How heavy is heavy? An NEC question from the Fifties.

Al, I wish I knew enough to directly answer your question, but I thought I'd point out that the brakes would have been air pressure operated, not by steam.  The steam would cool as it flowed through tubes, pipes, and hoses, and would mean frozen valves and stuff as it got back to the fifth, or seventh car and beyond....if it could make it past the last plug of ice.  Instead, train brakes have always been via pre-cooled and dried air.  The nested, hairpin beds of piping under the running boards of steamers were the cooling pipes.  The tanks into which they emptied their air would have to be purged frequently of condensate.

Also, I doubt that there would be a huge difference in weight, but I will watch the other responses.  Instead, the heavyweight designation came from a comparison with the cars that preceeded that design.  My guess is that the fluted metal cars were plenty heavy.

-Crandell

Howdy, Al,

The GG-1 could haul a longer train of heavyweights than could fit at the platforms of the terminal stations, so whether it could haul more lightweight cars is moot.

Heavyweight cars were exactly that - note that most ran on six-wheel trucks.  They were built heavy (including concrete-weighted floors) to give them smooth riding characteristics.  The stainless steel cars were considerably lighter, ran on improved design four wheel trucks but were still slightly rougher-riding than their older equivalents.

If the assigned lightweights couldn't handle the expected loading, heavyweights would have been added, up to the limit imposed by platform length.  Most usually, the heavyweights would have been head end cars and coaches.

Braking wouldn't have been an issue.  Freight cars in a loose-car train could have weights that varied from empty flats to loaded hoppers, and there were more of them.  The weak links in air brakes are the hoses and quick-disconnect 'glad hands' between cars.  A long passenger train would seldom have as many as 20 such places.  Even a short freight would have 50 or more.

Chuck

selector

My guess is that the fluted metal cars were plenty heavy.

I don't have all of my railway library unpacked yet after my big apartment renovation, but the Budd coaches built for the CPR started out in the 60+ ton range and the heavyweight cars they replaced started out in the 80-90 ton range.

The lightest cars were the day coaches, followed by the sleepers of various configurations and then the diners. Budd diners ran in the 80+ ton range and heavyweight diners were astoundingly heavy. 120 tons maybe. A combination of 1920's appliance building techniques, potable water tanks, and cooking fuel tanks. CP used Pintsch Gas.

Bruce

Thanks, Bruce.  Good to know what the disparity actually was.

-Crandell

Al, The three most frequent materials used for lightweight cars were Aluminum, Steel and Stainless steel. Pullman's first cars with stainless steel over mild steel were a disaster. These were the cars built by P/S for the early SP Daylights. They were nothing more than fluted stainless steel panels over mild steel and within a few years after going through carwashers and running along the Pacific Coast the mild steel rusted badly and was bad enough that it even rusted some of the car framing. That is why Sacramento shops undertook the rebuilding of these cars using only flat stainless steel on the car sides with just the band above the windows painted red.

The Santa Fe also bought similar P/S cars but found a simpler solution before the damage was done and that was to use a sealant about every three or four months along the seams where the two type metals (Stainless and Mild) joined or overlapped. This was applied after the cars had been through the carwasher after completing a trip.

The problem did not occur with the postwar P/S built cars with the stainless steel fluting over mild steel.

Those cars built of Aluminum mainly by American Car and Foundry had there ownset of problems and that was electrolysis caused where steel and aluminum joined and the area was frequently damp due to rain or whatever. Aluminum cars had steel in the endposts and mainframe as well as the center sill in most cases and where this joined steel there was a problem within a short period of time. The Union Pacific turned to undercoating for there cars and solved the problem for the most part. The MP took a similar approach but used a different product than the UP.

