Hi chroot,
Got your email this morning and although a Sunday, after church I had to get on ES and find out what happened!
I am so sorry to hear this happened and I praise God nobody was hurt and that you and your family are safe!
Looking at the pictures of the 'before' battery I remember building that battery, I thought it odd that the order was to have it built with the PCM connected but not affixed to the battery, so it kinda stuck in my head. The zip ties were used for shipping purposes which is the reason they were tied together, no black electrical tape was used in the original build, was shipped with 2 mil clear heat shrink around entire pack to eliminate possible short circuiting during transit as a prototype Li-ion battery.
I have read through most (minus the chatter about A123/DeWalt) of the posts and will try and answer some of the speculative questions as best I can, or at least give my 2 cents worth!
Great job on documenting with pictures, do you happen to have any of the battery and it's connections pre-fire? This may also help out in trying to determine what possibly could have occurred.
FUSES: The fuses that we use when we fuse our batteries are MaxiFuse. It is simply put into the circuit to protect the controller or whatever else the battery was being attached since it is DC. Just a little bit of added protection since most (not all) other small sized (60V and lower) battery packs that are built (from companies not DIY'ers) do not install any type of fuse at all.
SPACER BLOCKS/BUSS BARS: The 2 hole spacer blocks were the newer ones that Headway offers. Most recognizable feature is the triangle shaped stand-offs, the older ones were round for the #40 spacer blocks. (By #40 I am referring to the cell diameter ie.
40160SE,
40152SE,
40120SE, etc.). Also the newer (last 18months or so) standard Headway buss bars have one side that is the proper diameter for attachment while the other side is slightly oval in shape to allow for proper connections (sliding into place) without the need to force the connection in place due to 'absolute measurement placement' of holes.
WIRING: The wiring that we use is
http://www.jscwire.com/ except for the balance wire harness, that was what came with the SignaLab PCM. So not sure what
circuit considers as cheap wire for 'all of the other wiring', but JSC Wire and Cable have always been good for me for anything 4AWG and under! :wink:
I am not sure how this could have happened to be honest with you. Everyone has given some valid input, although some is stretched a bit farther than what my logic could imagine, but then again truth is sometimes stranger than fiction! I am not a fire science guy or a fire forensic guru, but I am tending to think that it was a short that caused this to happen, not so much the fault of the chemistry which, from what you said, was not being discharged or charged so that speculation for me would need to go on the back burner for awhile until all other scenarios are exhausted!
In looking at the first post with the pictures, if breaking it down by separating the PCM pictures from the cells, it appears to me that the short possibly could have started where the stand-off screw was. In the picture there is a 'puddle' of polycarbonate muck with a screw and stand-off in it, and if looking at the rest of the PCM unit, it appears to me that approximately where this screw and stand-off was originally, it started burning. The polycarbonate has on the underside of it 2mm foam to create some protection from the screws that were used to mechanically connect B- and P- to the PCM and to protect the screws for the stand-offs from accidentally causing a short on the cells. It is plausible to me that the screw for the stand-off my have worn through the foam, come in contact with a cell, rubbed through the plastic coating of a cell and caused a short. Then again this is just another theory on what occurred.
I thought of this possible scenario first because of two reasons, first is that the PCM was not attached to the battery pack securely (not sure how the PCM or the battery pack was secured, so again only speculations here) allowing it to move about freely, and because this scenario is similar to what had happened to me when I first started building and seeing what would work best to build a quality battery pack. I had built a 36V10Ah 'prototype' test battery, and after a few days of various vibration tests that I was performing, I notice that the battery began smoking, but it was coming from the middle of the pack and underneath the PCM. There was no fire yet, but I did the proper procedure for Li-ion fires according to the DOT regulations. What I found was that the B- screw attachment had worn through the PVC coating of the cells underneath and started a small short. After removing the PCM, I also noticed that and stand-off screws had begun to wear through the PVC coating of the cells. This was the reason we use 2mm fire resistant (not proof!) foam to eliminate the chance for shorting of the cells through their PVC casings, and have not had this issue since that time until now with concerns to any of our battery packs that we have to have smoke or fire. Since this occurred to me with the PCM attached securely to my test battery for vibration tests (done with a neighbors paint can mixer), then with it not being attached securely to the battery
may have caused this to happen.
Then again, in looking at the picture of the battery on fire, it looks almost as if the fire started near the most positive and most negative cells since the PCM is not quite 'on fire' yet.
It very well could be something as simple as vibrations over time causing abrasions to occur on the wiring and have nothing to do with anything else.
Right now I do not have any other plausible opinions on how this could have happened, but will be pondering it for sure!
Again, I am so thankful to hear that your family and home are okay.
they just arent we should all treat these high capacity packs just like the bombs waiting to go off that they are, treat them like that and you will have no problems apart from the self destruction of you battery of course.
