregation state due to concentration changes Sample: Lysozyme ■ Albumin measurement data (volume distribution) ■ Evaluation equipment *For more details, please refer to the PDF document or feel free to contact us.

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[Data] Measurement Case Studies for Food and Pharmaceutical Applications

[Data] Measurement Case Studies for Food and Pharmaceutical Applications

We publish evaluations of particle size distribution of various foods and pharmaceuticals, as well as the shape and particle size distribution of rice!

This document introduces measurement examples for food and pharmaceutical applications. The "Microtrack MT3000II series" is used for evaluating particle size distribution in various food and pharmaceutical products. Additionally, evaluations using the "Microtrack PartAn3D" are included for assessing the shape and particle size distribution of rice. [Contents] ■ Evaluation of particle size distribution in various food and pharmaceutical products ■ Evaluation of the shape and particle size distribution of rice *For more details, please refer to the PDF document or feel free to contact us.

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[Data] Evaluation of Physical Properties of Secondary Battery Materials

[Data] Evaluation of Physical Properties of Secondary Battery Materials

Measurement of particle size distribution, specific surface area / pore distribution of positive electrode active materials and conductive additives.

This document introduces the evaluation of physical properties of secondary battery materials. It includes examples of particle size distribution measurement, evaluation of electrode carriers, applications, and evaluation equipment. The explanations are made clear using tables, so please take a moment to read it. 【Contents】 ■ Examples of particle size distribution measurement ■ Examples of electrode carrier evaluation ■ Applications ・ Particle size distribution measurement ・ Specific surface area/ pore distribution, gas/vapor adsorption measurement ■ Evaluation equipment *For more details, please refer to the PDF document or feel free to contact us.

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[Data] Evaluation of the Physical Properties of Nanomaterials

[Data] Evaluation of the Physical Properties of Nanomaterials

Multifaceted Physical Property Evaluation of Carbon Black

This document introduces the evaluation of the particle size distribution and specific surface area/pore distribution of carbon black. Carbon black, which has excellent electrical and thermal conductivity, is used in various industrial applications such as electrode materials, rubber and plastic fillers, and pigments. Its structure is known to be complex, consisting of spherical particles that form primary aggregates and further secondary agglomerates. Here, we will evaluate the physical properties of carbon black from multiple perspectives and analyze its aggregation state. 【Contents】 ■ Overview ■ Measurement Samples ■ Evaluation Equipment ■ Discussion ■ Summary ■ Measurement Results *For more details, please refer to the PDF document or feel free to contact us.

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[Data] Evaluation of Particle Size Distribution (Granule Size Distribution) and Aggregates

[Data] Evaluation of Particle Size Distribution (Granule Size Distribution) and Aggregates

The distribution of coarse particles in the glass bead sintered body has been found to be an "aggregate" due to sintering.

This document introduces the evaluation of particle size distribution (granule size distribution) and aggregates. Image analysis that supports the results of particle size distribution measurement using laser diffraction and scattering methods revealed that the distribution of coarse particles in the sintered body is due to "aggregates" formed during sintering. The evaluation device used is "Microtrac Sync." 【Contents】 ■Sample: Glass beads and their sintered bodies ■Evaluation device *For more details, please refer to the PDF document or feel free to contact us.

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[Data] High-resolution evaluation using particle shape index

[Data] High-resolution evaluation using particle shape index

Evaluation of the separation of alumina and glass beads with equivalent particle size distribution is possible! Introduction to high-resolution measurement using particle shape index.

This document introduces a high-resolution evaluation using the particle shape index. The laser diffraction and scattering method evaluates the overall distribution. The identification of sample shapes (spherical, needle-like, flat, etc.) is conducted through image analysis. By combining the two methods, it becomes possible to interpret results that go a step further than individual evaluations. Additionally, by using circularity (around 0.9) as an indicator, it has become possible to evaluate the separation of alumina and glass beads. 【Contents】 ■Samples: Alumina and Glass Beads - Particle size distribution by laser diffraction and scattering method - Imaging particles through image analysis - Scatter plot of alumina + glass beads (image analysis) ■Evaluation Equipment *For more details, please refer to the PDF document or feel free to contact us.

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Laser diffraction spray particle size distribution measurement device 'AEROTRAC II'

Laser diffraction spray particle size distribution measurement device 'AEROTRAC II'

Measurement of particle, droplet, and spray size distribution down to approximately 0.5 microns is possible! Demo/analysis/demo equipment rental is currently available!

The "AEROTRAC II" is a laser diffraction particle size distribution measurement device that performs high-precision powder and particle analysis with short measurement intervals. It can be installed in limited spaces! Unlike gas lasers, it does not require regular laser replacements. Even for high-concentration spray powders, it can minimize the effects of multiple scattering of laser light, enabling high-precision measurements. Additionally, the measurement interval for continuous measurements ranges from 0.02 msec to 500 msec, allowing for continuous high-precision measurements of particles flying through space at the speed of sound. 【Features】 ■ Wide range of applications ■ Standard equipped with multiple scattering correction software ■ Measurement modes tailored to each application ■ Compact optical platform ■ High-precision powder and particle analysis with short measurement intervals ■ Equipped with semiconductor laser *For more details, please refer to the PDF document or feel free to contact us.