The Budd stainless steel cars were for the most part lighter in weight than the Aluminum or the mild steel cars. The reason is that the corrugation or fluting actually served as the structural frame of the carbody. Mild steel cars needed to be frequently painted as did the Aluminum cars. Even those so called stainless steel cars constructed by P/S needed silver paint applied to the smooth mild steel car roofs. The proof is in the appearance of fifty year old or older products from Budd. Just take a trip to Chicago's Museum of Science and Industry and gaze at the Pioneer Zephyr built in 1934. They refurbished the train a few years ago but for the most part other than replacing some of the flat stainless steel on the front that had been dented after years of service the rest of the stainless steel only needed buffing to bring back it's beauty. Another example is that of Via Rail Canada who continue to operate the former Canadian Pacific Budd built cars over a half cenury since they were built.

In answer to your other question the PRR and NYC both owned lightweight cars that were built by P/S and Budd and in the final years of the 20th Century Ltd mixed P/S cars with Budd cars. I think the only reason the Corridor trains pulled by GG-1s did not seem to mix the cars is that many of the trains behind the GG-1s were through trains to the south belonging to ACL SAL and SOU and they were mixtures of Budd, P/S and AC&F clad in fluted stainless steel so from a station platform all appeared uniform. The PRR did not need to mix any cars with the Congressional consists or the Senators although after the PC merger this happened quite often. The Keystone often operated with regular PRR cars forward of the actual Keystone equipment as there were only ten cars in that trains consist. Another thing is north of Washington the PRR hauled through sleeping cars off of other trains from the south bound for New York so they were mixed into regular PRR trains.

Hope this helps.

Al - in - Stockton      

Thanks for the timely info, West Coast Al!  There are plenty of images of Gee's hauling stainless equipment, one of my favorites for a movie is in the (original) MANCHURCIAN CANDIDATE (1962), a ground level shot of a G hauling a solid stainless consist at speed....just a second or two but it conveys the essence of such travel in the 1950s - 1960s period. 

I  agree with you that after the PC merger, the company had no compunctions about using a mixture of painted and stainless coaches.   Other passenger trains often wound up doing that, too, sometimes mixing multiple liveries along with the occasional lightweight car.  It wasn't just a private RR company thing to do, though; the first couple of years of Amtrak "rainbow" L-D trains were quite common.

I should point out that lighweight cars were nothing new with Budd, although they may have been the lightest.   On a per linear foot basis, or per seat basis, the PRR P-70 steel coach designed by George Gibbs was actually lighter than the wood car it replaced!   And about 70% of all postwar PRR non-suburban main line coaches were simply rebuilds of P-70's, and they were considered postwar lightweight cars that looked, when fully rebuilt with picture windows, reclining seats, larger washrooms, and low arch roofs with modern compact air-conditioning, looked just like other railroads new ACF and Pullman Standard streamlined coaches.   They continued to ride on four wheel trucks, and the full rebuild involved replacing the outside pedastal flexible frame PRR standard passenger truck with (in my opinion) a better riding regular drop equalizer doubly sprung possibly General Steel truck.  Also they emerged with only one vestibule, like most postwar equipment and in contrast to the New Haven which stayed with two vestibules for postwar coaches (but not postwar parlors).

The Congessionals and Senators were fully Budd and kept that way.   Other corridor trains had mixtures of equipment.   Most PRR NY - Washington trains had the modernized P-70's but carried heavyweight six-wheel truck parlors into the 1960's with little attempt to modernize these very traditional and very comfortable and smooth ridings cars.   Boston  - Washington Federal and Patriot had a real mixture of equipment, including modernized P-70's with recilining seats, partially modernized P-70's (many variaties), prewar American Flyers (8200 series, certainly lightweight), postwar fluted side versions with reclining seats and the smoking section, and postwar NH parlors mixed with prewar PRR heavyweight parlors on the Patriot, but quickly (by about 1950) all postwar Pullmans, both PRR and New Haven, on the Federal.   The head end equipment on the Patriot and the Federal (they tried to keep this off the Senator and usually succeeded, ditto the Congessionals) was a real mixture, including even PRR box cars equipped with high speed trucks, PRR B-60 one-door baggage cars, and just about any variety of baggage-mail, Railway Express, etc. equipoment you might find anywhere.

