Less Than 1% Of Train Accidents Brake Related?

blue streak 1

What or if retainers set on rear of train could have helped prevent the wreck ?  With the ultra long trains now being sent over steep grades the setting of retainers would be very time consuming ?  Have no idea how they are used ?

What are the present practices of using retainers ?

To my knowledge - use of retainers is not taught on CSX.  I doubt that anyone currently on CSX has used retainers in their own employment experience and thus would not be competent to teach their use.

Special Instructions on the use of retainers from Timetables decades ago, stated that they were to be set up from the engines rearward.  Were they to be used on the rear forward they would be setting up a string lining situation.

What or if retainers set on rear of train could have helped prevent the wreck ?  With the ultra long trains now being sent over steep grades the setting of retainers would be very time consuming ?  Have no idea how they are used ?

What are the present practices of using retainers ?

BaltACD

Correct train make up would not have generated the high level of buff forces that created the derailment situation.

Take a rope - heavily weight the last 5000 feet of it, with head end 5000 feet being just the unweighted rope - now start to pull it down a grade - what happens when that rear 5000 feet all get on the grade and is 'being restrined' by the head 5000 feet.

Now reverse the weighted rope and pull the weighted end over the grade first - the rear of the rope does not generate the buff foces that were created with weight on the rear end.

 

Correct train make up would not have generated the high level of buff forces that created the derailment situation.

Take a rope - heavily weight the last 5000 feet of it, with head end 5000 feet being just the unweighted rope - now start to pull it down a grade - what happens when that rear 5000 feet all get on the grade and is 'being restrined' by the head 5000 feet.

Now reverse the weighted rope and pull the weighted end over the grade first - the rear of the rope does not generate the buff foces that were created with weight on the rear end.

BaltACD

Braking procedures were not the cause - train make up was the cause - too many empty cars followed by too much trailing tonnage.  With ECP and Dynamics the in train forces would have been similar to those that caused the derailment.

 

I understand that train makeup may have directly caused the wreck.  But until I hear the official cause discovered in the investigation, I will leave the door open to the possibility that there were more than one cause factor such as train makeup + a slug of handbrakes set somewhere in the train + reduced reliance on air braking + an increased reliance on dynamic braking. 

I believe that you said that the train makeup did violate CSX rules.  If so, I would expect that normal operation could jackknife or stringline the train.  But the train could have also been derailed due to abnormal forces related to the other factors.  I am referring to abnormal forces that would derail a train even though it was properly made up with the loads and empties distribution.  If investigators found that to be the case, I do not know how they would define the cause.  What if you have two anomalies that are against the rules and they combine to derail the train—even though one or the other could have derailed it alone?

In my first post, I am only using the Hyndman derailment for illustration proposes.  I never claimed that any of those listed factors actually caused the derailment.  But any of them were capable of causing a derailment, and they all could have been mitigated by ECP brakes.

[quote user="BaltACD"]

Braking procedures were not the cause - train make up was the cause - too many empty cars followed by too much trailing tonnage.  With ECP and Dynamics the in train forces would have been similar to those that caused the derailment.

[quote]

Balt,

I am aware there are limits to trailing tonnage behind empty cars and that they may, if heavy, could contribute to derailments from stringlining. If I understand it correctly it is up to those in the yard to assemble the train accordingly.

I recall one instance years ago where a CN train had a string of autoracks followed by some ballast cars. The engineer encountered an unexpected red and when he threw it in the big hole the ballast cars kept coming and derailed the autoracks. That was far enough back my cousin who was a CN conductor told me of it. I have no personal knowledge of that incident.

Some days the excrement hits the air distribution system and you have no control over it. No one ever said life is fair.

Bucky,

People here have been waiting since forever for you to reveal your qualifications to make the comments you do but every time you are asked about your qualifications all we hear is Crickets.

While I readily admit I'm nothing more than a railfan who has only learned tidbits from the rails I know you proclaim to be an expert on many things railroad related. Perhaps you have insight we don't but after repeated requests you refuse to answer any questions regarding your qualifications to present yourself as the experienced expert you claim to be. Many of your posts have been exposed as outright lies.

Please do those of us on this forum who seek knowledge a favor and either put up or shut  up. Were you commenting on things aviation I could expose you in a New York minute. I believe you are a total fraud.

