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Any thoughts on how to make these flex like?
Mark,Thanks a million for the new, sharper photos! When I first saw them, my immediate thought was that the tie plates are a bit too tall. It's good to be able to see them, but they shouldn't look like the "chairs" on British rail. BUT, I decided to look at my stash of prototype photos and see what rail joiners looked like during the transition era and a few years post-transition. The bigger the rail gets, the more prominent the tie plate gets is the first impression from looking at photos of real tracks. Also, the taper of the rail joiner is also pretty obvious from the edge of the rail's foot to the edge or the tie plate. All of the mainline photos of rail joiners I looked at had corners on the rail joiners that are very sharply 90 degrees...and don't look rounded at all.What I concluded after looking closely at prototype mainline track photos, is that I can see the rails perched up on top of the tie plates if I'm looking for that, at the same time, the taper of the tie plates becomes more obvious too.Although I'm 100% with you that the tie plates should be thicker than scale-sized to be able to see them, I was thinking maybe 1.75%??? What percentage over-thickness are yours??In any case...I love the tie proportions. I really wasn't aware of how thin Atlas C55 ties are.Also, the spacers between ties are what proportion to the tie height? I would think that 50% would be sufficient, and allow properly sized ballast to cover them with air-space between the tops of the rocks to the bottom of the rail foot.Just to show you why I'm pushing for heavily trafficked mainline tie strips in both C55 and C40, and lightly trafficked siding tie strips first...here's some handlaid PCB track I laid as an experiment using C55 as the mainline trackage and C40 as the siding trackage...with radically different tie spacing between the the two trackages with different purposes.I like the logic of using over-scale C55 for the heavily trafficked mainline heavy railed trackage and C40 for medium and lightly trafficked mainline & siding/spur/industrial trackage...so the difference in height can be easily seen in N-scale, as well as the difference of railhead width...then different tie spacings and different weathering add to the contrast between how different tracks of different usage levels can be typically seen...then lastly, different style and type of ballasting, with the lightly traveled siding/spur/industrial trackage sometimes just laid on the dirt, either almost buried, or completely exposed. The exposed trackage with your properly sized ties will look much more prototypical than anything that's presently being injection molded.I know that a slight taper is one of the most difficult things for a 3D printer to produce properly, but I'm convinced that's what your tie-plates need if possible, and maybe a couple of thousandths less overall height too with sharp 90 degree edges. Is this possible with your printer?? I'd also increase the height of the outside spikeheads about .001" too.Of course, these suggestions are just my opinions and your tie-strips in their present form will produce C40 track that's better than anything ever produced before in N-scale. I'd like the same in C55 for the rail-height contrast, even though I have a pretty big stash of Rail-Craft C55.Pretty amazing!!Cheerio!!Bob Gilmore
Sorry to come late to the thread with this, but you can buy plastic code 40 track bases from the UK.
But why do that???
- Easier for longer runs and large layouts- The plastic used is much more durable and not brittle, especially around the joints to the rail- Pre-colored- Soon to be released matching turnouts/switchesI'm all for 3D printing and the results look great! But it's always good to consider all options.
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Topic: Concrete Tie strip for N Scale and Code 40 Rail (Read 34991 times)