Any GG-1 or on the New Haven any of their 4-6-6-4 (2-C-C-2) locomotives could handle any lenght of train of this equipment and make track speed or better.  Ditto back-to-back DL-109's and PA's northeast of New Haven.    The only real hills were the Penn Sttation tunnels and the approaches to the Hell Gate Bridge.

AgentKid

heavyweight diners were astoundingly heavy. 120 tons maybe.

That 15-car AAR test train in 1938 was almost all P70s-- what was it, 1015 tons?

No question a GG1 could maintain whatever track speed was-- 75 mph initially, 80 mph later-- with eighteen heavyweight cars on the level. The only question is its acceleration. Most NY-Washington schedules were 3 hrs 50 min or 4 hrs; the Congressional was the only one scheduled at 3-35. So unimpressive acceleration wouldn't necessarily mean a late train.

In ordinary service, the GG-1 had the reputation of being the only of PRR's motive power that could pull away so quickly it would make a standing passenger lose footing if he wasn't aware that the train had started moving. I was behind a Gee during the PC era and it did indeed feel swift and strong, and as the train started to move, other than the creaking of the bulkheads, the train was close to silent.   After all, the motor's acceleration was based on DC traction motors.  Aren't they the ones that are supposed to be at max efficiency pulling away from zero mph?   (Or did that just apply to trolley cars?)  

Perhaps the Congressional's faster carding was due to other factors:  making fewer stops, perhaps stopping for less time at Philadelphia, perhaps getting faster clearance onto the main or into the Hudson tunnels.  Fewer stops would trim time on deceleration and dwell time as well as acceleration.  It made a difference during the Metroliner era.   Things like that (?) -- al

During WWII I rode an "Advance Congressional" (in coach, with the regular Congo carded as all-First Class, but that too went out the window when the PRR wanted to move the people) that made it from Washington to New York in 3:05 with just one stop for passengers in Newark.

Oh, corrction.   The heavyweight PRR parlors that ran well into the streamline era, at least into the 1960's, were modernized in two respects:  roller bearintgs for their six-wheel trucks and mechanical air-conditioning replacing ice.

The Congressionals and (at least in certain timetables) Senator and Colonial did not handle checked baggage.   Most of the other NY-Washington trains did.  Very seldom would you see head-end equipment on these trains, more often on the Colonial, and sometimes on a Senator just to get a car from Boston to Washington in a hurry.

The EP-3's (boxcabs and the GG-1 prototype), EP-4 and EF-3's on the New Haven were just as good as the GG-1's in handling the trains, but were limited by track speed restrictions and curves.  And the back to back Alcoes did go 100 mph between Boston Switch north of Providence and Readville.  

daveklepper

During WWII I rode an "Advance Congressional" (in coach, with the regular Congo carded as all-First Class, but that too went out the window when the PRR wanted to move the people) that made it from Washington to New York in 3:05 with just one stop for passengers in Newark.

Oh, corrction.   The heavyweight PRR parlors that ran well into the streamline era, at least into the 1960's, were modernized in two respects:  roller bearintgs for their six-wheel trucks and mechanical air-conditioning replacing ice.

The Congressionals and (at least in certain timetables) Senator and Colonial did not handle checked baggage.   Most of the other NY-Washington trains did.  Very seldom would you see head-end equipment on these trains, more often on the Colonial, and sometimes on a Senator just to get a car from Boston to Washington in a hurry.

The EP-3's (boxcabs and the GG-1 prototype), EP-4 and EF-3's on the New Haven were just as good as the GG-1's in handling the trains, but were limited by track speed restrictions and curves.  And the back to back Alcoes did go 100 mph between Boston Switch north of Providence and Readville.  

Good points all, Dave.  I should have mentioned when I posted my answers that the original 1952 NEC Budd stainless-equipped trains did not accept checked baggage.  This suggests that they didn't have a baggage car or RPO.  That might have speeded up ops a little, too.  IIRC the Metroliner never accepted checked baggage -- nor had anywhere to put it.  The same holds true for the Accelas.

