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TAKING SLACK

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TAKING SLACK
Posted by GM1361 on Sunday, October 27, 2013 12:43 AM

What is taking slack in the following sentence?

CAUTION: Taking slack is not a recommended method for
starting a heavy train on a heavy grade. Short brake release
times will release the brakes on the entire train, and the rearportion will begin rolling backward while the head portion is
starting forward, easily causing a train separation.

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Posted by BaltACD on Monday, October 28, 2013 11:06 AM

GM1361

What is taking slack in the following sentence?

CAUTION: Taking slack is not a recommended method for
starting a heavy train on a heavy grade. Short brake release
times will release the brakes on the entire train, and the rearportion will begin rolling backward while the head portion is
starting forward, easily causing a train separation.

Couplings between cars have some 'slack' in them - potentially on the order of 1/2 inch to a inch per coupleing + the movement of the draft gear on each end of the car.  As train lengths increase, the amout of 'free moving' slack in the train also increases.  Improperly controlled slack action is the primary cause of shattered coupler knuckles and pulled out draft gear.

The action described in the 'CAUTION' is a situation where the entire train is stopped on a ascending grade.  The engineer has 'bunched' the slack in the train, so that each coupling has the maximum slack distance to move before starting to pull on the car behind it.  In the procedure being cautioned, the air brakes are applied on the entire train.  As the engineer begins to start the train, adding power to the locomotive consist, he is also releasing the air brakes - pulling the slack out and starting each car individually from front to rear.  The caution refers to the fact that the brakes will release on the rear of the train before the starting secquence of pulling out the slack has gotten to the rear of the train.  Gravity will have the entire portion of the rear of the train pull against the starting head end of the train as a 'solid unit' with a much higher draft force than the engineer intends with his starting sequence.  The high draft force is easily capable of shattering a coupler knuckle or finding the weakest draft gear, thus stopping the train and necessitating additional actions being taken.

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Posted by daveklepper on Monday, October 28, 2013 2:54 PM

I suspect that stopping a long freight train on an uphill grade means using as little brake effort as necessary, using the dybamic and independent allowing the intertia of the train to bunch the slack forward against the locomotive, but applying enough brakiing effort at the precise moment necessary to keep any portion of the train from rolling backward.   Starting would require moving up the throttle from idle almost immediately after releasing the brakes while the rear brakes have not released completely.  It must be a very fine art, and the wrong timing can result in broken kuckles, either because fully released brakes have allowed the rear to start backward movement or because the brakes are sill applied too srongly.   Comments?

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Posted by BigJim on Monday, October 28, 2013 6:04 PM

daveklepper
Comments?

Whew! You have a lot to learn my friend! Think about what you have said for a while.

Yes, it is an art. One that becomes finer when the units don't want to co-operate with the engineer. But, like anything else, practice makes perfect and not the way you suggest!

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Posted by Rainhilltrial on Monday, October 28, 2013 10:16 PM

You don't try to stop on a hill while also bunching the slack!!!  Air brakes would be set to hold the train as it stops, and as soon as you start releasing your air the cars nearest the head end will start to roll backwards until the slack is "out" and at that point in time you likely have a broken knuckle. You stop on a grade stretched.

it's virtually impossible to stop a train with all head-end power on a hill with the slack bunched. As you set the air, the brakes apply from front-to-rear, speed sinks toward zero, and the rearmost cars will float slack going in-and-out slightly depending on their weight and the grade, but eventually their air takes and they stop pretty much with the rest of the train.

if you're running with distributed power unit(s) on the rear end, the cars ahead of the DP will be bunched (slack gathered) as you keep your DP units shoving (but throttling down as you make your stop) but that's what rear end DP does.

Diesel locomotives generally don't need to take slack as did steam because electric traction motors develop high amounts of starting torque.

