| Meet Principe | Standaards | Standard Title | Relevant(e) model(len) |
|---|---|---|---|
| Gas Adsorptie | ISO 12154:2014 | Determination of Density by Volumetric Displacement – Skeleton Density by Gas Pycnometry | BELPYCNO, BELPYCNO L |
| Gas Adsorptie | ISO 12800:2017 | Nuclear Fuel Technology – Guidelines on the Measurement of the Specific Surface Area of Uranium Oxide Powders by the BET Method | BELSORP MINI X, BELSORP MAX G, BELSORP MAX X |
| Gas Adsorptie | ISO 15901-1:2016 | Evaluation of Pore Size Distribution and Porosity of Solid Materials by Mercury Porosimetry and Gas Adsorption – Part 1: Mercury Porosimetry | BELPORE LP, BELPORE MP, BELPORE HP |
| Gas Adsorptie | ISO 15901-2:2022 | Pore Size Distribution and Porosity of Solid Materials by Mercury Porosimetry and Gas Adsorption – Part 2: Analysis of Nanopores by Gas Adsorption | BELSORP MINI X, BELSORP MAX G, BELSORP MAX X |
| Gas Adsorptie | ISO 18753:2017 | Fine Ceramics (Advanced Ceramics, Advanced Technical Ceramics) – Determination of Absolute Density of Ceramic Powders by Pycnometer | BELPYCNO, BELPYCNO L |
| Gas Adsorptie | ISO 18757:2003 | Fine Ceramics (Advanced Ceramics, Advanced Technical Ceramics) – Determination of Specific Surface Area of Ceramic Powders by Gas Adsorption Using the BET Method | BELSORP MINI X, BELSORP MAX G, BELSORP MAX X |
| Gas Adsorptie | ISO 18852:2015 | Rubber Compounding Ingredients – Determination of Multipoint Nitrogen Surface Area (NSA) And Statistical Thickness Surface Area (STSA) | BELSORP MINI X, BELSORP MAX G, BELSORP MAX X |
| Gas Adsorptie | ISO 4652:2020 | Rubber Compounding Ingredients – Carbon Black – Determination of Specific Surface Area by Nitrogen Adsorption Methods – Single-Point Procedures | BELSORP MINI X, BELSORP MAX G, BELSORP MAX X, BELSORP MR1, BELCAT II |
| Gas Adsorptie | ISO 8008:2005 | Aluminium Oxide Primarily Used for the Production of Aluminium – Determination of Specific Surface Area by Nitrogen Adsorption | BELSORP MINI X, BELSORP MAX G, BELSORP MAX X, BELSORP MR1, BELCAT II |
| Gas Adsorptie | ISO 8130-2:2021 | Coating Powders – Part 2: Determination of Density by Gas Comparison Pycnometer (Referee Method) | BELPYCNO, BELPYCNO L |
| Gas Adsorptie | ISO 9277:2022 | Determination of the Specific Surface Area of Solids by Gas Adsorption – BET Method | BELSORP MINI X, BELSORP MAX G, BELSORP MAX X |
| Meet Principe | Standaards | Standard Title | Relevant(e) model(len) |
|---|---|---|---|
| Particle Size & Shape | ISO 11277:2020 | Soil Quality – Determination of Particle Size Distribution in Mineral Soil Material – Method by Sieving and Sedimentation | SYNC |
| Particle Size & Shape | ISO 12103-1:2024 | Road Vehicles – Test Contaminants for Filter Evaluation – Part 1: Arizona Test Dust | SYNC |
| Particle Size & Shape | ISO 13320:2020 | Particle Size Analysis – Laser Diffraction Methods | SYNC |
| Particle Size & Shape | ISO 13322-1:2014 | Particle Size Analysis – Image Analysis Methods – Part 1: Static Image Analysis Methods | CAMSIZER |
| Particle Size & Shape | ISO 13322-2:2021 | Particle Size Analysis – Image Analysis Methods – Part 2: Dynamic Image Analysis Methods | SYNC, CAMSIZER |
| Particle Size & Shape | ISO 13503-2:2024 | Measurement of properties of proppants used in hydraulic fracturing and gravel-packing operations | CAMSIZER |
| Particle Size & Shape | ISO 14488 | Particulate materials - Sampling and sample splitting for the determination of particulate properties | General requirement |
| Particle Size & Shape | ISO 17190-11:2001 | Urine-Absorbing Aids for Incontinence – Test Methods for Characterizing Polymer-Based Absorbent Materials – Part 11: Determination of Content of Respirable Particles | SYNC |