Braking procedures were not the cause - train make up was the cause - too many empty cars followed by too much trailing tonnage.  With ECP and Dynamics the in train forces would have been similar to those that caused the derailment.

BigJim

 

Euclid

One way of taking the risk out of re-starting is to use a number of handbrakes set to hold the train back somewhat at the starting upon release of the air brakes.  Ideally, the handbrakes would be released once the train is rolling under control of air brakes and dynamic brakes.  But there is no way to release the hand brakes once the train is moving.  One option would be to set the handbrakes so lightly that they could just drag without sliding wheels. But for proceeding with handbrakes set for supplementing air brakes, the handbrakes were probably set too tightly because they had been set originally for the purpose of securement.  So reducing their set would have required the task of releasing each handbrake and re-setting them to a lighter application.  CSX guidance on re-starting with handbrakes set was posted in one of the previous threads about this derailment, but it did not stipulate how tightly the handbrakes were to be set if used in this manner.  It did stipulate that no handbrakes be set on empties.  As I understand it, handbrakes were set on empties, which was okay for securement, but not for re-starting with handbrakes set.  We have not been told what role the set handbrakes played in this derailment, but it is possible that they directly caused the derailment by causing wheels to slide.  In any case, the use of handbrakes to aid in re-starting would have been unnecessary had the train been equipped with ECP brakes.

 

 

For those of you who have come here seeking knowledge...Beware!
The quote above is total BS and shows that the OP has absolutely no idea what he is talking about. If I remember correctly, we had gone over this myth a long time ago in a previous thread, yet he persists on perpetuating this crap!

I am sorry to have had to open this can of worms this far into the discussion, but, it needed to be said in order to belay any wild rumors it may have started in the minds of unknowing readers.
The use of hand brakes to controll the movement of a train over the road is totally unsafe and unacceptable!

 

 

In two threads now, you have warned unkowing readers that I do not know what I am talking about regarding my comments about running with handbrakes set to supplement air brakes.  Both times I have replied that I am not recommending this practice or saying that it is proper.  In fact, I said that I have not heard of this practice until it was brought up in threads here regarding the Hyndman wreck.  I have said the practice is indorsed by CSX, and still you complain that I am giving dangerous and improper advice.  Here are the special instructions posted by BaltACD in the first thread that detail the practice.  I have added emphasis in bold red:

“CSX Baltimore Division Timetable - Keystone Sub SI…

5559 STEEP GRADE (1% OR MORE) TRAIN HANDLING

Brake Pipe Pressure –

The brake pipe pressure on the rear of eastward loaded trains must be 75lbs or higher prior to passing over summit at Sand Patch.

A running release of the train brake will not be made on eastward freight trains operating in this territory.

When the total brake pipe reduction exceeds 18lbs on any eastward freight train operating Sand Patch to Hyndman, the train will be stopped. 30% hand brakes will be applied to the head end of the train to hold it on the grade during the recharge procedure.

If needed, hand brakes may be left on the train to supplement air brakes while descending the rest of the grade. Avoid leaving hand brakes on any empty cars.”

Now finally after realizing that this procedure of running with handbrakes applied is recommended by CSX, you have made the following statement in regard to that recommendation:

“That shows you how intelligent the folks at CSX are! Totally irresponsible that they (both operating and management) don't have enough knowledge in proper train handling!!!”

So I feel vindicated that you have now shifted gears and tell us that it is CSX who does not know what they are talking about.  Clearly it is their idea and not mine.  I agree that it is risky.  In fact it may have contributed to the Hyndman wreck.  Yet CSX spells it out as recommended practice in their special instructions. 

I only described the practice and said that I had never heard of it before.  My point was that regardless of the risk of this move with handbrakes set, CSX did make that move, and it would not have been necessary had the train been equipped with ECP brakes.  So, it is just one more way in which ECP might have prevented a wreck. 

M636C

Ten chains (660 feet) is the sharpest curve permitted on main lines and is extremely rare on any other lines.

Just a smidge under 8.7 degrees of curvature.

A quick and close approximation can be done with "Baldwin's Apprioimation Formula":

Radius = 5730 / Degrees_of_curature

So 6-Deg = approximately 955-ft radius

10-Deg = approx 573-ft radius

I am not a Civil Engineer - in US railroads, curves are identified by the degree of curvature (and that is not directly related to 360 degrees completing a circle).  In mountanious territory on my former carrier the curves are identified as, for the most part, being between 6 and 10 degrees - what that is in a radius in feet I don't know.

