CP Napanee Industries Coil Steel Cars

As the large Algoma Steel plant in Sault Ste. Marie is arguably the primary industry on the Algoma Central Railway in any era, steel traffic forms a major part of the tonnage carried by the railway, and included in that is “coil” steel (as far as I know, the only major steel product not produced by the Algoma mill is wire). Thin sheet steel is wound into coils that are shipped out to manufacturing plants across the continent to be turned into all manner of steel products.

To transport this valuable cargo by rail, the rail industry developed cars with V-shaped wood-lined loading troughs to transport the coils without damaging them. Some of these cars were flatcars or gondolas with the loading troughs added, but by the 1960s several builders were producing various specially designed cars for coil steel service.

Note – There seems to be a bit of a gray area in whether or not to class these special cars as flats or gondolas – indeed today most of the modern equivalents are now pretty universally considered as gons (“GBSR” AAR designation), and while many identical cars were also classed as “GBSR” by their owning roads, the cars I’m about to discuss were classed (at least initially) as “FMS” by both CN and CP.

A major builder and innovator of this type of design – a coil car with lengthwise loading troughs, removable hoods, tracks for moveable load restraint bars, and cushioned underframe to protect the contents – was Evans Products which built hundreds of these cars for most of the major American railways. A minority builder was Canada’s Napanee Industries (NI) of Napanee, ON which built a total of 75 cars in 1967 following the Evans design (probably under license for the Canadian market) for Canadian National (25 cars – CN 190200-190224) and Canadian Pacific (50 cars – CP 313500-313549).

CP 313533 in October 1970 in original as-delivered black with script logos. Jim Parker photo.

A model representing the Evans Products coil car was and is produced in HO by Walthers. (A very similar US Railway Equipment car is produced by Intermountain (formerly Red Caboose tooling) but the body is different and has a straight sill). The Walthers car is somewhat of an older model, dating back to when Walthers actually sold their cars as kits (and I picked up a 3-pack of kits quite a number of years ago that lived for a [long] time on my shelf), but with a few upgrades these can still make respectable models, and an easy kitbash to one of the Napanee cars.

The first thing to do to the Walthers model is to cut away the original walkway and throw it out. Not only is this part rather thick and crude by today’s standards, the Napanee cars did not have the full-length side walkways featured on the model. I also carved off moulded grab irons and stirrup steps to replace them with finer wire parts.

To cover the holes left by the walkway supports and seam between the body halves, rather then trying to fill and sand body putty along the length of the body between the upper and lower flanges (or to be more honest, trying and giving up), I simply laminated 0.005″ styrene sheet cut to fit to the car side to get a smooth result.

Pre-paint construction photo.

Since the NI cars didn’t have full walkways, the removable hoods did not have lengthwise handrails on them either, which the Wathers model has. This is a pretty simple matter to carve off the handrail supports and sand them smooth. At the same time I took the opportunity to replace the corner grabs on the hoods with wire. Otherwise the hoods are essentially “stock” with all the kit parts, although I did scratchbuild matching hoods using the kit part as a pattern for a fourth car that had come with rounded hoods…

Wire grabs were mounted to the body, and step handrails also added from brass wire. The walkway grating on the ends of the cars was added using Plano etched material. The final modification is a small triangle of styrene strip angling from the side sill outboard of the trucks to the bottom of the main body, and a small loop of brass wire representing a protective guard around the brake control valve on the side.

Painting and lettering the cars is where things get a little interesting, as there’s no specific decal sets available. I built and painted two cars for CP, one in original black and one in red (2 more cars for CN are still in the paint shop).

CP 1979 “Action Red” car painted but unlettered.

The red CP car was painted and lettered following a prototype photo of
freshly painted CP 313500 on pg. 99 of “Canadian Pacific Color Guide to Freight and Passenger Equipment: Volume 2” by John Riddell and published by Morning Sun Books. This shows a car in a 1970s repaint.

The car and hoods were sprayed with Rapido ProtoPaint “CP Action Red”, and then masked off to paint the underside of the car and the draft gear black. Also the multimarks on the hoods were custom masked and painted as no decal was exactly the right size. The rest of the lettering was cobbled primarily from a Highball gondola set (although almost any CP Rail freight car decal would work as a source) and some Microscale consolidated stencils. The prototype was a 1979 repaint, so no ACI label is present on this car. Numbers and data were painstakingly put together with a magnifying visor.

Two CP cars painted and lettered.

The black car consumed no less than three sets of Black Cat decals – 2 sets of a gondola with script lettering (CPR340998) for the hood logos and end reporting marks, and a skeleton “stake” flatcar (CPR305560) set for the correct size reporting marks and numbers. This provided ample data to work with. Incidental decals such as ACI labels and consolidated stencils were added from Highball and Microscale sets. As these are 100-ton cars, U-1 wheel dots do not apply.

Perhaps if I were doing a larger set of these cars in the future I might commission a custom set of specific decals, but I was able to piece enough of it together from existing sets.

The cars still need to be sealed and weathered, but for now the paint and lettering work is for the most part completed on these two CP cars. Hopefully the CN fleet will have its pair completed soon as well.

