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Stabilant 22 Contact Enhancer Application Notes

App. Note 32 - Silicone Problems

Why do silicone films cause intermittence in contacts?

While the water-repellent characteristic of silicones make them potentially beneficial for use on connector assemblies exposed to excessive moisture, there are other characteristics which, under certain circumstances, can cause problems. Silicone films can, when the proper conditions exist, combine with metal ions to form restive films such as sodium silicate. As some potentially reactive silicones can be polymerized by metal such as lead or sodium, the potential for the formation of very thin, high resistance films can exist.

Where does this problem exist?

The most obvious location is where silicone dielectric greases are used to waterproof connectors, but it can also exist where silicone mold-releases were employed in the manufacture of either molded-rubber or molded-plastic parts used in the connector assembly. While the service departments of some companies are aware of the potential problem, some well-meaning customers may cause the problem by employing cleaning-sprays that contain silicones. Several of these were very popular as TV-tune cleaners and are still available from electronic parts houses.

There are also a number of pieces of equipment which use silicone oils as part of their design. The most notable of these are encountered in the copier industry where silicone-bearing oils are often used in the ink-fusion section of the equipment in order to ensure that the fusion rollers will not stick to the melted ink particles. As the surface energy of the melted ink is often quite low, there is a need for a very low surface-energy on the heated roller in contact with the paper. Under these circumstances it is not unusual to encounter contact problems in the vicinity of the ink fusion section. In addition, the cooling airflow may carry the volatile silicone to other connectors downstream of the fusion unit. There is even a potential problem for connectors near the paper path that follows the fuser. Although the amount of oil that is actually carried by the paper itself is probably negligible, there is usually some small amount of airflow caused by the motion of the paper and it may well b this that carries the silicones to the paper-exit areas of the equipment.

Because the deposition of silicones on the contacts in copiers takes place over a long period of time, there is a greater potential for those films to react to other atmospheric contaminants than would occur in the case of contacts where a silicone oil was used as a moisture barrier.

This phenomenon can be divided into two classes, those where the material acting to catalyze the silicone is found in the contact itself, and those where the catalytic material is external to the contact. In the former case, the metal connector pins, especially when plantings such as solder-alloys, will be the source of the catalyst; while in the latter, atmospheric metal ions such as the salt-laden air found in coastal areas can initiate the problem.

Can these problems be prevented?

Yes, most cases can be prevented. The ideal solution is the elimination of the silicones from the connector and/or the equipment. For obvious reasons the latter may not be possible. In some cases it may be feasible to enclose a wiring-harness-mounted connector-pair in a long-sleeve of plastic tubing in order to minimize the exposure of the connector to the silicone-bearing airflow. While this might not prevent the problem from occurring in the long-term it might delay the time when a critical film thickness was reached. It may also be possible to re- position the connector, or even to alter the airflow so that the connector lies in a stream of clean air.

The ideal situation is where the problem can be anticipated in the equipment design stage.

What can Stabilants do to stop these problems?

If the Stabilant can be applied during manufacture of the equipment, the material will act as a barrier to deposition of the silicone.

Where the condition already exists, liberal application of the isopropyl alcohol diluted Stabilant 22A can usually purge the collector of most of the silicones, albeit at the cost of wasting Stabilant. A liberal washing of the convector, first with kerosene and isopropanol, ad then with isopropanol alone, using several alternations of the (fresh) solvent pair, should help.

But if the silicone has already reacted to form, say, a film of sodium silicate, it may be necessary to use abrasion to remove the film. Where doubt as to the actual state of the silicone contamination exists, it is probably worth while to replace the connector and have the surface of the contact analyzed in a laboratory equipped for micro-analysis. In such cases, the laboratory may well be able to advise the service department as to the most efficient and/or most environmentally acceptable solvent to use in the removal of the contaminant film.

In any event, the Stabilants could prevent the problem from recurring.

Revision 4


Stabilants are a product of Dayton Wright research & development and are made in Canada

NSCM/Cage Code - NATO Supply Code 38948

15 mL of S22A has NATO Part # 5999-21-900-6937


The Stabilants are patented in Canada - 1987; US Patent number 4696832. World-wide patents pending. Because the patents cover contacts treated with the material, a Point-of-sale License is granted with each sale of the material.