The 1937 NY Div timetable says GG1s and the R1 were allowed 1330 "tons" on passenger trains-- where the "tonnage" was calculated by assuming 90 tons for diners, 85 tons for Pullmans, 65 tons for P70s, and various tonnages for head-end cars.

 Edit: the 1939 timetable allows GG1s 2500 tons, except 2000 tons under the rivers.

al-in-chgo

the GG-1 had the reputation of being the only of PRR's motive power that could pull away so quickly it would make a standing passenger lose footing

timz

The 1937 NY Div timetable says GG1s and the R1 were allowed 1330 "tons" on passenger trains

I was able to reach into the boxes of packed books I still have and pulled out two Classic Trains special editions "Streamliner Pioneers" and Dreamtrains" and have some more info.

But first I wanted to address one point touched on by timz above. Growing up I learned from my father that passenger cars were assumed to have a forty ton capacity. I also learned that the weights of Budd coaches ran from about 80 to 110 tons.

So when I read the article Crafting the Lightweight Super Chief in "Streamliner Pioneers" and looked at the table on page 25 of the article I was surprised and annoyed to see such discrepancies in the weights of the cars listed. I then hit upon the solution to the problem.

My father was a train dispatcher, and for operational purposes such as one would see in a Employee Timetable, on the CPR it was assumed that the weight of passenger cars was 40 tons greater than the manufacturers delivered weight. This heavier "weight" was used to calculate to engine requirements for each passenger train. I think this is what has led to the wide variety of weights I have seen in many locations, as the authors of the articles have gotten different information from different source documents from different departments. Shop force documentation would be different from operation department documentation, as each department would have different needs and requirements.

Now to some of the weights I found in the two books. On page 12 of "Streamliner Pioneers" it makes a general assumption that heavyweight cars weighed between 65 and 80 tons. The chart I mentioned earlier on page 25 lists the weights of the original cars for the Super Chief as between 48 and 55 tons. In the pictures I see, it does not look like these cars were the full 85 feet long that became the industry standard.

In "Dreamtrains" on page 70 it says that the bi-level diners ordered for the El-Capitan sat 80 patrons, weighed 90 tons, and rode on 6 wheel trucks. They were the heaviest lightweight cars ever built.

Somewhere in my Classic Trains collection there is another article devoted to Dining Cars but I can't locate it yet, so maybe someone else can provide more information.

Bruce

It certainly was common for heavyweight and streamlined cars to run together on a train. In fact, you'll note that most of the Walthers "Heavyweight" cars are decorated in streamliner colors rather than the correct steam era Pullman green. Many railroads did this so they could mix the two types of cars together. Some like Great Northern even went so far as reconditioning heavyweights with new roofs so that, except for their six-wheel trucks, they were almost indistinguishable from smooth-side lightweight cars.

BTW they were called "heavyweights" because they were so heavy compared to the all-wood cars they started replacing in the early twentieth century. 

AgentKid

passenger cars were assumed to have a forty ton capacity.

wjstix

It certainly was common for heavyweight and streamlined cars to run together on a train. In fact, you'll note that most of the Walthers "Heavyweight" cars are decorated in streamliner colors rather than the correct steam era Pullman green. Many railroads did this so they could mix the two types of cars together. Some like Great Northern even went so far as reconditioning heavyweights with new roofs so that, except for their six-wheel trucks, they were almost indistinguishable from smooth-side lightweight cars.

BTW they were called "heavyweights" because they were so heavy compared to the all-wood cars they started replacing in the early twentieth century. 

That's good to know -- I had just assumed that "heavyweight" was a retronym that wasn't coined until "lightweight" became state-of-the-art.

Thanks!  -  al s.

al-in-chgo

I had just assumed that "heavyweight" was a retronym that wasn't coined until "lightweight" became state-of-the-art.

timz

400 passengers?