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Specific surface area measurement device "BELSORP MR SERIES"

Specific surface area measurement device "BELSORP MR SERIES"

Demo/analysis now available! Introducing a specific surface area measurement device that achieves efficiency by simultaneously conducting pre-treatment and measurement!

We would like to introduce our specific surface area measurement device, the 'BELSORP MR SERIES'. The "BELSORP MR1" is equipped with a high-sensitivity thermal conductivity detector (TCD) and features an AUTO ZERO function, achieving high precision, high sensitivity, and high reproducibility in measurements. The "BELSORP MR6" can automatically and continuously measure 6 samples, enabling high-throughput measurements through simultaneous processing. 【Features】 <BELSORP MR1> ■ High-efficiency measurement ■ High-precision measurement ■ Easy operation ■ Compact design that eliminates the need for a computer, saving space ■ Outputs in text file format, allowing for direct printing in report format *For more details, please refer to the PDF document or feel free to contact us.

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Particle Size Distribution (Particle Diameter Distribution) and Particle Shape Measurement Device 'SYNC'

Particle Size Distribution (Particle Diameter Distribution) and Particle Shape Measurement Device 'SYNC'

Laser diffraction, scattering & dynamic image analysis! Achieve high-precision particle size distribution and shape evaluation through image analysis with a single device.

"SYNC" is a particle size distribution and shape measurement device that achieves high-precision particle size distribution measurement and shape evaluation through image analysis in a single unit. With a three-laser optical system, it detects scattered light from particles at high angles from 0 to 165 degrees as a continuous surface, enabling high-resolution measurement of particle size distribution. It is capable of evaluating roundness, aspect ratio, roughness, equivalent circular diameter, short and long axes of ellipses, Feret diameter, and more. 【Features】 ■ Measurement range: Particle size: 0.02 to 2000 μm, Image analysis: 5 to 2000 μm ■ Achieves high-precision particle size distribution and shape evaluation through image analysis in a single device ■ Particle size distribution (granulometric distribution) measurement using a three-laser system, which has become a standard evaluation device in various industries ■ More than 30 shape evaluations are possible, including equivalent circular diameter, equivalent elliptical diameter (short and long axes), Feret diameter (short and long axes), roundness, aspect ratio, and roughness *For more details, please refer to the PDF document or feel free to contact us.

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Dynamic Light Scattering Particle Size Distribution Measurement Device 'NANOTRAC FLEX'

Dynamic Light Scattering Particle Size Distribution Measurement Device 'NANOTRAC FLEX'

Demo/analysis now available. The world's smallest size as a nanoparticle size measurement device! Provides stable data across a wide range of concentrations.

The "NANOTRAC FLEX" is a particle size distribution measurement device that allows flexible measurements in various containers such as beakers by taking the probe mechanism externally. Maintaining the features of the well-established Nanotrack series, it can accommodate even more applications by combining with the streaming potential measurement device Stabino. It is one of the smallest devices in the world for measuring nanoparticle sizes. 【Features】 ■ Particle size: 0.8 to 6500 nm ■ High-resolution measurement (heterodyne detection of scattered light / frequency analysis) ■ Measurement possible in aqueous and organic solvent systems ■ Provides stable data across a wide concentration range ■ Measurement principle (Dynamic Light Scattering: DLS) *For more details, please refer to the PDF document or feel free to contact us.

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Laser diffraction and scattering particle size distribution measurement device MT3000 II series

Laser diffraction and scattering particle size distribution measurement device MT3000 II series

Demo/analysis now available. Four models lineup in the same module! We have adopted a unique tri-laser system.

The "MT3000 II Series" is a particle size distribution (granulometry) measurement device that incorporates three semiconductor lasers in a microtrack, achieving wide range and high resolution. To accurately detect particle size information from light scattering data, it is necessary to capture light scattering information from 0 to 360 degrees. By adopting a unique tri-laser system, Microtrack has developed a mechanism that allows for continuous detection of all scattered light. 【Features】 ■ Four models available in the same module (upgradeable) ■ Three lasers and a unique detection mechanism ■ Smooth switching between wet and dry measurements due to the use of an external cell system ■ The measurement optics and circulation parts are separate, allowing for flexible selection of sample feeders according to the characteristics of the sample *For more details, please refer to the PDF document or feel free to contact us.

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Particle shape evaluation and particle size distribution measurement device CAMSIZER X2

Particle shape evaluation and particle size distribution measurement device CAMSIZER X2

Easy operation and maintenance! High-precision particle size and shape analysis from fine particles to large particles.

The "CAMSIZER X2" is a powerful and versatile particle characterization device that combines new camera technology with flexible sample dispersion options. Based on the principle of dynamic image analysis (ISO 13322-2), it accurately determines particle size and shape for powders, granules, and suspensions over a wide measurement range of 0.8μm to 8mm. It generates a flow of particles in a dry powder or suspension state, continuously capturing particle images at a frame rate of 300 images per second using a high-intensity strobe light source and two high-resolution digital cameras. 【Features】 ■ Captures hundreds of thousands to millions of particle images in a short measurement time of 1 to 3 minutes ■ Enables comprehensive and reliable characterization of samples ■ Complies with ISO 13322-2 dynamic image analysis ■ Utilizes unique dual-camera technology to accommodate a wide measurement range (0.8μm to 8mm) ■ High-resolution measurements of sharp particle size distribution (granulometric distribution) and multiple peak distributions *For more details, please refer to the PDF document or feel free to contact us.

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