-
AS-300 Apparent Density Tester (Version ISO 3923-1) uses funnel method for the determination of the apparent density of metallic powders under standardized conditions.It is intended for metallic powd ...
-
ISO4490 Metallic Powders Hall Flowmeter is used to determine the flow rate of metallic powders by means of a calibrated funnel(Hall flowmeter) manufactured according to international standard ISO 4490 ...
-
♦ ASTM B417 Non-Free-Flowing Metal Powders Apparent Density Carney Funnel is manufactured according to international standard ASTM B417 Standard Test Method for Apparent Density of Non-Free-Flowing Me ...
-
HMKFlow 315(Now AS-300A) Metallic Powders Gustavsson Flow Meter is produced by HMKTest according to ISO 13517. It is used to automatically measure the flow rate of the metallic powder and mixes. HMKFl ...
-
ASTMB703 Powders Apparent Density Arnold Meter is manufactured stringently according to international standard ASTM B703 Standard Test Method for Apparent Density of Powders Using Arnold Meter. It is ...
-
AS-300 Hall Flow Meter (Version ASTM B213) determines the flow rate of metal powders.
Hall flowmeter is suitable only for those powders that will flow unaided through the specified apparatus.
AS-300A ...
-
ASTM B527 Metallic Powders and Compounds Tap Density Apparatus
LABULK 0335 Intelligent Tap Density Tester P/N 33598
are manufactured according to international standard ASTM B527 Standard Test Method ...
-
AS-300A Automatic Hall Flowmeter P/N 33698H
AS-300A Automatic Gustavsson Flowmeter 33698G
AS-300A Automatic Carney Flowmeter by HMKTest
astmb212-free-flowing-metal-powders-apparent-density-hall ...
-
AS-300A Automatic Gustavsson Flowmeter measures Gustavsson Flow Rate automatically.
iso-13517-hmkflow-315-gustavsson-flowmeter-1
AS-300A Automatic Hall Flowmeter P/N 33698H
labulk-0315-metallic-powd ...
-
ASTM B964 Metal Powders Carney Funnel Flowrate Meter is designed for metal powders and powder mixtures that do not readily flow through the Hall funnel of Test Method ASTM B213. A carney funnel has an ...
-
ISO 10070 Metallic powders – Determination of envelope-specific surface area from measurements of the permeability to air of a powder bed under steady-state flow conditions
HMK-22 Fisher Sub Sie ...
-
ASTM B330 Standard Test Method for Fisher Number of Metal Powders and Related Compounds
The Fisher sub-sieve sizer consists of an air pump, an air-pressure regulating device, a precision-bore sample t ...
-
AS-300 Hall Flowmeter Funnel Apparent Density Tester (Version ASTM B212) determines the apparent density of free-flowing metal powders, and mixed powders; and is suitable for only those powders that w ...
-
AS-300 Carney Funnel Apparent Density Tester (Version ASTM B417) determines the apparent density of non-free-flowing metal powders. It is designed for metal powders that do not freely flow through th ...
-
iso3923-1-metallic-powders-apparent-density-apparatus-funnel-method
ISO3923-1 Metallic Powders Funnel Method Apparent Density Apparatus is manufactured according to international standard ISO 3923-1 ...
-
AS-300 series Hall Flow Meter (Version ISO 4490) determines the flow rate of metallic powders, including powders for hard alloys, by means of a calibrated funnel (Hall flowmeter). The method is applic ...
-
as-300m-manual-astm-b213-metal-powders-flow-rate-apparatus
AS-300M ASTMB213 Metal Powders Flow Rate Apparatus is a flow rate measuring apparatus specially designed according to international standard ...
-
ASTM B855 Metal Powders Volumetric Flow Rate Meter is designed and manufactured for volumetric (20cm³) flowrate measurement. This measurement uses an Arnold Density Meter and a Hall flowmeter, the f ...
-
ISO3923-3 Metallic Powders Apparent Density Oscillating Funnel Method Apparatus is manufactured according to international standard ISO 3923-3 Metallic powders — Determination of apparent densit ...
-
ASTMB329 Scott Volumeter is manufactured according to international standard ASTM B329 Standard Test Method for Apparent Density of Metal Powders and Compounds Using the Scott Volumeter.
View More at ...