By the way, coupler components don't "shatter", they break. "Shatter" means breaking into many pieces. When knuckles fail, they break into 2 pieces, when a coupler body fails the coupler head and coupler shank break apart (or, rarely, sometimes a coupler head itself will break thru the head itself). Knuckle failures are almost always due to a small crack forming and then growing over time and many cycles of slack action until the crack is big enough to make the knuckle unable to carry the load.

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Posted by BaltACD on Monday, October 28, 2013 10:32 PM

Rainhilltrial

By the way, coupler components don't "shatter", they break.

Having picked up 6 pieces from the remains of a broken knuckle (not counting what remained in the coupler) - some times the do 'shatter'.

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Posted by daveklepper on Tuesday, October 29, 2013 7:22 AM

I said I "suspect," not know, and thanks for the correction.  Makes sense.   And if you cannot start with the slack stretched, then I suppose you have to ask for help or "double the hill" which means asking for help in any case.   I imagine it was a lot tougher in steam days, but then use of manned helpers, giving some skill at the rear end, was far more common.

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Posted by BigJim on Tuesday, October 29, 2013 10:00 AM

  In good weather, you should be able to start the train. That is, if it was not overloaded to begin with. If you got it to where it is with no problems, it should start. Complications arise when the weather gets wet or even if the weather is fine and a heavy dew gets on the rail.
  Another factor making for bad starting conditions is if there is grease on the rail from "Rail Greasers". This grease can get spread out over several curves and may spread for almost a mile or more if there has been a long rainy spell.

  In bad rail conditions. Sometimes you can be moving right along then hit a slick patch of rail. A light frost can kill your progress up a mountain. A light mist is not as bad, but, can cause a lot of trouble. There are a lot of units that the sanders get stopped up, put out very little sand or maybe even run out of sand. Or for whatever reason it just can't cope with slick rail. The wheel slip feature will take over them with a vengeance and the unit will keep unloading until the train stalls (remember that word). In this case, if you are lucky and don't have too far to go to get over the hill, you can cut off from the train and slowly sand the rail over the top of the hill and back down again to the train. If it is just greasy rail or it is not raining hard enough to wash the sand off, the train can be started fairly easily.

Stall. Remember that word? That is what you want to do when you stopping a train going uphill. Plan your stop to where the train stalls with the slack stretched out, using power and graduated light automatic brake applications just enough to first keep the train stretched out and then hold the train on the hill.

  In mentioning slack, the visual slack has already been mentioned. What hasn't been mentioned is the slack that occurs at a molecular level. While most think of cold hard steel as being rock solid (so to speak), it does have a certain amount of stretch or let's say "spring". When slack runs out there is also a certain amount of tension and then rebound involved.
  Those who have ridden the caboose on a heavy coal train coming up out of a dip should know what I mean. First the slack is bunched up going into the dip. As the train comes out of the dip, the slack is pulled out. As the slack gets pulled out to its maximum, the metal all throughout the train stretches molecularly a little bit. When this tension reaches its maximum it will start to rebound. When this happens, it causes a secondary run-in to occur and subsequently another lesser run out until the forces equalize.
  If an engineer is skilled enough, he can use this to his advantage to help start a train on a hill. If he were to put a little bit of slack in the train, it doesn't take much, he could then release the brakes and holding the head end with just enough power, wait for the slack to stretch out the entire train and then catch it as the rear of the train rebounds just enough to lessen the weight so to speak and get the train moving.

  
 

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Posted by daveklepper on Tuesday, October 29, 2013 10:55 AM

Very interesting,   And to "put a little bit of slack on the train," this means a light or medium brake application, basically what was there to hold the train from rolling backwards, and then a light throttle apllication that can move the power just a few feet back?    Knowing how long to wait for the rebond must take a lot of experience and skill, and a knowledge of the weigiht of the train and its distribution along its length?   And would the same procedure have been applicable in steam days, assuming no helper engine?

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Posted by BigJim on Tuesday, October 29, 2013 2:12 PM

 and then a light throttle apllication that can move the power just a few feet back?