Paul North or mudchicken are fluent in railroad engineering speak.

BaltACD

How much curvature is involved in these grades?

M636C

Since we have moved on to steep gradients, I looked up the Sand Patch grade on Wikipedia. It indicates that the overall grade averages out at 1% (what we call 1 in 100) with a length of 2% (1 in 50) contained within.

There have been two recent runaways In Australia on the Moss Vale-Unanderra line. The last ten miles of this line are 3.3% (1 in 30) and maybe a third of the country's grain exports descend this grade loaded.

Retainers are called "grade control valves" in Australia and these were a near universal fitment but have been superseded in recent years by chokes which simply slow down the release of the brakes.

Half way down the grade is a "Brakes Landmark" a fixed indication signal consisting of a yellow triangle marked "brakes". A train is to stop at this point and recharge all the brake reservoirs before restarting down the hill.

....

Peter

How much curvature is involved in these grades?

Since we have moved on to steep gradients, I looked up the Sand Patch grade on Wikipedia. It indicates that the overall grade averages out at 1% (what we call 1 in 100) with a length of 2% (1 in 50) contained within.

There have been two recent runaways In Australia on the Moss Vale-Unanderra line. The last ten miles of this line are 3.3% (1 in 30) and maybe a third of the country's grain exports descend this grade loaded.

Retainers are called "grade control valves" in Australia and these were a near universal fitment but have been superseded in recent years by chokes which simply slow down the release of the brakes.

Half way down the grade is a "Brakes Landmark" a fixed indication signal consisting of a yellow triangle marked "brakes". A train is to stop at this point and recharge all the brake reservoirs before restarting down the hill.

In both cases of runaways, the train was descending under a combination of air and dynamic brakes and was fully under control at the brake landmark so the crew decided to continue without recharging the reservoirs. In both cases, after the air ran out, the dynamics could no longer hold the train and the train ran away. In both cases, nothing blocked the trains at the bottom of the grade but they both overran absolute signals by a considerable margin before stopping.

I have no information of ECP brakes on this line, but ECP trains run on the main West line which has a marginally easier 3% (1 in 33) descending grade between Katoomba and Valley Heights (about 18 miles). This is a much busier line with electric multiple unit passenger trains and no runaways have occurred here in some years. I only know of a brakes landmark at Katoomba, although there may have been one further down the grade.

I have spoken to the operators of the ECP brake coal train on that line, but all I heard from them was their enthusiasm for their recent GE AC traction locomotives, nothing about ECP, although they have run a double length train using wired distributed power with locomotives at front and rear.

Peter

Euclid

 

BaltACD

I am certain the cause has been identified - it hasn't been published outside the senior levels of the company. Need to know, and the public really doesn't need to know as they would not understand it anyway. 

I thought the NTSB is investigating that derailment.  Won't they reveal the details of the cause?

maybe in a year or two

BaltACD

I am certain the cause has been identified - it hasn't been published outside the senior levels of the company. Need to know, and the public really doesn't need to know as they would not understand it anyway.

I thought the NTSB is investigating that derailment.  Won't they reveal the details of the cause?

rdamon

So is giving a conductor a bag with 800 wheel chocks to properly secure a 100 car train not a good idea?

On CSX, T&E personnel are prohibited by rule from placing chocks on equipment.

Euclid

I did hear about train make up being an issue.  Did the train make up actually violate any rule or special instruction, or was it just less than ideal?  I understand that the empties with handbrakes applied do violate special instructions.  But in any case, do we know that the train make up or the handbrakes applied on empties actually caused the derailment?  While these may be likely causes, I understand that the cause has not yet been determined. 

CSX does have a rule that, unless it is a train of empty cars, you are not permitted to have 30 or more empties together in a train where there are 10 or more load cars in any position following the empties.

Yardmasters, especially in flatland areas, like to 'skirt' the rule by building a train with 29 empties, a load and 29 more empties.  I don't know the specific makeup of the train that derailed, however, all the information I recieved from my contacts indicated that the derailed train was assembled in a similar manner and most of the loads were on the rear of the train.  As I have stated, gravity is a tireless and unrelenting opponent in getting trains down grades safely.

