crimping then soldering
As Patrick suggested, proper soldering “... requires training, time, and careful attention to detail ...” (& proper strain-relief). With my apologies to all - I don’t think most DIY boatowners have the requisite skill to perform a “good” solder joint. I find it difficult (thruth be known ~ Impossible) to make consistently perfect solder joints, under the circumstances found on most boats.David H asks if taping counts as additional strain-relief on soldered joints. NO, tape counts for NOTHING, and has no proper application in boat wiring (except as an “identifier” under a heat shrink).Soldered terminations must be FIRST CRIMPED, then soldered (now that’s going to be moisture-resistant),THEN INDEPENDANTLY SUPPORTED. This additional support can take the form an overall Heat-Shrink sleeve, AND non-metalic cable straps on both sides of a butt joint (within 18").Patrick indicates that you must, “... make sure the solder does not wick into an area of the wire which will flex ...” Solder WILL wick up the conductors, past the actual joint. Highly skilled techs can usually limit this to a fraction of an inch, which will leave the inevitable “hard spot” close to the termination barrel end, and under the (somewhat supporting) heat-shrink. From the Article “Ohm’s Law & Boats” http://cruisersforum.com/showthread.php?s=&threadid=372SOLDERED JOINTS:ABYC does NOT permit soldered-only joints (Section E-9.17.12.8). Where crimped joints are also soldered, adequate support must be provided, so as to minimize flexing. The solder causes a ‘hard spot’ in the wire, which is subject to breaking.While soldering will greatly reduce moisture penetration and joint resistance; it’s is often very difficult to accomplish in the tight quarters encountered in boats. I seldom solder terminations, except for (previously ‘crimped’) Bilge Pump wiring (where water/moisture is a huge problem), and Battery Lugs (where hydrogen gassing causes corrosion). Respectfully,Gord