Suppose that said train stalled because a unit shutdown and couldn't be restarted and you have to double the hill. The slack is stretched out tighter than Dick's hat band and the brakeman needs slack in order to make the cut. You never use the throttle to shove slack into the train. That, along with the weight of the cars you are holding on to could cause unwanted slack to be shoved into the part of the train that is being left. That could cause problems when you return for the second cut.

All of the slack that you need is what is in the units themselves. Put a good holding brake on the train with the automatic brake, then release the independent brake on the units (bailing off the automatic application) and let the units roll back into the cars, then reapply the independent brake. When the brakeman is ready, release the automatic brake and as the brakes release, just enough slack will roll back into the train in order for the brakeman to pull the pin. When that is done, pull ahead far enough so that when he returns to the head end there is enough room that if the train happened to roll back, it doesn't couple to itself. Away you go.

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Posted by daveklepper on Tuesday, October 29, 2013 2:34 PM

I should have figured out that power isn't necessary for the diesels to roll back a bit, just releasing the brakes.  Sould have been obvioius to me.

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Posted by amar711 on Wednesday, November 6, 2013 8:18 PM

Holy crap. It's unfathomable the amount of knowledge needed to properly operate a train. Not just what the controls do and the rules and signals but also how to control the entire train. I can only imagine that an engineer with over 30 years experience would think that another engineer with only 10 years experience would be considered a rookie. I used to want to be an engineer but after reading numerous articles and forums like this, I'm glad I didn't. My head would explode...lol. My hats off to ALL you engineers. Truly another job that is underpaid.

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Posted by Fred Boyer on Thursday, November 7, 2013 9:23 AM

This is not a problem on just hills.  I have a photo of a bulkhead flat loaded with I beams that has just the tail end of the coupler left in the pocket.  The engineer started too fast, front of the train got moving, but the rear was stopped.  Lots of steel cars at the back, and a lighter train in front.  Broke the coupler in the pocket, the front was moving, of course, the train came apart, and went into emergency.  Unfortunately, the rear has some movement by this time, although it went into emergency too, the front stopped quicker than the rear.  Damaged the end of the car when they came together again.  Indiana is flat ground around here. 

I also witnessed the opposite happen when a train came into a yard in southern Indiana.  Front had 20 cars of steel scrap, rear was lighter cars.  The train was probably down to 5 MPH as it went into the yard leads.  The conductor, wanting the train to stop, radioed "dump it".  Engineer went into emergency, front stopped, the last two cars were empty auto racks and they went about 4 feet into the air at the coupling.  Didn't stay around to hear the superintendent discuss this one with the crew.

Fred Boyer
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Posted by BaltACD on Thursday, November 7, 2013 10:55 AM

With the size of todays trains - most always more than a mile long and in some cases two miles long - the engineers biggest consideration in train handling is slack control - both draft (pulling slack out) and buff (slack running in) forces.  While the conductor and flagman no longer ride in the caboose to complain about a engineers train handling - broken knuckles, pulled out draft gear and derailed cars are monuments to a engineers less than ideal train handling techniques.

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Posted by Paul of Covington on Thursday, November 7, 2013 1:29 PM

   A couple of questions for engineers and conductors:

   When driving in your own vehicle and coming to a stop sign or red light, does a part of your mind think about slack control?

   Also, when approaching a traffic light, do you ever find yourself "calling the signal" in the back of your mind? 

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Posted by BigJim on Thursday, November 7, 2013 6:27 PM

Fred Boyer
The train was probably down to 5 MPH as it went into the yard leads. 


That is the problem with going into emergency at very low speeds. Due to the time it takes for the signal to get to the rear car, the brakes don't have time to set up before the head end comes to a complete stop. If the slack is stretched out, the runin can be very violent and bad things can and do happen.

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Posted by GM1361 on Friday, November 8, 2013 2:49 PM
Does taking slack here mean to bunch the slack or stretch the slack?
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Posted by rfpjohn on Friday, November 8, 2013 9:47 PM

Paul of Covington;

I do find myself wanting to ring the bell going by highway construction workers accompanied by that nagging worry that I've forgotten about a work authority.

