ISO 3923-1:2008
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
View Superseded by
Metallic powders Determination of apparent density Part 1: Funnel method
Hardcopy , PDF 1 User , PDF 3 Users , PDF 5 Users , PDF 9 Users
15-11-2018
English, French, Russian
24-04-2008
ISO 3923-1:2008 specifies the funnel method for the determination of the apparent density of metallic powders under standardized conditions.
The method is intended for metallic powders that flow freely through a 2,5 mm diameter orifice. It may, however, be used for powders that flow with difficulty through a 2,5 mm diameter orifice but flow through a 5 mm diameter orifice.
Methods for the determination of the apparent density of powders that will not flow through a 5 mm diameter orifice are specified in ISO 3923-2.
DevelopmentNote |
Supersedes ISO/DIS 3923-1. (05/2018)
|
DocumentType |
Standard
|
Pages |
5
|
PublisherName |
International Organization for Standardization
|
Status |
Withdrawn
|
SupersededBy | |
Supersedes |
Standards | Relationship |
NF EN ISO 3923-1 : 2010 | Identical |
UNE-EN 23923-1:1998 | Identical |
SN EN ISO 3923-1 : 2010 | Identical |
UNI EN ISO 3923-1 : 2010 | Identical |
I.S. EN ISO 3923-1:2010 | Identical |
DS EN ISO 3923-1 : 2010 | Identical |
NEN EN ISO 3923-1 : 2010 | Identical |
NS EN ISO 3923-1 : 2010 | Identical |
NBN EN ISO 3923-1 : 2010 | Identical |
ONORM EN ISO 3923-1 : 2010 | Identical |
DIN EN ISO 3923-1:2010-08 | Identical |
EN 23923-1 : 1993 | Identical |
NS ISO 3923-1 : 1979 | Identical |
DIN ISO 3923-1:1980-06 | Identical |
PN EN ISO 3923-1 : 2010 | Identical |
I.S. EN 23923-1:1994 | Identical |
BS EN ISO 3923-1:2010 | Identical |
UNI 4888-1 : 1988 | Similar to |
NEN ISO 3923-1 : 2008 | Identical |
UNE-EN ISO 3923-1:2011 | Identical |
EN ISO 3923-1:2010 | Identical |
DD ISO/TS 12805:2011 | Nanotechnologies. Materials specifications. Guidance on specifying nano-objects |
BS 5600-2.2.1:1989 | Powder metallurgical materials and products. Methods of sampling and testing metallic powders. Determination of apparent density Funnel method |
STANAG 4300 : 0 | TEST PROCEDURES FOR ASSESSING THE QUALITY OF ALUMINIUM POWDER, FOR USE IN EXPLOSIVE FORMULATION, FOR DELIVERIES FROM ONE NATO NATION TO ANOTHER |
I.S. EN ISO 14232-1:2017 | THERMAL SPRAYING - POWDERS - PART 1: CHARACTERIZATION AND TECHNICAL SUPPLY CONDITIONS (ISO 14232-1:2017) |
ISO 9161:2004 | Uranium dioxide powder Determination of apparent density and tap density |
ISO 3252:1999 | Powder metallurgy Vocabulary |
EN ISO 14232-1:2017 | Thermal spraying - Powders - Part 1: Characterization and technical supply conditions (ISO 14232-1:2017) |
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 |
02/709344 DC : DRAFT JULY 2002 | ISO/DIS 9161 - URANIUM DIOXIDE POWDER - DETERMINATION OF APPARENT DENSITY AND TAP DENSITY |
DIN EN ISO 3252:2001-02 | POWDER METALLURGY - VOCABULARY |
I.S. EN ISO 14604:2016 | FINE CERAMICS (ADVANCED CERAMICS, ADVANCED TECHNICAL CERAMICS) - METHODS OF TEST FOR CERAMIC COATINGS - DETERMINATION OF FRACTURE STRAIN (ISO 14604:2012) |
BS EN 15814 : 2011 | POLYMER MODIFIED BITUMINOUS THICK COATINGS FOR WATERPROOFING - DEFINITIONS AND REQUIREMENTS |
I.S. EN 15814:2011 | POLYMER MODIFIED BITUMINOUS THICK COATINGS FOR WATERPROOFING - DEFINITIONS AND REQUIREMENTS |
ASTM F 3049 : 2014 | Standard Guide for Characterizing Properties of Metal Powders Used for Additive Manufacturing Processes |
ISO 23145-2:2012 | Fine ceramics (advanced ceramics, advanced technical ceramics) — Determination of bulk density of ceramic powders — Part 2: Untapped density |
VDI 3405 Blatt 2.3:2017-07 (Draft) | Additive manufacturing processes, rapid manufacturing - Beam melting of metallic parts - Characterisation of powder raw material |
