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@narrowminded, @robert3985 have you thought about how to do frog construction for turnout tie strips? I presume you can't solder the frog in place on the tie bed, so it will have to be done as a separate sub-assembly and then installed onto the strip.
I guess the rail for the frog and guard+stock rails will need to all be epoxied into place within the rail guides on the strip, and that will do the job of holding everything in place and in gauge.
Much like any hand laid turnout, they will be prepped from standard rail and then soldered as a sub-assembly utilizing a precise alignment fixture. Because I will be making more than a few of these, instead of filing to prep I will be making a machine fixture, machining those parts for precision and for convenience.
At this point I am planning on furnishing these as a RTR assembly.
I may consider a kit at some point but I'd like to get some history before to promise that.
... I doubt I will use epoxy. I may use CA for the frog and small parts like guard rails with Pliobond for the stock rails but that's still up in the air pending actual testing and assembly experience.
@ednadolski Would you still be using wooden turnout ties in your concrete tie installations?
That sounds rather like what FastTracks already offers, or have I misunderstood?
Perhaps another option is to use a frog built up from layers of etched metal? e.g. 4 layers of 0.010" NS, or 5 layers of 0.008" NS, etc., whatever makes sense for the desired dimensions. I think that there are some P:87 parts like that, tho I don't know the availability.
I believe P:87 stores offers that as an option for HO and P:87 turnouts. Some of those are built on the CVMW turnout strips. I have no idea of the sales volume, tho IIRC the cost for a hand-assembled was on the order of 2x - 3x an OTS commercial HO turnout like an M.E. #6.
There will always be a certain number of types who will want kits (to save some $$ and they don't mind doing the work themselves).
FWIW I used epoxy to install the frog and guard rails to upgrade an RTR HO turnout to P:87. It's held up fine, and I think it's probably better than Pliobond as I wouldn't want any dimensional flexibility in that area of the turnout.I don't think I could pull the epoxied parts apart if I tried. I might be an interesting experiment to leave them in an unheated/uncooled garage for a full season or two and see how they hold up to the abuse
Yes, there aren't yet many proto installations w/concrete turnout ties, at least in what I'm modeling. I'm really interested in finding ways to eliminate any visible PCB ties.
My plans are all vaporware at this point, but after this latest crop of pics my goal would be to go 100% Code 40. It's a perception but next to the C40 the C55 rail is looking more & more coarse to my eye every time I look at it (esp. that doggone shiny rail head width ). Kinda like HO scale going back to Atlas C100 after seeing M.E. C83. I would rather trade off the visual contrast between the C55/C40 rail sizes in order to get the finescale look for mainline track, and I can still use other visual cues like tie spacing, relative elevation, ballast size, fishplates, and weathering to convey the distinction between mainline and branch line. So I've started to look at updating my photo-etch turnout frets to see what they would be like with C40 rail.
I usually prefer the look of all-wood ties over plastics, but I've also learned for N scale that when plastic ties are well painted/textured/weathered then they can be quite hard to distinguish from actual wood, even in close-up pics.
The Railwire is not your personal army.
For production I can't imagine building up frogs from plates has any real benefit unless the tools to file and fit accurately aren't owned, aren't used. I'm also not seeing any benefit in function or in appearance. Am I missing something? Maybe I should take a look at their site.
One thought to keep in mind is that for a big chunk of the 20th century 115lb rail was pretty heavy mainline steel. I know for my prototypes of choice code 40 is "mainline" rail.
To that end, for Code 40 mainline track: Tie spacing at 20" and tie dimensions of 9" x 7" x 9' (108"). Branch and siding are 8" x 7" x 8.5' at 22" or 24" spacing. Agreed?
To that end, for Code 40 mainline track: Tie spacing at 20" and tie dimensions of 9" x 7" x 9' (108"). Branch and siding are 8" x 7" x 8.5' at 22" or 24" spacing. Agreed? This is prototypical according to RTA specs and will also allow for matching rail heights on Code 40 installations when transitioning to branch or siding track.
I've sold an awful lot of ties in my career and can say with some certainty that the UP was one of the only roads I can recall that standardized 9' long ties.Most other Class I's were 8'6" and the SP and Canadian Class I's actually used a lot of 8' ties.
Agreed; these spacings match the Fast Tracks tie jigs/racks. Personally, starting a new branch/switching layout, the branch and siding products are of interest to me.