| Particle Size & Shape | ISO 17190-3 | Urine-Absorbing Aids for Incontinence – Test Methods for Characterizing Polymer-Based Absorbent Materials – Part 3: Determination of particle size distribution by sieve fractionation | CAMSIZER |
| Particle Size & Shape | ISO 24235:2007 | Fine Ceramics (Advanced Ceramics, Advanced Technical Ceramics) – Determination of Particle Size Distribution of Ceramic Powders by Laser Diffraction Method | SYNC |
| Particle Size & Shape | ISO 2591-1 | Test Sieving | Sieving, CAMSIZER |
| Particle Size & Shape | ISO 3310-1 | Test sieves - Technical requirements and testing - Test sieves of metal wire cloth | Sieving |
| Particle Size & Shape | ISO 4365:2005 | Liquid Flow in Open Channels – Sediment in Streams and Canals – Determination of Concentration, Particle Size Distribution and Relative Density | SYNC |
| Particle Size & Shape | ISO 8130-13:2019 | Coating Powders – Part 13: Particle Size Analysis by Laser Diffraction | SYNC |
| Particle Size & Shape | ISO 9276-1 | Representation of results of particle size analysis | General requirement |
| Particle Size & Shape | ISO 9276-2:2014 | Representation of results of particle size analysis. Part 2: Calculation of average particle sizes/diameters and moments from particle size distributions | General requirement |
| Particle Size & Shape | ISO 9276-3:2008 | Representation of results of particle size analysis. Part 3: Adjustment of an experimental curve to a reference model | General requirement |
| Particle Size & Shape | ISO 9276-4:2001 | Representation of results of particle size analysis. Part 4: Characterization of a classification process | General requirement |
| Particle Size & Shape | ISO 9276-5:2005 | Representation of results of particle size analysis. Part 5: Methods of calculation relating to particle size analyses using logarithmic normal probability distribution | General requirement |
| Particle Size & Shape | ISO 9276-6 | Descriptive and quantitative representation of particle shape and morphology | CAMSIZER, SYNC |
| Particle Size & Shape | ISO EN 1423 | Road marking materials – Drop on materials-Glas beads, antiskid aggregates and mixtures of the two | CAMSIZER |
| Particle Size & Shape | ISO/ASTM 52907:2019 | Additive Manufacturing – Feedstock Materials – Methods to Characterize Metal Powders | SYNC, CAMSIZER |
| Particle Size & Shape | ISO 24218-1:2023 | Fine Bubble Technology – Characterization of Fine Bubbles – Part 1: Evaluation of Size and Concentration Indices by Laser Diffraction Method | SYNC |
| Particle Size & Shape | ISO/TR 19997:2018 | Guidelines for good practices in zeta-potential measurement | NANOTRAC II with Zeta |
| Meet Principe | Standaards | Standard Title | Relevant(e) model(len) |
|---|---|---|---|
| Stability & Dispersibility | ISO 13099-2 | Colloidal systems -Methods for zetapotential determination - Part 2: Optical methods | NANOTRAC |
| Stability & Dispersibility | ISO 13317 | Determination of particle size distribution by gravitational liquid sedimentation methods | TURBISCAN |
| Stability & Dispersibility | ISO 22412 | Particle size analysis — Dynamic light scattering (DLS) | NANOTRAC |
| Stability & Dispersibility | ISO TR 18811:2018 | Cosmetics — Guidelines on the stability testing of cosmetic products | TURBISCAN |
| Stability & Dispersibility | ISO TR13097:2013 | Guidelines for the characterization of dispersion stability | TURBISCAN |
| Stability & Dispersibility | ISO TS 21357:2022 | Nanotechnologies — Evaluation of the mean size of nano-objects in liquid dispersions by static multiple light scattering (SMLS) | TURBISCAN |
| Stability & Dispersibility | ISO TS 22107:2021 | Dispersibility of solid particles into a liquid | TURBISCAN |
| Stability & Dispersibility | ISO/TR 22814 | Good practice for DLS measurements | NANOTRAC |