Press Release Summary:
Developed by Subcommittee B09.02 on Base Metal Powders, B964, Test Methods for Flow Rate of Metal Powders Using the Carney Funnel, determines flow necessary for precise quantity of powder to be introduced into die. It is useful in measuring flow characteristics of relatively fine tungsten powders, said Frank Venskytis, and will serve as complement to B213, Test Method for Flow Rate of Metal Powders. Standard will benefit those working with refractory metal powders and fine ferrous materials.
Original Press Release:
Flow Rate of Metal Powders Using Carney Funnel Measured by New ASTM Standard
W. CONSHOHOCKEN, Pa., September 3, 2009 - Flow characteristics of fine metal powders are important in filling dies for pressing of powder metallurgy compacts, which are later sintered and sometimes machined into finished parts. The flow rate, as measured by a new ASTM standard, determines the flow necessary for a precise quantity of powder to be introduced into the die.
The new standard, B964, Test Methods for Flow Rate of Metal Powders Using the Carney Funnel, was developed by Subcommittee B09.02 on Base Metal Powders, part of Committee B09 on Metal Powders and Metal Powder Products.
"The B964 test method has already proved useful in measuring the flow characteristics of several relatively fine tungsten powders, with excellent precision," says Frank Venskytis, former standards manager, Global Tungsten & Powders Corp., and a member of Committee B09. He also notes that B964 will serve as a complement to B213, Test Method for Flow Rate of Metal Powders, when B213 cannot be used due to fine powders not flowing through the small-orifice Hall funnel. The Carney funnel has an orifice twice the diameter of the Hall.
B964 will be most useful to those who work with refractory metal powders and fine ferrous materials.
According to Venskytis, in future revisions of B964, the subcommittee plans to develop a reference powder for calibration of the Carney flow apparatus. All interested parties are invited to join in the effort to develop this reference powder, as well as to participate in interlaboratory studies to develop a precision and bias statement for B964.
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For technical information, contact Frank Venskytis, Clayton, N.C. (phone: 919-553-8050; firstname.lastname@example.org). Committee B09 will meet Dec. 8-10 during December committee week in Atlanta, Ga.
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