I never heard or knew of the basis for the forty ton number. Was it based on the carrying and suspension capabilities of the trucks and the frames of the cars, or was it an arbitrary safety number developed back when the normal capacity for freight cars was forty tons. Or was it a combination of both.

This is a question I have wondered about and I never have seen the answer.

Bruce

AgentKid

timz

400 passengers?

I never heard or knew of the basis for the forty ton number. Was it based on the carrying and suspension capabilities of the trucks and the frames of the cars, or was it an arbitrary safety number developed back when the normal capacity for freight cars was forty tons. Or was it a combination of both.

This is a question I have wondered about and I never have seen the answer.

Bruce

 

AgentKid

timz

400 passengers?

I never heard or knew of the basis for the forty ton number. Was it based on the carrying and suspension capabilities of the trucks and the frames of the cars, or was it an arbitrary safety number developed back when the normal capacity for freight cars was forty tons. Or was it a combination of both.

This is a question I have wondered about and I never have seen the answer.

Bruce

 

I'm just speculating, but is it possible "ton" no longer, in this context, meant literally "2,000 English pounds avoirdupois"?  The concern with tonnage in this thread has been more with tractive effort -- "haulability" as it were -- than with gross weight if all we are discussing is the engine's ability to haul.  Perhaps "ton", while a linear marker (i.e., more is more) had become more of a metaphor, like, say, "ten-penny nail" is today.  Is that possible?   I myself have trouble getting my mind around an all-steel boxcar weighing 80,000 lbs., but I'm not saying it's impossible.  Steel weighs a lot, after all, and structural steel was (is?) generally measured by some sort of ton.  There is a basic understanding from an earlier post that stainless-steel and modernized, less elaborate wheel structure (such as four per truck, not six) made for less weight, as in the 1952 Budd coaches for The Senator and both Congressionals.  I do not think the term "lightweight" was pure publicity BS on the part of Budd. 

al-in-chgo

I myself have trouble getting my mind around an all-steel boxcar weighing 80,000 lbs.

When you speak of a forty ton boxcar you are talking capacity, not tare weight.

At this moment, personally, I am amazed that I don`t know the tare weight of a standard CPR forty ton grain box of off the top of my head. I saw so many as a kid I never thought to memorize the number.

Bruce

AgentKid

al-in-chgo

I myself have trouble getting my mind around an all-steel boxcar weighing 80,000 lbs.

When you speak of a forty ton boxcar you are talking capacity, not tare weight.

At this moment, personally, I am amazed that I don`t know the tare weight of a standard CPR forty ton grain box of off the top of my head. I saw so many as a kid I never thought to memorize the number.

Bruce

 

Well, isn't that what I've been trying to say?  In your example "tons" would measure volume, not weight.  Of course, "ounces" can measure weight or volume, but that drives people who grew up under the Metric system crazy. ("A pint's a pound the world around" was one of my grandmother's sayings, but while it works fairly well to estimate water or milk, don't try it with berries or pancake mix.)  For that matter I'm not sure tractive power correlates effectively to volume of (whatever) hauled as opposed to the drag it puts on the locomotive pulling away from zero, one of which constituents would be weight.  Motors and diesel-electrics have very different ways of overcoming inertia, pulling away from zero mph;  then there's rolling resistance etc.  Where is there an engineer around here?  I've seen these dynamics charted out limned in equations.   I can understand that in estimating number of cars the HEP can pull in any situation, it's useful shorthand to have a way of measuring the capacity of a grain car (which, loaded with wheat, will average so much weight), as opposed to a woods-products car or an autorack.  They probably respond fairly well to their own schedule of estimate or rough equivalents (probably three- as opposed to two-level autoracks would involve different numbers!).  The fact that long freights sometimes wind up underpowered suggests that rules of thumb shouldn't be squeezed too far -- of if it was a computer analysis that determined weight/content/drag, sometimes best to let common sense overrule the computer.  If that still can happen.   PRB coal comes especially to mind.