Regarding Retainers - as note in the 1955 TTSI's they are to be used on LOADS.

I am certain the cause has been identified - it hasn't been published outside the senior levels of the company.  Need to know, and the public really doesn't need to know as they would not understand it anyway.

BaltACD

 

Euclid

 

Electroliner 1935

Euclid, have you ever done anything that was against the rules and was succesful and thought the rule didn't provide you with a means to achive what you needed to do without violating it? It's like being asked "HAVE YOU STOPPED BEATING YOUR WIFE? YES OR NO" 

So you have stated that the rule says don't apply hand brakes on empty cars and run in a train. And that hand brakes must be applied to secure a train on a grade when there is insuffient air to maintain a train on a grade. And that hand brakes can not be released on a moving train. And that releasing hand brakes on a stopped train with insufficient motive power to keep the train from rolling after a number of hand brakes are released is a receipe for problems, What do you suggest a crew is to do? 

I don't know why hand brakes were left applied on an empty car but it appears that occurred. It has not been determined that that was the cause of the derailment. Should the train been put out on the rails as it was.I think not. I think it was an accident waiting to happen and it did. I also suspect that many times, trains like it have succesfully gotten over the road and so the practice of sending high tunnage trains down grades continues. If you watch the video

might. 

It appears that nothing about operating the train that derailed at Hyndman was against the rules, except possibly leaving handbrakes applied on one or more empty cars.  I understand that brakes were left applied on 58 cars once the train restarted down the grade.  I understand that this was done because the second crew thought that the train might still have air brake issues.  I interpret that to mean that the second crew was not willing to completely trust that air brakes would perform properly, so the left handbrakes applied on 58 cars to provide supplemental braking effort in case the air brakes were not capable of providing their normal braking effort.  I do not know if this was decided solely by the crew or approved by someone higher. 

I do not know if the crew was put into a situation that they could not handle, as you say.  I don’t think it is obvious that they were.  I do not know if leaving 58 handbrakes applied contributed to the derailment.  I have speculated that the derailment may have been caused by excessive dynamic braking that may have been performed in overcompensating for lowering the reliance on air braking.  It is just a wild guess, but the derailment did occur just after the engineer reduced power and began dynamic braking; and there is also evidence that the derailment was caused by excessive buff force which can be produced by excess dynamic braking. 

Regarding the question of what the crew should have done if they had been placed in a dilemma of whether to handle a train that may be unsafe.  I do not know if the train was unsafe or if the crew believed they were in a dilemma.  I do not know if this was “an accident waiting to happen.”  But if the crew believed that the train was not safe to run, they should have refused to run it—even without a rule prohibiting running with handbrakes.  If there had been such a rule, and the crew felt the train was unsafe to run, I believe it would be a very bad move to decide that breaking the rule was justified because there was no ready alternative, and the train must move.  If a crew were faced with that kind of dilemma, then they should have someone higher up make the decision.  When in doubt, take the safest course. 

 

 

Train make up was the proximate cause of the derailment and rules (or Special Instructions) were violated.  Special instructions do not permit the moving of EMPTY cars with hand brakes applied.  The head end of the train that derailed had a high percentage of empty cars in the head end 58 cars which had hand brakes applied.

Gravity is a fearsome enemy when it comes to moving tonnage trains down mountains.

 

I did hear about train make up being an issue.  Did the train make up actually violate any rule or special instruction, or was it just less than ideal?  I understand that the empties with handbrakes applied do violate special instructions.  But in any case, do we know that the train make up or the handbrakes applied on empties actually caused the derailment?  While these may be likely causes, I understand that the cause has not yet been determined. 

Euclid

 

Electroliner 1935

Euclid, have you ever done anything that was against the rules and was succesful and thought the rule didn't provide you with a means to achive what you needed to do without violating it? It's like being asked "HAVE YOU STOPPED BEATING YOUR WIFE? YES OR NO" 

So you have stated that the rule says don't apply hand brakes on empty cars and run in a train. And that hand brakes must be applied to secure a train on a grade when there is insuffient air to maintain a train on a grade. And that hand brakes can not be released on a moving train. And that releasing hand brakes on a stopped train with insufficient motive power to keep the train from rolling after a number of hand brakes are released is a receipe for problems, What do you suggest a crew is to do? 

