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Re: [femm] Re: Temperature dependence of PM materials
Yes, Thermoflux is a NiFe alloy with app. 30% Ni. The Curie temperature can
be varied between 30 and 120 °C by variation of the mixture. See also the
site of VAC www.vacuumschmelze.com for more information, also on other
magnetic materials.
Hans
"David Meeker" <dcm3c@xxxxxxxxxxxxx> on 03-10-2002 22:00:51
Please respond to femm@xxxxxxxxxxxxxxx
To: femm@xxxxxxxxxxxxxxx
cc: (bcc: Hans KRIEG/NLRID01/Transport/ALSTOM)
Subject: [femm] Re: Temperature dependence of PM materials
--- In femm@xxxx, "fj_emtc" <fije29@xxxx> wrote:
> --- In femm@xxxx, David Meeker <dmeeker@xxxx> wrote:
> > I'm looking at sort of an odd application in which it would be
> desirable
> > to have a PM material with a very strong temperature dependence.
>
> Thermoflux (VaC) is a soft magnetic material with very high
> temperature dependency in the requiered range. Perhaps this could be
> used as a sort of back-iron together with 'standard' permanent
> material?? Hard to say without knowing more of the application, but
> another way of looking at the problem.
>
>
> Finn Jensen\
Thanks a lot for the pointer--I wasn't aware of this material. This
could be just the ticket--it's sort of a fuse-like application where
we want a change in temperature to produce a mechanical change (e.g. a
change in force on a linchpin or something) w/out having to provide
outside power, sensing, etc.
The best that I could come up with otherwise was just what Marc was
talking about--high-strength magnets. I was thinking that I could run
them in repulsion so that they were operating very low on the
demagnetization curve. With relatively small changes in temperature,
the magnets would demagnetize each other.
Anyhow, thanks again to all. I'll have to see if I can scrounge up
something on "ferrites with curie point near room temperature," as
suggested by Kirk. (btw, is Thermoflux an example of such a material?)
Dave.
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