Freight Car Friday #74 – CP 305560 Model

This unique Canadian Pacific skeleton flat is a new model I just finished* this week.

*(Assembly, paint and decals; still needs clear coat and weathering.)

The model is a Custom Finishing kit, which is made up of a series of soft metal (pewter) casting. After cleaning up all the parts with a fine file, and drilling holes for grab irons and truck and coupler box mounting screws, the model was assembled per the kit instructions using two part epoxy to glue the major parts together. As there’s barely a dozen pieces, it’s actually a very easy and straightforward build. I also drilled through the joint at each end between the main spine of the car and the end platforms and pinned it with a short piece of wire to reinforce the joint, so that the main structural pieces aren’t only held together by the epoxy. One extra addition I made was to apply 1×10 plates for the KarTrack ACI barcode labels on the right-most stake on each side, and I also drilled holes in the end sills to mount Kadee #438 air hoses.

With the assembly completed, the model was airbrushed black and lettered with decals from Black Cat Publishing specifically for this car. ACI labels came from a MicroScale set, and a couple of missing elements (“Plate C” marking and NSC builder’s logo) were added from a Highball CP Rail flatcar set.

The prototype for this car is one of 50 cars built in September 1968 by National Steel Car as CP 305560-305609. (Another 300 identical cars were built for Pacific Great Eastern in two batches in 1966 and 1968.) The cars were designed for use transporting full length logs and poles.

I’ve heard some mention of shipments of telephone poles to the Sault Public Utilities Commission; I’m not sure where such shipments would be unloaded, but all that is needed is a team track with a driveway beside it. Whether such movements actually happened with any regularity, the “rule of cool” applies here a little as well, and that’s what the waybill for this car will show when it runs on my eventual layout.

Just need to make a (removable) pole load for this car now…

Pulpwood Loads/Jigs

As I may have mentioned a few times on this blog, pulpwood logs are a significant traffic item on the Algoma Central, and a type of load I’ll need quite a supply of for my flatcars and gondolas. I’ve been doing some playing around and simulating with some car cards and waybills and I figure on using anywhere from 15-20 pulpwood loads during a future operating session (when I have a layout to actually operate on some day), and these loads can be moved in at least five different types of cars (52′ flatcars, 40′ flatcars, 52′ gondolas, 61′ gondolas, 48′ gondolas), so I need a lot of loads and several different types of loads.

While there are some cast resin or plastic loads that you can get to fit certain models, they won’t fit some of the customized cars I have, and I’ve never really seen one made for a standard gondola. Moreover, just nothing looks as good as a load made of real logs.

Fortunately these aren’t too complicated to make, collecting real twigs of an appropriate size and cutting them to length. (If you – or a friend – has a bandsaw, cutting a lot of them very quickly is a breeze.) Really the trickiest part is selecting good twigs that are nice and straight so you can actually get a lot of logs out of them without “wasting” most of it.

Pulp logs in northern Ontario are typically cut to ~8′ lengths. This is a perfect size for loading crosswise in bulkhead flatcars and gondolas (with usually a 9′-9’6″ inside loading width) and purpose-built flatcars (or rebuilt/modified from plain bulkhead flatcars) for pulpwood service with side stakes have the stakes evenly spaced out for logs of this size. Once the “logs” are cut, they’re just stacked up on the cars. On the prototype, gravity and the friction of the rough surfaces of the logs is usually enough to keep everything in place (although trains carrying pulpwood loads “without side stakes and chains” are often subjected to speed restrictions and ACR timetables included special footnotes in the Special Instructions section to keep a close watch for shifted or protruding logs en route so it obviously isn’t 100% perfect and an obvious reason why the side-stake cars really took over in popularity.) On the model these physics don’t quite scale the same way, and we can make it much easier to load and unload the cars by gluing the logs together into a solid load.

To make it a bit easier to work on making some of these loads, I spent a little time in the workshop this week and tossed together some sheet styrene fixtures to the exact loading dimensions of some of my common car types for pulpwood service. This lets me assemble and glue together some loads on the workbench without banging actual cars around and risking damaging their details or getting glue on them. (And white glue peels right off the styrene when dry so a bit of liberal over-use is no bad thing when building in the fixture.)

Assembly fixtures for 52’8″ bulkhead flat, 52’6″ mill gondola, 40′ pulpwood flatcar. The flatcar load at top was previously a load for a kitbashed 51′ flatcar at the club which got dropped on the floor and turned into several pieces to be re-assembled. The missing area at the one end and a few gaps at the bottom still need to be filled in here

52′ flatcar load completed in assembly fixture

Finished load on Walthers 52’8″ bulkhead flatcar

Finished load in Rapido 52’6″ gondola. Note vertical logs at ends to extend the height of the load. This was a common practice for loading pulpwood in gondolas.

Next steps: collect and cut a LOT more branches. I have three loads completed and I’m out of logs. I need at least 15-20 more to cover my eventual needs. Maybe more spread out across all the possible car types just so I have enough if the mix of loaded car types changes session to session (e.g more 52′ flatcars one session, more 61′ gondolas the next).