I agree with Dave on this one.
Karen Tellefsen - Electrical Testing
Alpha / 109 Corporate Blvd./ S. Plainfield, NJ 07080
[log in to unmask]
908-791-3069
From: "Stadem, Richard D." <[log in to unmask]>
To: <[log in to unmask]>,
Date: 09/08/2014 08:31 AM
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
Sent by: TechNet <[log in to unmask]>
Dave, I never knew that about RMA fluxes. This is valuable information,
and I thank you for it.
dean
From: David Hillman [mailto:[log in to unmask]]
Sent: Friday, September 05, 2014 4:03 PM
To: TechNet E-Mail Forum; Stadem, Richard D.
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
Hi Richard - I can provide some additional information. The value of rosin
based fluxes is that when using the proper soldering temperatures and
dwell times, the resulting flux residues are not mobile, ionic species
that can participate in corrosion reactions (note that there is always an
exception to the rule). The rosin portion of rosin based fluxes can "bind
up" any mobile, ionic species if they are not completely consumed in the
soldering reaction. That is why rosin based fluxes are very robust in
soldering processes. As George and others detailed, "no clean' is a
horrible material descriptor as it is a process categorization rather than
a material categorization. The better term is "low residue" and as others
detailed, not all low residue materials are created equal. Many low
residue fluxes are rosin based materials so they have applicability for
wiring tinning but an engineer has to do their homework to make sure there
is process compatiblilty. And yes, when folks attempt to use water soluble
fluxes in the same manner as rosin fluxes, bad things happen. The wire
tinning process you learned has its credibility in the rosin chemistry
(the IPA relavence isn't as critical or necessary as Brian can/has
detailed) and is supported by the products you detailed.
I believe Doug and Bill Kenyon put together a "letter" on this topic and
I'll see if Doug can find that for posting thru Steve.
Dave Hillman
Rockwell Collins
[log in to unmask]<mailto:[log in to unmask]
>
On Fri, Sep 5, 2014 at 3:00 PM, Stadem, Richard D.
<[log in to unmask]<mailto:[log in to unmask]>> wrote:
I started out in life as a small child with a very large pair of safety
glasses and a leather apron, tinning wires in my father's business.
I later re-learned how to do this from two much older engineers, who had
retired from RCA and Honeywell, and they had been using this method since
they were little boys in their father's shop.
I have also taught this method to my three sons, as there still seems to
be no end of wire tinning requirements even today.
1. When stripping the wires, leave the tag end of the insulation hanging
on the end of the wire. This helps prevent the strands from fraying during
handling.
2. When ready, pull off the tag end of the insulation. Dip the stripped
end of the wire first in IPA up to the end of the insulation.
2. Then dip the wire in the RMA flux up to about halfway to the
insulation. Use only RMA flux whenever tinning wires, never OA or water
soluble flux, and never no-clean flux.
3. Then dip the fluxed end into the solder right up to within .010" from
the insulation and hold for 1 or 2 seconds. This allows the solder to wick
just under the insulation.
4. Pull the wire out of the solder and "swirl" in clean IPA, and then lay
the wires down flat on a piece of absorbent paper towel.
5. If an ultrasonic cleaner can be used, ie, the wires are not soldered to
any CCA or any electronic components, then instead of laying them on the
paper towel, drop them into the US cleaner with a solution of 90% DI water
and 10% IPA. Do not exceed the 10% IPA percentage or you will have a new
company swimming pool, but also you will be minus a few operators and you
will gain many new friends at OSHA and Davidovich, Davidovich, and
Rabinovitch, Atty's at Law.
6. Once all of the wires have been cleaned for a minimum of 10 minutes in
the US bath, take them out and dry them on a clean paper towel.
This is a time-tested method, dating back to the late 1950s.
My understanding (and it may be flawed) is that RMA is used because even
if small amounts are not dissolved in the IPA, whatever residues that do
remain are relatively harmless, because they are weakened by the IPA
already in the wire strands, and after tinning, most if not all is removed
during the "swirling" in IPA. When the wires are laid down on the paper
towel, the IPA and the flux solids are drawn out, and any remaining
residues left behind are relatively harmless.
I do know that this method of tinning wires was used in the old Apollo
program.
It was also used on the Neartip Mark 5 Torpedo Guidance and Control
systems.
It was also used on the older Mark 2 Torpedoes.
It was also used on the Advanced Lightweight Torpedo.
It was used on the Apache, C5B, Augusta, F-15, F-16, FA-18 avionics
systems, including the flight control computers, the ring laser gyros, the
altimeters, the wind speed indicators, the flapper controls, the CMRA and
HMRA Cruise Missiles, The CH46/CH47 avionics sets, the Space Shuttle
wiring, and about 400-500 commercial jet plane wiring sets.
