Milwaukee Road class F6 explained

Milwaukee Road class F6
Powertype:Steam
Builder:Baldwin Locomotive Works
Serialnumber:61135–61148
Builddate:January–March 1930
Whytetype:4-6-4
Uicclass:2′C2′ h2
Leadingdiameter:360NaN0
Driverdiameter:800NaN0
Trailingdiameter:430NaN0
Locoweight:375850abbr=inNaNabbr=in
Locotenderweight:532000abbr=inNaNabbr=in
Fueltype:Coal
Fuelcap:40000abbr=inNaNabbr=in
Watercap:15000usgal
Boilerpressure:2252NaN2
Feedwaterheater:Coffin flush in smokebox
Firearea:80square feet
Cylindercount:Two
Cylindersize:26x
Valvegear:Baker valve gear
Tractiveeffort:458201NaN1
Operator:Milwaukee Road
Operatorclass:F6
Numinclass:14
Fleetnumbers:6400–6413; renumbered 125–138 in 1938
Deliverydate:1929
Retiredate:1952–1954
Disposition:All scrapped
Milwaukee Road class F6-a
Powertype:Steam
Hatnote:Only items that differ from class F6 above are shown
Builder:Baldwin Locomotive Works
Serialnumber:61655–61662
Builddate:October–November 1931
Whytetype:4-6-4
Height:15feet
Wheelbase:Loco: 40feet
Locoweight:380220abbr=inNaNabbr=in
Feedwaterheater:Wilson Water Conditioner
Operator:Milwaukee Road
Operatorclass:F6-a
Numinclass:8
Fleetnumbers:6414–6421; renumbered 142–146, 139–141 in 1938

The Milwaukee Road classes F6 and F6-a comprised twenty-two steam locomotives of the 4-6-4 configuration, commonly nicknamed “Hudson” but known as “Baltic” on the Milwaukee Road.

The fourteen class F6 locomotives were not delivered from their builder, the Baldwin Locomotive Works of Philadelphia, Pennsylvania, until 1929–1930. In 1931, eight sister locomotives of class F6-a were delivered; these differed in few aspects but can be distinguished by the straight running boards of the F6-a, in contrast to the stepped running boards of the F6.

Technical details

The 1925 design was by Milwaukee Road Chief Mechanical Engineer C. H. Bilty, with detail design by the Baldwin Locomotive Works, who actually built them. They represented the best of American locomotive practice at the time, and were given all the latest devices and fittings. A Coffin feedwater heater was fitted, which was the Milwaukee's favorite type; this was installed flush in the extended smokebox, and thus was not at all obvious. Possibly because of this, the boiler lagging was continued over the smokebox, which was not common; most North American locomotives had bare smokeboxes which were graphited, rather than painted. The associated steam-driven centrifugal water pump was located under the cab at the left rear. The class F6-a was fitted with the tender-mounted Wilson Water Conditioner instead of the Coffin feedwater heater.

Valve gear was of the low-maintenance Baker type, with (of course) power reverse. A front-end throttle was installed, with the distinctive linkage running along the boiler on the engineer's side. A mechanical lubricator, driven from the crosshead on the engineer's side, fed oil to the cylinders, valves, guides and other parts of the running gear. Many of the locomotives were fitted with a speedometer, which was attached to the engineer’s side frontmost leading axle.

A single air pump for the locomotive and train air brakes was fitted to the fireman's (left) side, with air tanks under the running boards on both sides. Like all larger North American coal-burning locomotives of the time, an automatic stoker was fitted; the two-cylinder engine to drive this was under the cab floor on the fireman's side.

Modifications

Locomotive #6401 received large, "Elephant ear" smoke deflectors in 1936 as an experiment; these were kept for several years, but were not fitted to other locomotives. Later that year a sheet-steel pilot was fitted to it and several other locomotives to replace the boiler-tube pilot installed from new. This featured a swing-up coupler. As well as giving a more attractive, streamlined look, this had a serious safety aspect; a sheet-steel pilot without a protruding coupler was more likely to deflect an obstacle without catching on it in e.g. a grade crossing accident.

Service

At first the locomotives were used mostly between Chicago and Minneapolis, but later on when the F6-a locomotives arrived they served as far west as the beginning of the electrified zone.

When delivered the class F6 were numbered 6400–6413, with the class F6-a numbered 6414–6421. At the 1938 renumbering, they were numbered 125–138 and 139–146

Table of locomotives! Original No. !! 1938 No. !! Class !! Baldwin
serial No. !! Built !! Retired
6400 125 F6 61135
6401 126 F6 61136
6402 127 F6 61137
6403 128 F6 61138
6404 129 F6 61139
6405 130 F6 61140
6406 131 F6 61141
6407 132 F6 61142
6408 133 F6 61143
6409 134 F6 61144
6410 135 F6 61145
6411 136 F6 61146
6412 137 F6 61147
6413 138 F6 61148
6414 142 F6-a 61655
6415 143 F6-a 61656
6416 144 F6-a 61657
6417 145 F6-a 61658
6418 146 F6-a 61659
6419 139 F6-a 61660
6420 140 F6-a 61661
6421 141 F6-a 61662

Speed record

On July 20, 1934, Milwaukee Road class F6 Baltic #6402 participated in a test run to prove the feasibility of a high-speed service, which was launched as the Hiawatha service in 1935. The test used a regular service train from Chicago, Illinois to Milwaukee, Wisconsin, train 29. This was redesignated as Second 27 just for that day and given a special, high-speed timing. With a five-car train of 840000lb, #6402 completed the in 67 minutes and 37 seconds start to stop. The eventual Hiawatha timing was 75 minutes for this journey, and the Hiawatha timing was possibly the fastest scheduled train in the world in the 1930s.

While the ends of the trip were taken at relatively low speeds, the between the Chicago suburb of Mayfair and Lake, Wisconsin was completed in 45 minutes and 53 seconds, an average of 89.89mph. Times were taken with a stopwatch as each station was passed, and in addition the locomotive was fitted with a speedometer; this recorded the speed on a chart, indicating a maximum of 103.5mph was reached. The fastest inter-station average speed was 95.6mph between Oakwood and Lake; British expert Brian Reed showed that the latter half of that was an uphill gradient and thus speeds in the first half must have been significantly higher than the overall average. He stated that:

This must be taken as the first time a U.S. steam loco topped “the hundred”.

More recently, British train timer Bryan Benn has taken the gradient profile given in Brian Reed's book and shown that it supports a maximum speed in excess of 101 mph during that portion of the run. He believes this is the first claim of over 100mph for a steam locomotive in which the surviving documentation strongly indicates its accuracy, and thus that #6402 was the record holder for steam locomotive speed for at least a short time.

References