Authored by Ronald C Lasky
Decades ago, when I was getting my PhD, I needed to calculate
the density of a mixture of two polymers. I was tempted to use
equation 1 below:
Where x is the mass fraction of polymer (or metal for a metal
alloy), y the mass fraction of polymer 2, rho the respective densities
and rho the total polymer or alloy density
The derivation is in the appendix. Others have derived this
equation before, as it is in some metallurgy texts.
Little did I know at the time that this equation would yield
decades of “confrontation” and technical fun. Right after deriving
this equation, some of my materials science grad student friends
heard about it and asked for the equation. I suggested they derive
it themselves and was a bit surprised that they had trouble doing it
and sheepishly asked for my help in the derivation.
Years later, I began working in materials for electronic assembly,
mostly solder alloys. About 15 years ago, I began blogging on topics
in this materials field. I am still an active bloggeri today.
Shortly after beginning my blogging efforts, I posted on why
equation 1 is incorrect and equation 2 is right. Thus, began over a
decade of queries to my blog about equation 2. An example follows
(with names changed):Dr. Lasky,
My name is John Smith, a PhD metallurgist. I read with interest
your article on calculating densities of alloys. Surely your formula:
can’t be correct. I have been at ACME metals for over 30 years
and have always used:
Please tell me it is not wrong!
Best, John Smith
Unfortunately, for Dr. Smith, he has been wrong for 30 years.
I then developed an Excel® spreadsheetii to perform density
calculations. I have had 100s of requests for the spreadsheet over
the last decade.
As time went on, I was asked to verify the wet gold techniqueiii.
This technique is used to estimate gold content in jewelry scrap
and gold ores. One thing that scares me is that it can only be used
in a binary system (i.e. gold and one other metal or constituent.) I
believe many users don’t know this fact.
I continue to be asked to verify gold content formulas as a
function of density and have incorporated much of this work into
my classes at Dartmouth. I expect to have similar adventures in the
future.
Appendix: Derivation of the Equation
Dividing equation 1 by mt ,
None.
No conflict of interest.
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