I have yet to hear of any wires broken off from corrosion under the
insulation.
I have heard of many wires corroding away because either water soluble
flux or no-clean fluxes were used. Water soluble fluxes do not wash out or
dilute when dipped in alcohol or water (at least not very well). Ditto
with no-clean fluxes.
My only concern is that there are RMA fluxes, and there are RMA fluxes,
and some may be more aggressive than others.
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Nutting, Phil
Sent: Friday, September 05, 2014 11:56 AM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
Dusting off an old thread here (yes Brian, I listened to your request for
not changing threads). I've been thinking about the "best" method of wire
tinning for some time now and this thread makes me think the we should
dump our no-clean cored wire solder in favor of something that is more
innocuous.
I have an old roll of Kester 63/37 "44" core saved from years ago before
the switch to lead-free. Is this acceptable for long term soldered wire
reliability. If not, what are the recommendations? I guess knowing RA or
RMA along with manufacturer and "model" would be useful. Hopefully it is
available in 63/37 and lead-free alloys.
Thanks in advance for sharing your knowledge and experience,
Phil Nutting
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Carl VanWormer
Sent: Tuesday, June 10, 2014 11:55 AM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
There sure are a lot of scare stories about flux and reliability. I'm now
wondering if a solution based on crimping some sort of ferrule or machined
pin onto the ends of the wires and then soldering those metal parts into
the PCB holes might be a more reliable approach. Have any of "you guys"
seen that type of solution to this problem?
Thanks,
Carl
Carl B. Van Wormer, P.E., AE7GD
Senior Hardware Engineer
Cipher Engineering LLC
21195 NW Evergreen Pkwy Ste 209
Hillsboro, OR 97124-7167
503-617-7447x303<tel:503-617-7447x303>
[log in to unmask]<mailto:[log in to unmask]>
http://cipherengineering.com
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Karen Tellefsen
Sent: Tuesday, June 10, 2014 6:00 AM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
I would use Kester 186-18 instead for tinning. Alpha 615-15 is another
good choice.
Karen Tellefsen - Electrical Testing
Alpha / 109 Corporate Blvd./ S. Plainfield, NJ 07080 [log in to unmask]<
mailto:[log in to unmask]>
908-791-3069<tel:908-791-3069>
From: Steve Gregory <[log in to unmask]<mailto:[log in to unmask]>>
To: <[log in to unmask]<mailto:[log in to unmask]>>,
Date: 06/09/2014 05:43 PM
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
Sent by: TechNet <[log in to unmask]<mailto:[log in to unmask]>>
Hi Richard,
Good information! But can I ask a question about a particular no-clean
flux? It's about Kester 951. In their datasheet they say that it contains
a "corrosion inhibitor" such that no corrosion products are formed when
bare copper surfaces are exposed to humid environments. Do you have any
idea what that might be?
We use it as a touch-up flux for our no-clean soldering and do use it to
tin wires. I know that some of that flux gets somewhere where it doesn't
get cleaned, and probably didn't get exposed to a lot of heat when you're
doing point-to-point touch-up and soldering with a single iron.
We haven't had an issue with this flux, at least any that I know of. But
it doesn't mean that there isn't one. The operators sometimes complain
when they use it because it evaporates so fast though.
Just curious what the "corrosion inhibiter" might be. The SDS says the
flux contains ethanol (50-65%), isopropanol (20-25%), n-butyl acetate
(5-10%), methanol (2.5-5%), and adipic acid (1-2.5%). Everything listed is
pretty much a solvent except for the adipic acid.
Steve
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Stadem, Richard D.
Sent: Monday, June 9, 2014 2:23 PM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
I agree with George, and also with many others who feel that cleaning with
IPA is not a very good approach.
I should have mentioned also that through the years that I have seen wires
tinned with RMA flux, then soaked in IPA, then that was followed by a DI
wash.
The old-time engineers back in the 60s and 70s showed me by using 3 stages
of wires cut open to show what the strands looked like under the
insulation. Different oldtimers showed me this trick more than once, and I
have never forgotten it.
First, the operators were trained to insert the wires into the RMA flux
only halfway up the stripped portion (generally 1/8th inch to 1/4"
striplength).
Next, the operator was trained to insert the wire only up to just below
the end of the insulation. Some of the RMA flux would always ride up to
the insulation, and the solder would actually flow just under the
insulation, seldom more than .050" past the end of the insulation. In
other words, if you stop the stranded wire just short of the insulation,
the solder continues to wick up to a point just under the end of the
insulation.