I don't know why hand brakes were left applied on an empty car but it appears that occurred. It has not been determined that that was the cause of the derailment. Should the train been put out on the rails as it was.I think not. I think it was an accident waiting to happen and it did. I also suspect that many times, trains like it have succesfully gotten over the road and so the practice of sending high tunnage trains down grades continues. If you watch the video

might. 

It appears that nothing about operating the train that derailed at Hyndman was against the rules, except possibly leaving handbrakes applied on one or more empty cars.  I understand that brakes were left applied on 58 cars once the train restarted down the grade.  I understand that this was done because the second crew thought that the train might still have air brake issues.  I interpret that to mean that the second crew was not willing to completely trust that air brakes would perform properly, so the left handbrakes applied on 58 cars to provide supplemental braking effort in case the air brakes were not capable of providing their normal braking effort.  I do not know if this was decided solely by the crew or approved by someone higher. 

I do not know if the crew was put into a situation that they could not handle, as you say.  I don’t think it is obvious that they were.  I do not know if leaving 58 handbrakes applied contributed to the derailment.  I have speculated that the derailment may have been caused by excessive dynamic braking that may have been performed in overcompensating for lowering the reliance on air braking.  It is just a wild guess, but the derailment did occur just after the engineer reduced power and began dynamic braking; and there is also evidence that the derailment was caused by excessive buff force which can be produced by excess dynamic braking. 

Regarding the question of what the crew should have done if they had been placed in a dilemma of whether to handle a train that may be unsafe.  I do not know if the train was unsafe or if the crew believed they were in a dilemma.  I do not know if this was “an accident waiting to happen.”  But if the crew believed that the train was not safe to run, they should have refused to run it—even without a rule prohibiting running with handbrakes.  If there had been such a rule, and the crew felt the train was unsafe to run, I believe it would be a very bad move to decide that breaking the rule was justified because there was no ready alternative, and the train must move.  If a crew were faced with that kind of dilemma, then they should have someone higher up make the decision.  When in doubt, take the safest course. 

Train make up was the proximate cause of the derailment and rules (or Special Instructions) were violated.  Special instructions do not permit the moving of EMPTY cars with hand brakes applied.  The head end of the train that derailed had a high percentage of empty cars in the head end 58 cars which had hand brakes applied.

Gravity is a fearsome enemy when it comes to moving tonnage trains down mountains.

Electroliner 1935

Euclid, have you ever done anything that was against the rules and was succesful and thought the rule didn't provide you with a means to achive what you needed to do without violating it? It's like being asked "HAVE YOU STOPPED BEATING YOUR WIFE? YES OR NO" 

So you have stated that the rule says don't apply hand brakes on empty cars and run in a train. And that hand brakes must be applied to secure a train on a grade when there is insuffient air to maintain a train on a grade. And that hand brakes can not be released on a moving train. And that releasing hand brakes on a stopped train with insufficient motive power to keep the train from rolling after a number of hand brakes are released is a receipe for problems, What do you suggest a crew is to do? 

I don't know why hand brakes were left applied on an empty car but it appears that occurred. It has not been determined that that was the cause of the derailment. Should the train been put out on the rails as it was.I think not. I think it was an accident waiting to happen and it did. I also suspect that many times, trains like it have succesfully gotten over the road and so the practice of sending high tunnage trains down grades continues. If you watch the video

might.

It appears that nothing about operating the train that derailed at Hyndman was against the rules, except possibly leaving handbrakes applied on one or more empty cars.  I understand that brakes were left applied on 58 cars once the train restarted down the grade.  I understand that this was done because the second crew thought that the train might still have air brake issues.  I interpret that to mean that the second crew was not willing to completely trust that air brakes would perform properly, so the left handbrakes applied on 58 cars to provide supplemental braking effort in case the air brakes were not capable of providing their normal braking effort.  I do not know if this was decided solely by the crew or approved by someone higher. 

I do not know if the crew was put into a situation that they could not handle, as you say.  I don’t think it is obvious that they were.  I do not know if leaving 58 handbrakes applied contributed to the derailment.  I have speculated that the derailment may have been caused by excessive dynamic braking that may have been performed in overcompensating for lowering the reliance on air braking.  It is just a wild guess, but the derailment did occur just after the engineer reduced power and began dynamic braking; and there is also evidence that the derailment was caused by excessive buff force which can be produced by excess dynamic braking. 