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Posted by BaltACD on Friday, November 8, 2013 10:12 PM

GM1361
Does taking slack here mean to bunch the slack or stretch the slack?

This thread has covered both aspects of slack - stretched and bunched.  Proper contol of slack by the engineer is critical in the safe operation of trains that are being operated today. 

Slack can be a tool for the engineer to use and at the same time a condition that is his potential enemy when he cannot control it's movement within his train.  The decisions of when and where to apply power must be made with consideration of where the slack is in the train and how the application of power will affect the movement of the slack in the train know what terrain the train will be traversing.  Likewise using the various braking systems available (independent locomotive brake, trainline air brakes, dynamic brakes) must be done with consideration of where the slack is and how the particular braking action will affect the movement of the slack in the train on the terrain the train is operating over. 

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Posted by AgentKid on Saturday, November 9, 2013 2:29 AM

Paul of Covington

A couple of questions for engineers and conductors:

   When driving in your own vehicle and coming to a stop sign or red light, does a part of your mind think about slack control?

   Also, when approaching a traffic light, do you ever find yourself "calling the signal" in the back of your mind? 

From the time I can remember, until my sister who is 11 years younger than me turned 16, my father referred to every traffic light he ever saw as a "board". Red board, green board, whatever. It was only when he started to teach her how to drive that he began referring to them as "lights".

rfpjohn's post gets the award for the funniest thing I heard all day.Laugh

Bruce

So shovel the coal, let this rattler roll.

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Posted by guetem1 on Saturday, November 9, 2013 5:17 AM

now Fred's post got a belly laugh out of me!  I would not have wanted to be on the carpet for the Super's tongue lashing on that one either!  Now as a dispatcher it is my job to know the territory and know where the grades are and try not to let a train's track warrant run out on the "wrong" side of a hill.  Unfortunately the mechanical Gods do not always cooperate and if a train stalls due to a dead motor, it'll always be in the worst place.  Also you learn for train meets to try not to stop a heavy train or run him into the hole on an ascending grade.  Train compliance rules nowdays help to mitigate a lot of the problems mentioned earlier, but once in a while the yard will get behind the power curve and kick a train out of the yard that is out of compliance, Galesburg are you listening????  But when that happens usually there is a trainmaster or chief dispatcher who catches it and makes the train stop and switch it into compliance on line, usually plugging your main line for an hoour and a half!!!! 

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Posted by BigJim on Saturday, November 9, 2013 8:39 AM

guetem1
or run him into the hole on an ascending grade.


Hmmm... Depending on the circumstances, I see no problem with that. In fact, it could be for the best. Ruling out the obvious, keeping a five car local on the main and running the 9000' freight through the siding, heavy tonnage and extremely long trains are not as effected running through ascending siding than are the same trains descending through the siding. 

Going uphill the heavy/long train is going slow to begin with. It also has the advantage of being able to stop easier on the uphill grade and use an automatic brake reduction heavy enough to effect a complete brake release throughout the train when leaving.

On the other hand (And a lot depends on the speed of the siding, the slower the speed allowed the more critical the situation) the heavy/long train descending into the siding has much more to worry about. Today's heavy trains seem to have plenty of GO power, but, they are limited in how much Dynamic Brake can be on line. Thus, descending the grade, there is more tonnage than the units can hold back, forcing the use of an automatic brake application. If you had to make a heavy brake application to stop the train, it is going to compound your problems when you have to knock the brake off to leave as now you do not have a fully charged brake system. 

Operating on a less than fully charged brake system is a crap shoot. Especially, if more than one brake application has been made. Because when released, the brakes are not fully charged and they do not apply in the same way as they did when charged (some will apply, some will not). It's completely different feel. You have to sneak up on just the right amount of air to apply. You want enough to hold the train, yet, you don't want to put too much on and stop, forcing another round of the pissing contest thus getting you deeper into trouble.

