ISO 14887:2000
Current
Current
The latest, up-to-date edition.
Sample preparation Dispersing procedures for powders in liquids
Available format(s)
Hardcopy , PDF , PDF 3 Users , PDF 5 Users , PDF 9 Users
Language(s)
English, French
Published date
07-09-2000
DocumentType |
Standard
|
Pages |
24
|
ProductNote |
THIS STANDARD ALSO REFERS TO BS 3406:1984,NF X 11-693,
|
PublisherName |
International Organization for Standardization
|
Status |
Current
|
Standards | Relationship |
BS ISO 14887:2000 | Identical |
AS 4784-2003 | Identical |
NEN ISO 14887 : 2000 | Identical |
DIN ISO 14887:2010-03 | Identical |
NF ISO 14887 : 2000 | Identical |
ISO 13318-2:2007 | Determination of particle size distribution by centrifugal liquid sedimentation methods Part 2: Photocentrifuge method |
BS ISO 13323-1:2000 | Determination of particle size distribution. Single-particle light interaction methods Light interaction considerations |
BS ISO 13319:2007 | Determination of particle size distributions. Electrical sensing zone method |
ISO 20998-2:2013 | Measurement and characterization of particles by acoustic methods — Part 2: Guidelines for linear theory |
DD ISO/TS 12805:2011 | Nanotechnologies. Materials specifications. Guidance on specifying nano-objects |
ISO 13318-1:2001 | Determination of particle size distribution by centrifugal liquid sedimentation methods — Part 1: General principles and guidelines |
ISO/TR 10993-22:2017 | Biological evaluation of medical devices — Part 22: Guidance on nanomaterials |
01/120731 DC : DRAFT FEB 2001 | BS ISO 13323-3 - DETERMINATION OF PARTICLE SIZE DISTRIBUTION - SINGLE PARTICLE LIGHT INTERACTION METHODS - PART 3: SINGLE-PARTICLE LIGHT-EXTINCTION DEVICE DESIGN, PERFORMANCE SPECIFICATIONS AND OPERATION REQUIREMENTS |
ISO 20998-1:2006 | Measurement and characterization of particles by acoustic methods Part 1: Concepts and procedures in ultrasonic attenuation spectroscopy |
ISO 24235:2007 | Fine ceramics (advanced ceramics, advanced technical ceramics) Determination of particle size distribution of ceramic powders by laser diffraction method |
AASHTO T 353 : 2014(R2018) | METHOD OF TEST FOR PARTICLE SIZE ANALYSIS OF HYDRAULIC CEMENT AND RELATED MATERIALS BY LIGHT SCATTERING |
BS ISO 13320-1:1999 | Particle size analysis. Laser diffraction methods General principles |
BS ISO 13317-2:2001 | Determination of particle size distribution by gravitational liquid sedimentation methods Fixed pipette method |
07/30168945 DC : 0 | BS ISO 13320 - PARTICLE SIZE ANALYSIS - LASER DIFFRACTION METHODS |
I.S. EN ISO 14232-1:2017 | THERMAL SPRAYING - POWDERS - PART 1: CHARACTERIZATION AND TECHNICAL SUPPLY CONDITIONS (ISO 14232-1:2017) |
BS PAS 71(2005) : 2005 | VOCABULARY - NANOPARTICLES |
ISO 13317-4:2014 | Determination of particle size distribution by gravitational liquid sedimentation methods Part 4: Balance method |
S.R. CEN ISO/TS 17200:2015 | NANOTECHNOLOGY - NANOPARTICLES IN POWDER FORM - CHARACTERISTICS AND MEASUREMENTS (ISO/TS 17200:2013) |
ISO/TS 14411-1:2017 | Preparation of particulate reference materials — Part 1: Polydisperse material based on picket fence of monodisperse spherical particles |
EN ISO 14232-1:2017 | Thermal spraying - Powders - Part 1: Characterization and technical supply conditions (ISO 14232-1:2017) |
BS ISO 26824:2013 | Particle characterization of particulate systems. Vocabulary |
14/30304007 DC : 0 | BS EN 62899-2-1 ED.1 - PRINTED ELECTRONICS - MATERIALS - PART 2-1: CONDUCTIVE MATERIAL INK |