Interjection of another thought.   Track structure has a lot to say also.   The Super Chief was a "light-weight"Budd streamliner, but its diner rode on six-wheel trucks because if its greater weight than the coaches and sleepers.  But office car Pennsylvania 120 rides on 4-wheel trucks, and although rebuilt from a P-70, I'll bet it is heavier than a Super-Chief dining car.   I also doubt that any Budd-built "light-weight" sleeping car is as light as a standard Erie Stillwell steel commuter coach built in 1910-1916 and probably about the same as a Stillwell long distance coach.   Some reader might have the facts on these estimations.

Anyway, the Senator and Congrssional Budd equipment was beautiful and a pleasure to ride.   I hope some gets restored some day.

al-in-chgo

In your example "tons" would measure volume, not weight

It has been a very long time since I took Physics in High School but I think I am talking about weight not volume. On the inside of the forty ton boxcar were marks on the wall to indicate to the elevator operator how high to fill the car to achieve a forty ton load. There were marks for barley, oats and several types of wheat. The number of cubic feet (volume?) would change depending on the commodity, but not the total weight of the load, or the tare weight. Of course the elevator operator would weight the grain before he loaded it, the marks were more of a safety measure.

I think we did get carried away from one of your original questions on the thread,

3.  Would it have been prudent to mix slab- and fluted-sided cars on one run?  I know they were compatible in having the same couplers, height and vestibules, but would it have caused problems to the steam braking system having different weights along the braking line?  (I'm guessing not because the RR's of the Sixties, at least with their diesel-hauled varnish, mixed shiny and solid pretty much at will -- but was it different when hauled by a motor like the Gee?)

The assumption you made in your question certainly applies to freight trains. There was an excellent story in the Railroad Reading section several years ago. It involved a freight train made up of about half tank cars and the rest a variety of cars. The tank cars had baffles installed, but they were not filled to capacity and the contents could still shift front to back. The train was marshaled to have the tanks as a block at the front of the train. However at one terminal the engine and caboose changed ends to facilitate going down another line, and the article dealt with the very bad trip the crew had because of this. The effects were manifested by very severe slack action.

The very first assumption I had when I read your post and before I read any of the following posts is that the effects you were wondering about would not show up in a consist of twenty cars or so. The effects you were wondering about would show themselves in slack action, and with only twenty connections there would not be enough of them for serious slack action to get started.

The first thing they taught new engineers on passenger trains is that you make sure that the soup stays in the bowls, and the tea stays in the cups, and this is done by learning how to handle the slack correctly. You have to have the right amount of power to lift the train, and provide the correct acceleration, but after that it is the train handling ability of the engineer, and they will tell you that every train they have ever run handled differently. The types of coaches and their position is something that is simply taken as part of the job.

Engineers on the PRR would have taken the different performance characteristics of electrics, diesels and steam in stride and it was no doubt part of their qualification process.

I guess that is all for now.

Bruce

timz

al-in-chgo

I had just assumed that "heavyweight" was a retronym that wasn't coined until "lightweight" became state-of-the-art.

I'd stick with that assumption.

No, I'm pretty sure you can find "heavyweight" commonly being used in print long before the streamliners came along. The difference between all-wood cars and all-steel cars was pretty substantial. Standard passenger engines like 4-4-2s and 4-6-0s were quickly made in effect obsolete at least on top-of-the-line passenger trains. The rapid increase in size and power of passenger engines from 1900-1930, culminating in "super power" engines, was largely due to the increased weight of the new all-steel cars.

Yeah, he must be thinking of the Hi-Level diners.

timz

Yeah, he must be thinking of the Hi-Level diners.

Budd did build some six wheel truck 10-6 sleeping cars for the Missouri Pacific for a destination that was located on light rail. I believe this was the MP branch to Hot Springs. It was just for spreading the weight over more axles and more wheels.

Al - in - Stockton