Keeping the heavy train on the descending main is much better for him. If he needs to stop and a brake application is needed to do so, then, upon brake release he has much more time before the train gets up to speed in order to charge the brakes in case they are needed again. 

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Posted by daveklepper on Sunday, November 10, 2013 1:18 AM

Given either situation, with a heavy, mixed car type and load and empty, freight stopped either in the siding or on the main, would not you make a gradual release, and then let the train start rolling without power, just gravitiy starting it, to give yourself the maximum amount of time to recharge the brake line in case you have to make another brake application?  And then start applying power to bring the train up to what you consider safe and prudent operating speed (which could still be less than track speed) only when you know that the brake line is fully charged?

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Posted by BaltACD on Sunday, November 10, 2013 5:02 AM

daveklepper

Given either situation, with a heavy, mixed car type and load and empty, freight stopped either in the siding or on the main, would not you make a gradual release, and then let the train start rolling without power, just gravitiy starting it, to give yourself the maximum amount of time to recharge the brake line in case you have to make another brake application?  And then start applying power to bring the train up to what you consider safe and prudent operating speed (which could still be less than track speed) only when you know that the brake line is fully charged?

My territory has some heavy grades.  When a train is stopped on one of these grades, for whatever the reason - Conductor ties on hand brakes to hold the train, then the trainline can be recharged and the brakes released, then the hand brakes can be released.

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Posted by daveklepper on Sunday, November 10, 2013 8:02 AM

I understand.  Also, obviously one does not need to use power to get the train up to any speed wanted on any significant downgrade.   What question comes to mind:  If one gives only a partial release, will the increase in brakeline pressure propogate more slowlly through the train line than if one gives a full release?   Because if the speed of propogation is the same, then if one is stopped witih a full or emergency application, on a downgrade, it would seem prudent to release the brakes slowly, charge the train line up slowly, so that the train eases into motion, but still has some brakiing effort.   However, I see that if the pressure build-up propagates too slowly front to rear, one can easily have a break-in-to, with the brakes released at the front and still fully applied at the rear - or one can develop flat spots on the rear cars.

The  conductor setting handbrakes makes sense.  I presume setting say one-fifth or one-fourth of them staring from the front and workiing toward the rear is usually sufficient in your territory.  How does the conductor get back to the locomotive as it starts rolling when the brakes are released?  I imagine he starts with the rearmost handbrake applied and works toward the front, but still he might be several car-lenths awa from the locomotive when the train begins rolling.   Do you then use the independent to make sure the train does not exceed walking speed until the conductor reboards?   I can see a problem with that if there are a bunch of empties righit behind the power.  Is this problem always solved by proper blockiing and locating the empties to the rear of the train consistantly?

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Posted by BaltACD on Sunday, November 10, 2013 2:47 PM

daveklepper

I understand.  Also, obviously one does not need to use power to get the train up to any speed wanted on any significant downgrade.   What question comes to mind:  If one gives only a partial release, will the increase in brakeline pressure propogate more slowlly through the train line than if one gives a full release?   Because if the speed of propogation is the same, then if one is stopped witih a full or emergency application, on a downgrade, it would seem prudent to release the brakes slowly, charge the train line up slowly, so that the train eases into motion, but still has some brakiing effort.   However, I see that if the pressure build-up propagates too slowly front to rear, one can easily have a break-in-to, with the brakes released at the front and still fully applied at the rear - or one can develop flat spots on the rear cars.

The  conductor setting handbrakes makes sense.  I presume setting say one-fifth or one-fourth of them staring from the front and workiing toward the rear is usually sufficient in your territory.  How does the conductor get back to the locomotive as it starts rolling when the brakes are released?  I imagine he starts with the rearmost handbrake applied and works toward the front, but still he might be several car-lenths awa from the locomotive when the train begins rolling.   Do you then use the independent to make sure the train does not exceed walking speed until the conductor reboards?   I can see a problem with that if there are a bunch of empties righit behind the power.  Is this problem always solved by proper blockiing and locating the empties to the rear of the train consistantly?