Regarding the question of what the crew should have done if they had been placed in a dilemma of whether to handle a train that may be unsafe.  I do not know if the train was unsafe or if the crew believed they were in a dilemma.  I do not know if this was “an accident waiting to happen.”  But if the crew believed that the train was not safe to run, they should have refused to run it—even without a rule prohibiting running with handbrakes.  If there had been such a rule, and the crew felt the train was unsafe to run, I believe it would be a very bad move to decide that breaking the rule was justified because there was no ready alternative, and the train must move.  If a crew were faced with that kind of dilemma, then they should have someone higher up make the decision.  When in doubt, take the safest course. 

BaltACD

The prefered braking method on my former carrier is use of extended range dynamic brakes.  In specific locations the use of stretch air braking is permitted.  Obviously, Emergency is never the prefered method.  The reason dynamic braking is perferred is that there is little to no likelyhood of having a 'kicker' place the train in emergency as is possible when using air brakes at a service rate.

Paul of Covington

   In a discussion of this wreck over a month ago, it was stated that CSX does not train employees on the use of retainers.   It seems to me that retainers were invented precisely to handle this type of situation, so why would they abandon their use?

I suspect there is no one in today's world of operating railroads that KNOWS how to use retainers.  Ever since the development of effective dynamic braking, the need to use air brakes on grades has decreased, let alone use retainers.  The use of air braking and the many manifestations of using air brakes don't appear to be a priority in the training of new engineers.

Procedures for Sand Patch is specified in B&O 1955 Pittsburgh Division Timetable Special instructions

13 OPERATION OF AIR BRAKES.

Passing Rockwood, Engineers of Eastward freiglt trains will set up brake pipe pressure to 90 pounds, which will be carried through to Cumberland. Eastward freight trains will stop at Yoder or Sand Patch for adjustment of retainers and will stop East of Hyndman Interlocking plant and place all retainers in release position. If stopped by either absolute signal, West of Hyndman Tower, retainers may then be placed in release position.

Eastward freight trains will stop at FO Tower for inspection except when handled by Diesels equipped with dynamlc brake. In event dynamic brake becomes inoperative, train will stop at FO Tower for inspection.

Eastward freight trains via Sand Patch, except those operated as 92. 94. 96. 194. 396. Livetock trains and Time Savers will make retainer test in terminal or at point where train is picked up.  If picked up at difierent place, retainer test will be made before passing Sand Patch, under the supervision of the conduotor. When train stop on descenditrg grade, and flagman is recalled proceed sigdal will not be given until it is known brake pipe is properly charged.

Trains will stop to adlust retainers. When retainers are used they must be turned up consecutively from engine, rearwards. Turning up retainers on the front and rear pordon of a train allowing the middle cars to run loose is prohiblted.

Grade ........................................ Minimum % Retainers
Sand Patch - Hyndman (Coal Trains) 100
Sand Patch - Hyndman (All Others)       90

 

 

On above mentioned grades and trains standerd air pressure will be:

 Main Reservoir...... 130 pounds
 Brake Pipe... 90 pounds

Empty trains will carry the prescribed standard pressure as follows:

 Main Reservoir...... 130 pounds.
 Brake Pipe... 70 pounds.

When Engineers deem additional rotainers necessary, they will notify trainmen who will comply with their request.

   In a discussion of this wreck over a month ago, it was stated that CSX does not train employees on the use of retainers.   It seems to me that retainers were invented precisely to handle this type of situation, so why would they abandon their use?

tree68

It's possible this is a long-standing solution to a specific problem.

BigJim

That shows you how intelligent the folks at CSX are! Totally irresponsible that they (both operating and management) don't have enough knowledge in proper train handling!!!

We don't know that CSX wrote that.  I'm not familiar with the line, so I don't know who the predecessors are.  It's possible this is a long-standing solution to a specific problem.

BaltACD

There are many things that should not be done and are against various rules as a matter of routine.  That being said - there are times and situations where only the 'rules violation' action will permit the train to move with any degree of safety.  Such actions are never undertaken 'lightly'.

Rightfully or wrongfully, when such actions are specified as permissible in Timetable Special Instructions - those actions have been reviewed and approved by the 'brain trust' at the highest levels of the company - levels well beyond the local Trainmaster or top Division officer.