David
Is that Fick's Law or Flick's? My book on Heat & Mass Transfer has the
former referenced and not the later.
Scott M. Severson
Benchmark Electronics Inc. - Winona Division
-----Original Message-----
From: David D Hillman
[mailto:[log in to unmask]]
Sent: Tuesday, February 16, 1999 8:44 PM
To: [log in to unmask]
Subject: Re: [TN] Intermetallics
Hi TechNet Land - for those folks who have become bored
with the
intermetallic discussion you will want to hit the delete
key now but I have
gotten caught up on my TechNet correspondence and
couldn't resist adding
some information to this intermetallic topic stream!
There are two
references which are good but very theory oriented due
to the nature of the
question "how do intermetallics form/grow"?
The Mechanics of Solder Alloy Wetting & Spreading, ISBN
0-442-01752-9,
Chapter 4 Reactive Wetting and Intermetallic Formation
Solder Mechanics: A State of the Art Assessment, ISBN
0-87339-166-7,
Chapter 2, page 85-99 Mechanisms for Intermetallic
growth
Both are informative. The simplistic view is that
intermetallic growth is a
kinetic/thermodynamic controlled phenomena (which Steph
pointed out) and
follows the general equation: thickness = (Mobility x
time)(superscript:
1/2) ! And depending on whether the growth interfaces
are solid/solid or
liquid/solid the equations get really fun really fast
(look at the
references and you will see what I mean). If you have a
good feel for
Flick's first and second laws plus understand the
assumptions that go with
those calculations then intermetallic growth is a
breeze! Most folks just
use the thickness = (Mobility x time)(superscript: 1/2)
general equation
as a first order approximation, check out the equation
result with reality,
find out if things are close and go happily on their
merry way! Hope this
helps and doesn't scare anyone too bad.
Dave Hillman
Rockwell Collins
[log in to unmask]
"Meschter, Stephan J" <[log in to unmask]> on
02/12/99 08:18:34 AM
Please respond to "TechNet E-Mail Forum."
<[log in to unmask]>; Please respond
to "Meschter, Stephan J"
<[log in to unmask]>
To: [log in to unmask]
cc:
Subject: Re: [TN] Intermetallics
Gunter,
I am a little late in catching up with my technet
correspondence. I am
studying the spreading of Sn on Cu and Au over at SUNY
Binghamton
University. Sometimes it seems the more I study the less
I know but let me
throw in my 2 cents. I agree with your statements. I
think that the
thickness of CuSn intermetallic will be greater with a
limited volume of
solder. As you have mentioned, the IMC formation rate is
limited by the
diffusion of Cu through the IMC and the removal of Cu
from the surface of
the IMC into the Sn (dissolution). As the IMC gets
thicker, the Cu atom
transport (atoms/sec) will be less. At the IMC/Sn
interface, the transport
of Cu atoms from the IMC into the liquid will be
governed by the Liquid
flow
velocity if things are moving (faster velocity, faster
dissolution). If the
liquid Sn is not moving, then the Cu concentration
gradient in the liquid
Sn
will control the IMC dissolution.
If there is a limited amount of Sn and you spend a long
enough time at
elevated temperature, you can have an isothermal
solidification condition.
This happens when enough Cu atoms make it through the
IMC to convert all of
the Sn into an IMC. This behavior is fairly common in
the brazing
literature. It may take a while because the slow solid
state diffusion of
the Cu atoms through the IMC is controlling the rate
that new IMC can be
formed. (Of course there is the wild card of Grain
boundary diffusion where
faster transport occurs).
Also there will be less liquid Sn flow if you have low
volume small solder
joints and a geometry like a BGA that does not encourage
much flow. Again
resulting in a greater IMC thickness. If you have enough
IMC formation at
the Liquid/Solid contact line your solder flow can stop.
Steph
Stephan Meschter
[log in to unmask]
Lockheed Martin Control Systems Phone :(607)770-2332
600 Main Street, MD R52F FAX :(607)770-2056
Johnson City, NY 13790-1888 MARCALL: 8 * 255-2332
> ----------
> From: Guenter
Grossmann[SMTP:[log in to unmask]]
> Reply To: TechNet E-Mail Forum.;Guenter Grossmann
> Sent: Monday, February 08, 1999 5:15 AM
> To: [log in to unmask]
> Subject: [TN] Intermetallics
>
> Hi all
>
> I have a question concerning the growth of
Intermetallics:
>
> Collin Lea states in his book, that the thickness on a
copper specimen
> immersed into a large solder volume reaches an
equilibrium which is 0.5um
> at 240deg to 0.9um at 345 deg. The dissolution rate of
the intermetallic
> layers is equal to the growth of the intermetallics
after this
equilibrium
> is reached. However, this is in a large solder volume.
Is the thickness
of
> the intermetallics in solder joints with a limited
volume also restricted
> to the equilibrium or does the intermetallic layers
grow bigger since the
> solder will see an certain enrichment of copper?
>
> Best regards
>
> Guenter
>
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