Then, when the wires were not cleaned with IPA at all, the cutaway view
would always show a small amount of flux just under the end of the
insulation.
When cleaned in the IPA only, but not followed with a water wash, when you
cut the insulation away you "sometimes" saw a very small amount of flux.
But when you did all three, any flux residue under the insulation (if
present) could not be seen. It does not mean it wasn't there; it just was
not visible even at 20X.
And in all cases, the oldtimers were never concerned with RMA flux
residues being left behind under the insulation; they felt it was not a
concern even to leave the RMA flux behind, with no cleaning.
But NOT water soluble (OA) and NOT no-clean fluxes. The no-clean
activators are sometimes even more aggressive than RMA. That is still
true. So I stand by the statement that when tinning wires, only RMA flux
should be used, some type of solvent should be used to at least suspend
the RMA solids, and some type of final rinse or wash process should be
used. If all of those are done, I do not think there is ever a concern for
the wires rotting away under the insulation.
And one more item: If you are just cleaning tinned wires (no connector
bodies, sleeving, circuit boards or components,etc.) I have found that
following the solvent clean with an ultrasonic cleaning process where the
entire wire or wire assembly is immersed in hot DI water with a 6%
saponifier will get all of the flux out from under the end of the
insulation.
I am talking about the end of the insulation, not 1/2" up the insulation
or anything like that.
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Wenger, George M.
[Contractor]
Sent: Monday, June 09, 2014 1:21 PM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
As someone who sent 33 years working in the "Bell System" were solder
assembly quality/reliability was the primary concern, I'll throw my two
cents into this discussion. I've never like the name "No-Clean". Any
flux used for soldering that doesn't go through a cleaning process would
be a "No-Clean" if the meaning is it wasn't cleaned off. The old BellCore
(now Telcordia) GR-78 gives criteria for determining if a soldering flux
residue needs to be cleaned off for reliability reasons.
If you make a solder joint with a flux and don't clean it off and it
passes the BellCore reliability testing then we would consider that flux a
reliable "Leave-Behind" flux meaning if the flux residue wasn't cleaned
off there were no reliability risks. In general most of the old fluxes
classified as R & RMA passed the "leave-Behind" requirement. In fact, our
experience was that especially for RMA fluxes the reliability was much
better if you did leave them behind rather than tried to clean them. If
you take an RMA flux and try cleaning it with alcohol (which isn't a very
good solvent) what you wind up doing is dissolving and removing most of
the rosin in the flux residue, which is what was encapsulating the ionic
activators, which in turn allowed any ionic activators to be mobile and
the first time the humidity increased you had the worse case for corrosion
(moisture, activators, and electrical potential).
I can see that with a low-solids type "No-Clean" flux that the flux would
wick up the braided wires and yes when a soldering iron was placed on
where you wanted to make the solder joint the flux activators would be
heated and reduce oxides and allow a good solder joint to form but the
flux that wicked up the wires may not have gotten to a high enough
temperature to de-activate the activators and then the humidity goes up in
use you could have a problem. If I were pre-tinning braided wires I would
only us an RMA flux qualified according to BellCore GR-78 to be a
"Leave-Behind".
Regards,
George
George M. Wenger
Failure Signature & Characterization Lab LLC
609 Cokesbury Road, High Bridge, NJ 08829
(908) 638-8771<tel:%28908%29%20638-8771> Home (732)
309-8964<tel:%28732%29%20309-8964> Mobile E-mail [log in to unmask]<
mailto:[log in to unmask]> [log in to unmask]<
mailto:[log in to unmask]>
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Carl VanWormer
Sent: Monday, June 09, 2014 12:59 PM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
I've heard stories of no-clean and hand soldering causing problems. In an
IR-reflow oven, all of the no-clean flux achieves the passivation
temperature, becoming inert. With hand soldering, the flux melts, runs
away from the heat source, and penetrates any tiny crevice it can find.
There is an area at the perimeter of the heated area that is hot enough to
cause the flux to flow, but not hot enough to cause it to become active.
If this is true, than this is the problem I'm worried about.
Comments, please?
Thanks,
Carl
Carl B. Van Wormer, P.E., AE7GD
Senior Hardware Engineer
Cipher Engineering LLC
21195 NW Evergreen Pkwy Ste 209
Hillsboro, OR 97124-7167
503-617-7447x303<tel:503-617-7447x303>
[log in to unmask]<mailto:[log in to unmask]>
http://cipherengineering.com
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Steve Gregory
Sent: Monday, June 09, 2014 9:49 AM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
It's been some years back, but we were building a cabinet along with all
the boards and cables. The cables had silver plated braided shielding over
them and we would have to solder the shield wires to either a lug or
contact. We were using manufacture XXX no-clean flux. It had been a rainy
spring that year, and rained about every other day for at least a month,
so you know the humidity was high.