Operating in mountain territory, train make up is critical - load & empty placement, long and short cars coupled to each other, long empty cars in the train and a host of other conditions that have caused derailments in the past and now have 'Train Handling' rules that cover those situations.  It is a real challenge for a yardmaster to build a train and follow all the applicable rules that apply to trains operating through mountain territory.

On freight trains you either apply the brakes, apply them more firmly or release them entirely.  Freight train braking systems cannot be modulated like the brakes on your automobile.  Passenger train braking systems do permit a graduated release of the brakes and their brake valves have two settings - Passenger & Freight.  It a passenger car is handled in a freight train the brake valve needs to be in the Freight setting.

When recovering from a stop on a descending grade, the last brake to be released by the engineer is the independent locomotive brake - in most cases having all the locomotives with their brakes applied are sufficient to hold a already stopped train - they would not be sufficient to stop the train were it moving.

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Posted by daveklepper on Sunday, November 10, 2013 2:56 PM

But what about the independent and the dynamic?   Say I have stopped on a downgrade, and now get the signal to proceed.  I have the independent fully applied.  (Of course I understand that dynammics only work when the train is moveing,indeed are only  effective above a certain speed.)  Now I make a full release.  The train is still standing, and I take the time to allow the train line to be pumped up before releasing the independent.  Can I release the independent gradually to ease the train into motion, and then as the train picks up speed engage the dynamic brake, assumng there is one, to hold the speed down to what I consider safe and prudent, using just enough dynamic to do so?   Or does the independent have to be released completely at once also? 

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Posted by BigJim on Sunday, November 10, 2013 6:16 PM

BaltACD
in most cases having all the locomotives with their brakes applied are sufficient to hold a already stopped train


Then that must not be a very heavy grade, a lot of units or light train.
Working on 1.7% grade, three six axle units and 8500 tons, the engine brakes will not hold a train nor will they be able to control the speed by themselves. Knock the automatic off and away you go. With today's units, the dynamic brake basically will not work with the engine brake applied, not to mention it is against the rules.

One thing that changed how much a unit will hold on a grade was the advent of composition brake shoes and then the change on six axle trucks from three brake cylinders per side to two per side. Trains that were normally able to hold a train in the yard as hand brakes were released started rolling away.

As for setting hand brakes to charge the trainline, this is only effective if a very heavy brake application has been made. Under normal situations a ten pound reduction will be more than enough to stop a train on a grade. Having the conductor go back and set brakes is only making him do unnecessary work and is a waste of time. 

If an engineer has been smart and not used a lot of air to stop his train, the dynamic brake will keep the train in check long enough to charge the trainline enough to where a heavy application is needed to control the speed.

As far as train makeup is concerned, the yardmasters only have to worry about placement of dangerous cars, trailing tonnage behind empty 89ft. flats and shiftable loads placed away from dangerous cars or the very rear car on the train. There has also been some rules placed in effect about load/empty placement in auto rack trains. This is not to say that load/empty placement does not effect train handling, but, train crews don't get to pick and choose the makeup of their train. 

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Posted by efftenxrfe on Sunday, November 10, 2013 10:28 PM

This is tough.

Big Jim ain't working on what we considered  "track" that was exceptional.

On SP, mountain grade rules kicked in at 2%.

Good train handling and survival required doin' the right things!

Absolutely, no dependence on the dynamic brake's ability to regulate train speed or holding ability or independent is mentioned; it must be mentioned that on mountain grades, neither expecting contemporary independent brakes nor automatic train brake app's to hold trains is realistic.

The DB can fail;  all locomotives DB brakes fail if the control circuit breaker trips, ain't nothing left. 

There needs to be a realization that combined train air brakes and dynamic brakes are what is needed for downgrades.

Holding trains on descending mountain grades while recharging after stopping, no problem if you're a mountain qualified engr. on SP..



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Posted by daveklepper on Monday, November 11, 2013 3:37 AM

I see no mention of retainers.  I assume they are not used anymore.   When was their use discontinued?

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