16/30301923 DC : 0 | BS EN ISO 14232-1 - THERMAL SPRAYING - POWDERS - PART 1: CHARACTERISATION AND TECHNICAL SUPPLY CONDITIONS |
BS EN ISO 14232-1:2017 | Thermal spraying. Powders Characterization and technical supply conditions |
ISO 13317-2:2001 | Determination of particle size distribution by gravitational liquid sedimentation methods — Part 2: Fixed pipette method |
BS ISO 13317-4:2014 | Determination of particle size distribution by gravitational liquid sedimentation methods Balance method |
14/30299224 DC : 0 | BS ISO 18473-1 - FUNCTIONAL PIGMENTS AND EXTENDERS FOR SPECIAL APPLICATIONS - PART 1: NANOSCALE CALCIUM CARBONATE FOR SEALANT APPLICATION |
15/30314230 DC : 0 | BS ISO 22412 - PARTICLE SIZE ANALYSIS - DYNAMIC LIGHT SCATTERING (DLS) |
BS ISO 13317-3:2001 | Determination of particle size distribution by gravitational liquid sedimentation methods X-ray gravitational technique |
BS ISO 13322-1:2014 | Particle size analysis. Image analysis methods Static image analysis methods |
IEC 62899-202:2016 | Printed electronics - Part 202: Materials - Conductive ink |
ISO 13322-1:2014 | Particle size analysis — Image analysis methods — Part 1: Static image analysis methods |
ISO/TS 11931:2012 | Nanotechnologies — Nanoscale calcium carbonate in powder form — Characteristics and measurement |
ISO 13323-1:2000 | Determination of particle size distribution Single-particle light interaction methods Part 1: Light interaction considerations |
BS IEC 62899-202:2016 | Printed electronics Materials. Conductive ink |
10/30216333 DC : 0 | BS ISO 13099-1 - COLLOIDAL SYSTEMS - METHODS FOR ZETA-POTENTIAL DETERMINATION - PART 1: ELECTROACOUSTIC AND ELECTROKINETIC PHENOMENA |
BS ISO 13318-2:2007 | Determination of particle size distribution by centrifugal liquid sedimentation methods Photocentrifuge method |
PD ISO/TS 11937:2012 | Nanotechnologies. Nanoscale titanium dioxide in powder form. Characteristics and measurement |
BS ISO 20998-2:2013 | Measurement and characterization of particles by acoustic methods Guidelines for linear theory |
BS ISO 20998-1:2006 | Measurement and characterization of particles by acoustic methods Concepts and procedures in ultrasonic attenuation spectroscopy |
PD ISO/TS 14411-1:2017 | Preparation of particulate reference materials Polydisperse material based on picket fence of monodisperse spherical particles |
DIN EN ISO 14232-1 E : 2017 | THERMAL SPRAYING - POWDERS - PART 1: CHARACTERIZATION AND TECHNICAL SUPPLY CONDITIONS (ISO 14232-1:2017) |
ISO 14488:2007 | Particulate materials — Sampling and sample splitting for the determination of particulate properties |
01/120730 DC : DRAFT FEB 2001 | BS ISO 13323-2 - DETERMINATION OF PARTICLE SIZE DISTRIBUTION - SINGLE PARTICLE LIGHT INTERACTION METHODS - PART 2: LIGHT SCATTERING SINGLE PARTICLE INTERACTION DEVICE DESIGN, PERFORMANCE SPECIFICATIONS AND OPERATION REQUIREMENTS |
BS ISO 13317-1:2001 | Determination of particle size distribution by gravitational liquid sedimentation methods General principles and guidelines |
ISO 26824:2013 | Particle characterization of particulate systems — Vocabulary |
ISO/TS 12805:2011 | Nanotechnologies — Materials specifications — Guidance on specifying nano-objects |
DIN EN ISO 14232-1:2016-02 (Draft) | THERMAL SPRAYING - POWDERS - PART 1: CHARACTERIZATION AND TECHNICAL SUPPLY CONDITIONS (ISO 14232-1:2017) |
ISO 13320:2009 | Particle size analysis Laser diffraction methods |