One of the supervisors came to me after that month and said; "Steve, we
got a problem, all the cables in the cabinets are turning green..." so I
went and looked at them. Sure enough the shield wires were turning green,
and it was down close to the end sections of the cables where they had
been soldered:
http://stevezeva.homestead.com/files/Green_Junk_1.jpg
http://stevezeva.homestead.com/files/Green_Junk_2.jpg
http://stevezeva.homestead.com/files/Green_Junk_3.jpg
http://stevezeva.homestead.com/files/Green_Junk_Close.jpg
I had a hard time figuring out how this was happening, because right at
the ends where the soldered connection it was fine. The connections were
soldered and cleaned with alcohol. Best I could figure was that the
operators had flux on their fingers when they handled the cables and got
the flux up on the cable where it wasn't reacted with heat, and wasn't
cleaned, and with the high humidity that we had that month turned the
shield wire green.
We switched the no-clean flux to manufacture XXX and the problem went
away.
Steve
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Nutting, Phil
Sent: Monday, June 9, 2014 8:25 AM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
So for many years I have followed the discussion about flux cleaning and
alcohol always get mentioned as a great way of dissolving the flux and
depositing it on a much wider area. There has to be a better way to
"clean" the wire entrapped flux if it really must be cleaned. I agree
that OA flux is not a good solution. My current choice is to use
"no-clean" flux cored solder when tinning wires and then leave it alone.
Soldering the wire into the board can then be done with "no-clean" or
other flux cored solder. Where we do not make anything that is designed
as mission critical this process seems to work for us.
Phil Nutting
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Stadem, Richard D.
Sent: Monday, June 09, 2014 9:30 AM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: Re: [TN] tinning wires - flux entrapment and long term
reliability
You do not tell us what flux you are using.
But as a general rule, one must never tin insulated wires using OA flux.
Only RMA or no-clean should be used, and that followed by dipping the
tinned ends in alcohol.
-----Original Message-----
From: TechNet [mailto:[log in to unmask]<mailto:[log in to unmask]>] On Behalf
Of Carl VanWormer
Sent: Friday, June 06, 2014 8:20 AM
To: [log in to unmask]<mailto:[log in to unmask]>
Subject: [TN] tinning wires - flux entrapment and long term reliability
My understanding:
While tinning wires with conventional soldering methods, the wire is
heated and the flux-cored solder is applied to the wire. As the flux is
melted, it wicks up between the wires and the solder flows in, wetting the
wires. The liquefied flux flows up the wires farther than the solder, and
some of the un-passivated flux is trapped inside the insulation, around
the Copper strands where the solder stopped flowing.
My experience:
One of our control modules had failed in an automotive "road splash"
environment. Our connector terminals had been soldered to the wires that
came out of the "waterproof" strain-relief assembly.
Troubleshooting let me to cable harness with an open circuit between a
wired connector pin and the other end of the wire. The wire and pin
looked good, but a gentle tug on the pin popped the 5mm length of soldered
wire out of the wire's insulation, revealing a discoloration at the end of
the solder-flow where the Copper wire had been "disappeared".
A few mm inside the wire insulation, there was another discolored blob at
the end of the wire's total length of good Copper wire. Our conclusions
of "not quite waterproof" and "chemistry experiment" led me to be
concerned about the problem.
Current worry:
We have a product with a "requirement" that some 16-gauge stranded Copper
wires be soldered to our PC board. The plan is to have the cable assembly
arrive with pre-tinned wires, and then the wires will be soldered to the
board with "no-clean" flux. The product is not expected to be in the
water, but may be "near" a wet environment, maybe mounted in a pouch on
some motorcycle gear. I'm worried about the tinning process forcing
un-passivated flux up, inside the insulation, to wait for a "humid"
condition to start another "chemistry experiment."
Questions:
1. Assuming we must solder wires to my PC board, is there any
guidance on how to keep "chemistry experiments" from happening on my
product?
2. Are there any other "very small" connection methods for 15 Amp
wires that I should consider that I might be able to fit on my tiny PC
board that would eliminate my worry?
3. Am I just being overly paranoid?
Thanks,
Carl
Carl B. Van Wormer, P.E., AE7GD
Senior Hardware Engineer
Cipher Engineering LLC
21195 NW Evergreen Pkwy Ste 209
Hillsboro, OR 97124-7167
503-617-7447x303
[log in to unmask]<mailto:[log in to unmask]><
mailto:[log in to unmask]<mailto:[log in to unmask]>>
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