VDI 3405 Blatt 2:2013-08 | Additive manufacturing processes, rapid manufacturing - Beam melting of metallic parts - Qualification, quality assurance and post processing |
BS ISO 18549-1:2009 | Metallic powders. Determination of apparent density and flow rate at elevated temperatures Determination of apparent density at elevated temperatures |
BS ISO 23145-2 : 2012 | FINE CERAMICS (ADVANCED CERAMICS, ADVANCED TECHNICAL CERAMICS) - DETERMINATION OF BULK DENSITY OF CERAMIC POWDERS - PART 2: UNTAPPED DENSITY |
BS 5600-2.2.3:1984 | Powder metallurgical materials and products. Methods of sampling and testing metallic powders. Determination of apparent density Oscillating funnel method |
PD 6699-1:2007 | Nanotechnologies Good practice guide for specifying manufactured nanomaterials |
DIN EN ISO 14232-1 E : 2017 | THERMAL SPRAYING - POWDERS - PART 1: CHARACTERIZATION AND TECHNICAL SUPPLY CONDITIONS (ISO 14232-1:2017) |
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) |
EN 23923-2:1993 | Metallic powders - Determination of apparent density - Part 2: Scott volumeter method (ISO 3923-2:1981) |
BS EN ISO 23145-2:2016 | Fine ceramics (advanced ceramics, advanced technical ceramics). Determination of bulk density of ceramic powders Untapped density |
ISO 3923-3:1980 | Metallic powders — Determination of apparent density — Part 3: Oscillating funnel method |
11/30212303 DC : 0 | BS ISO 23145-2 - FINE CERAMICS (ADVANCED CERAMICS, ADVANCED TECHNICAL CERAMICS) - DETERMINATION OF BULK DENSITY OF CERAMIC POWDERS - PART 2: UNTAPPED DENSITY |
17/30331603 DC : 0 | BS ISO 9161 - URANIUM DIOXIDE POWDER - DETERMINATION OF APPARENT DENSITY AND TAP DENSITY |
UNE-EN 15814:2011 | Polymer modified bituminous thick coatings for waterproofing - Definitions and requirements |
I.S. EN ISO 23145-2:2016 | FINE CERAMICS (ADVANCED CERAMICS, ADVANCED TECHNICAL CERAMICS) - DETERMINATION OF BULK DENSITY OF CERAMIC POWDERS - PART 2: UNTAPPED DENSITY (ISO 23145-2:2012) |
ISO 18549-1:2009 | Metallic powders Determination of apparent density and flow rate at elevated temperatures Part 1: Determination of apparent density at elevated temperatures |
ISO 14232-1:2017 | Thermal spraying — Powders — Part 1: Characterization and technical supply conditions |
EN ISO 23145-2:2016 | Fine ceramics (advanced ceramics, advanced technical ceramics) - Determination of bulk density of ceramic powders - Part 2: Untapped density (ISO 23145-2:2012) |
EN 15814:2011+A2:2014 | Polymer modified bituminous thick coatings for waterproofing - Definitions and requirements |
EN ISO 3252:2000 | Powder metallurgy - Vocabulary (ISO 3252:1999) |
09/30211340 DC : 0 | BS ISO 3923-2 - METALLIC POWDERS - DETERMINATION OF APPARENT DENSITY - PART 2: SCOTT VOLUMETER METHOD |
DIN EN 15814:2015-03 | POLYMER MODIFIED BITUMINOUS THICK COATINGS FOR WATERPROOFING - DEFINITIONS AND REQUIREMENTS |
UNE-EN ISO 14232-1:2017 | Thermal spraying - Powders - Part 1: Characterization and technical supply conditions (ISO 14232-1:2017) |
BS 5600-2.2.2:1984 | Powder metallurgical materials and products. Methods of sampling and testing metallic powders. Determination of apparent density Scott volumeter method |
I.S. EN ISO 3252:2000 | POWDER METALLURGY - VOCABULARY |
ISO 3923-2:1981 | Metallic powders — Determination of apparent density — Part 2: Scott volumeter method |
ISO 3923-2:1981 | Metallic powders — Determination of apparent density — Part 2: Scott volumeter method |
ISO 4490:2014 | Metallic powders Determination of flow rate by means of a calibrated funnel (Hall flowmeter) |
ISO 13517:2013 | Metallic powders Determination of flowrate by means of a calibrated funnel (Gustavsson flowmeter) |
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.