17/30319067 DC : 0 | BS ISO 18747-1 - DETERMINATION OF PARTICLE DENSITY BY SEDIMENTATION METHODS - PART 1: ISOPYCNIC INTERPOLATION APPROACH |
PD CEN ISO/TS 17200:2015 | Nanotechnology. Nanoparticles in powder form. Characteristics and measurements |
13/30255468 DC : 0 | BS ISO 13317-4 - DETERMINATION OF PARTICLE SIZE DISTRIBUTION BY GRAVITATIONAL LIQUID SEDIMENTATION METHODS - PART 4: BALANCE METHOD |
BS ISO 13318-1:2001 | Determination of particle size distribution by centrifugal liquid sedimentation methods General principles and guidelines |
05/30137091 DC : 0 | ISO 14488 - PARTICULATE MATERIALS - SAMPLING AND SAMPLE SPLITTING FOR THE DETERMINATION OF PARTICULATE PROPERTIES |
ISO 13319:2007 | Determination of particle size distributions Electrical sensing zone method |
ISO/TR 19716:2016 | Nanotechnologies Characterization of cellulose nanocrystals |
ISO/TS 11937:2012 | Nanotechnologies — Nanoscale titanium dioxide in powder form — Characteristics and measurement |
ISO 14232-1:2017 | Thermal spraying — Powders — Part 1: Characterization and technical supply conditions |
ISO/TS 17200:2013 | Nanotechnology Nanoparticles in powder form Characteristics and measurements |
ISO 13317-1:2001 | Determination of particle size distribution by gravitational liquid sedimentation methods — Part 1: General principles and guidelines |
PD ISO/TS 11931:2012 | Nanotechnologies. Nanoscale calcium carbonate in powder form. Characteristics and measurement |
05/30131891 DC : DRAFT JULY 2005 | ISO 20998-1 - PARTICLE CHARACTERIZATION BY ACOUSTIC METHODS - PART 1: ULTRASONIC ATTENUATION SPECTROSCOPY |
BS ISO 14488:2007 | Particulate materials. Sampling and sample splitting for the determination of particulate properties |
PD ISO/TR 19716:2016 | Nanotechnologies. Characterization of cellulose nanocrystals |
PD ISO/TR 10993-22:2017 | Biological evaluation of medical devices Guidance on nanomaterials |
16/30320652 DC : 0 | BS ISO 20998-3 - MEASUREMENT AND CHARACTERIZATION OF PARTICLES BY ACOUSTIC METHODS - PART 3: GUIDELINES FOR NON-LINEAR THEORY |
12/30242232 DC : 0 | BS ISO 20998-2 - MEASUREMENT AND CHARACTERIZATION OF PARTICLES BY ACOUSTIC METHODS - PART 2: GUIDELINES FOR LINEAR THEORY |
BS ISO 13320:2009 | Particle size analysis. Laser diffraction methods |
ISO 13317-3:2001 | Determination of particle size distribution by gravitational liquid sedimentation methods — Part 3: X-ray gravitational technique |
PD ISO/TR 13097:2013 | Guidelines for the characterization of dispersion stability |
UNE-EN ISO 14232-1:2017 | Thermal spraying - Powders - Part 1: Characterization and technical supply conditions (ISO 14232-1:2017) |
ISO 18747-1:2018 | Determination of particle density by sedimentation methods — Part 1: Isopycnic interpolation approach |
ISO/TR 13097:2013 | Guidelines for the characterization of dispersion stability |
CEN ISO/TS 17200:2015 | Nanotechnology - Nanoparticles in powder form - Characteristics and measurements (ISO/TS 17200:2013) |
ISO 8213:1986 | Chemical products for industrial use — Sampling techniques — Solid chemical products in the form of particles varying from powders to coarse lumps |
Access your standards online with a subscription
Features
-
Simple online access to standards, technical information and regulations.
-
Critical updates of standards and customisable alerts and notifications.
-
Multi-user online standards collection: secure, flexible and cost effective.