MATERIAL SAFETY DATA SHEETS ARE AVAILABLE ON REQUEST


Stabilant, Stabilant 22, and product type variations thereof are Trade Marks of D.W. Electrochemicals Ltd.

Copyright 2003 - D.W. Electrochemicals Ltd. This note may be reproduced or copied, provided its content is not altered. The term "contact enhancer", 1983 Wright Electroacoustics.


NOTICE: This Application Note is based on customer-supplied information, and D.W. Electrochemicals is publishing it for information purposes only. In the event of a conflict between the instructions supplied by the manufacturer of the equipment on which the Stabilant material was used, and the service procedure employed by our customer, we recommend that the manufacturer be contacted to make sure that warranties will not be voided by the procedures.

While to our knowledge the information is accurate, prospective users of the material should determine the suitability of the Stabilant materials for their application by running their own tests. Neither D.W. Electrochemicals Ltd., their distributors, or their dealers assume any responsibility or liability for damages to equipment and/or any consequent damages, howsoever caused, based on the use of this information.

Stabilant, Stabilant 22, and product type variations thereof are Trade Marks of D.W Electrochemicals Ltd.

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Stabilant 22 Contact Enhancer

Stabilant 22 Contact Enhancer

We carry the complete line of Stabilant products. Looking for something not listed here? Please contact us.
Stabilant 22
APPLICATION NOTES
1. Electronic Equipment
2. Computer cards
3. Schadow switches
4. Mic connectors
5. RTS & Dual plug patch bays
6. Biomedical Electronics
7. Computing & Peripherals
8. Cable TV
9. Robotics
10. Environmental Impact
11. Recording studios
12. Broadcast equipment
13. Mobile Radio
14. Educational computing
15. Stereo systems
16. Aid to IC insertion
17. Navigational equipment
18. Card edge conn. problems
19. Complex process control
20. Automotive service
21. Gold plating/solder alloy
22. Very high humidity
23. High current thermal runaway
24. Car stereo systems
25. Plastic element pots.
26. Farm machinery & trucks
27. Model & hobby
28. RF case seals
29. Outdoor environments
30. Computer crashes
31. Relays & switches
32. Silicone problems
33. Tin-plated contacts
34. Solder flux & resin residue
35. Post application color tinting
36. Aircraft connectors w/ flurosilicones
37. Avoiding unsafe solvents
38. S22 R&D Design Goals
39. Stabilant use on PLCC's
40. Sensor problem solution
41. Repair of flood damage
42. Marine electrical & electronics
43. All Cameras & Video Equipment
44. SCSI removable SCA drives, caddies & connections
45. Home Theater & Computer Connectors

Some of these application notes are repetitive of material in other application notes. We realize this. But some were written as a reference to a contact problem in a particular field or application.

NOTICE: This data has been supplied for information purposes only. While to our knowledge it is accurate, users should determine the suitability of the material for their application by running their own tests. Neither R.A.L. Audio Services, D.W. Electrochemicals Ltd., their distributors, or their dealers assume any responsibility or liability for damages to equipment and/or consequent damages, howsoever caused, based on the use of this information.
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Stabilant 22
REVIEWS
Over the years, Stabilant 22 has been highly parsed in publications that target a wide range of electronics applications including:
* Andrew Marshall's Audio Ideas Guide
* BYTE Magazine (7 articles)
* Windows Magazine
* Q.S.T. Amateur Radio
* Model Railroads (2 articles)
* Motor Magazine
Stabilant 22
TECHNICAL NOTES
1. MSDS - Stabilant 22
2. General Information
4. MSDS - Stabilant 22A
5. MSDS - Stabilant 22E
9. MSDS - Stabilant 22L
20. Military Applications
21. Elastomer Compatibility
22. Effectiveness of Stabilants
24. Connector Harmonic Distortion
39. Signal rise time

There are gaps in the sequence numbers below because some Technical Note s were written by the manufacturer for specific companies and are confidential.

NOTICE: This data has been supplied for information purposes only. While to our knowledge it is accurate, users should determine the suitability of the material for their application by running their own tests. Neither R.A.L. Audio Services, D.W. Electrochemicals Ltd., their distributors, or their dealers assume any responsibility or liability for damages to equipment and/or consequent damages, howsoever caused, based on the use of this information.
Stabilant
Stabilant 22 Contact Enhancer

Stabilant 22 Contact Enhancer

We carry the complete line of Stabilant products. Looking for something not listed here? Please contact us.

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