Rivet Counter HO Scale EMD SD40T-2, Rio Grande/As Delivered
The unique SD40T-2 “Tunnel Motor” was the backbone of the Rio Grande and Southern Pacific fleets during the 1970s and 1980s. They were distinguished by the large see-through radiator grilles at the rear of the locomotive just above the walkway. Our Rivet Counter series model is the first and only SD40T-2 to feature a fully hidden rear driveshaft and gear tower so the “tunnel” is completely see-through without any visible obstructions.
Run:
3
Announced:
Jan 25, 2020
Arrived:
Oct 27, 2020
See below for your price
In stock
SKU
RCHOSD40T2-D&RGW3
Road Number Specific ScaleTrains
** In DC operation, the class lights are white in color only; red and green are selectable when using an ESU decoder with appropriate programming while operating in DC
*** “PowerPack” feature only compatible with ESU decoders operating on a DCC layout
- Era: late 1970s to mid 1980s
- Series 5386-5397, built 1977
- Fully assembled
- Multiple road numbers
- Operating LED box-mounted Pyle-National 20585 Gyralite signal light in low short hood*
- Operating LED front and rear stand-off tri-color class lights**
- Printed and LED lighted number boards
- Directional LED headlights
- Specially designed low-profile drivetrain completely hides the rear gear tower and driveshaft
- Detailed see-through radiator intake compartment with front and rear bulkheads, floor treadplate, and fan motor detail
- Etched-metal radiator exhaust grilles with radiator shutters visible underneath
- “Straddle” type re-rail frogs painted yellow
- Front EMD-style low pilot plow with grab irons and without MU hose doors
- Front and rear 3-hose MU hose clusters with silver gladhands
- Front straight uncoupling levers with loop handles and two inner and two outer mounting brackets
- Pilot-face mounted MU receptacle
- Notched pilot faces with high mounted angled lifting slots
- Front late small deck extension
- Late front drop step (“fixed”)
- "Tall" stepwells with see-through steps
- Handrail set with inward facing end rail mounting brackets, rear anticlimber, and chain
- Handrail ends and step faces painted white
- Scale sectioned treadplate detail on the walkways
- Rectangular walkway lights (non-operating)
- 88” low short hood with wheel handbrake
- Bolted battery box doors with wide louvers
- Late cab sub-base doors with lift-off hinges
- Dash-2 cab with bolted side window panels and D&RGW blue flag bracket
- Standard EMD headlight in numberboard housing
- Lost-wax brass cast Nathan M3R1 (“M-3”) three-chime horn, center rear of number board housing
- Detailed cab interior with separate floor, rear wall, seats, and standard AAR control stand
- Sliding cab windows
- Standard mirror mounted fore of cab side windows, both sides
- Standard EMD sunshades and long sunshade tracks
- Rear cab side vent on left side
- Large Sinclair Excalibur “ice skate” antenna (communications) mounted on cab roof
- Early electrical cabinet "zig-zag" seam, further from rear of cab
- Welded ECAFB (late)
- Intermediate inertial air intake grills with top drip rail
- Accurate hood door and long hood molded details
- Extended-range dynamic brakes
- Accurately profiled dynamic brake housing
- See-through dynamic brake intakes with resistor grid detail
- Straight rear uncoupling lever with four mounting brackets
- Hood door warning label stenciling and sidesill equipment trust plate
- Underbody frame rail with separate plumbing and traction motor cables
- Dimensionally accurate truck centers
- Detailed HT-C trucks with Hyatt bearing caps, early center axle snubbers, sanding lines and brackets (outboard only), and D-77 traction motor and air duct detailsSpeed recorder third axle, right side
- Short jacking pads (late)
- Sill-mounted EFCO
- Frame-mounted bell
- Salem air filter (accordion style)
- Air tanks with fluid drain pipes on sides of fuel tank
- 4,000 gallon fuel tank with dual fuel fillers, vertical gauge, round gauge in tank and vertical breather pipe
- Factory-applied wire grab irons, wire lift rings, windshield wipers, trainline hoses with silver gladhands, sand hatch covers, and much more
- Semi-scale coupler buffer equipped with durable metal semi-scale E Type knuckle couplers
- All-wheel drive
- All-wheel electrical pick-up
- Motor with 5-pole skew wound armature
- Dual flywheels
- Printing and lettering legible even under magnification
- Operates on Code 70, 83 and 100rail
- Packaging safely stores model
- Paint colors match Tru-Color Paint color: TCP-010 Black
- Minimum radius: 18”
- Recommended radius: 22”
- DCC & sound equipped locomotives also feature
- ESU LokSound 5 DCC & Sound decoder with “Full Throttle”
- Dual cube-type speakers
- EMD 16 Cylinder 645E3 prime mover
- ESU designed “PowerPack” with two super capacitors***
- Operates on both DC and DCC layouts
- DC/DCC & sound ready locomotives also feature
- Operable using a DC power pack
- DCC ready with 21-pin connector
** In DC operation, the class lights are white in color only; red and green are selectable when using an ESU decoder with appropriate programming while operating in DC
*** “PowerPack” feature only compatible with ESU decoders operating on a DCC layout
Due to their rugged operating environment, stretching from the Pacific coast, to the Sierra Nevada, to the deserts of the Southwest, Southern Pacific Railroad, and its subsidiary, the St. Louis-Southwestern (aka Cotton Belt), weren’t shy about ordering specialized equipment. The famed AC-series “Cab Forward” articulated steam locomotives were one example, designed with tunnel and snowshed operation in mind. Partway into SP’s diesel era, the tunnels and snowsheds common on the western half of the system would again prove to be an operational headache, thanks to locomotives overheating during long pulls in their cramped confines. Once they overheat, thermostatic controls would automatically make the unit reduce its output, or even shut down altogether, resulting in a loss of horsepower that may be enough to stall the train.
SP and EMD would collaborate on finding a solution to the problem. One idea that was tested in the late 1960s was “Elephant Ears”, large sheet-metal airfoils, applied to the radiator intakes of various members of SP’s large SD45 fleet. While effective at their intended purpose of directing a greater volume of cooling air towards the radiators, and reducing overheating problems, they were a maintenance hassle that blocked easy access to numerous hood doors. Engine crews also disliked them, as they could be an impediment on the walkways. A more permanent solution would be found in 1972, with the delivery of the first SD45T-2 to SP. Cataloged by EMD as an extra-cost option of their basic SD45-2 … “SD45-2 with cooling system modifications”, as described in EMD product manuals from the early 1970s … the SD45T-2 built upon the basic principle of the elephant ears, but in a permanent package. A success, SP would order a “T-2” variant of the SD45T-2s cousin, the SD40-2.
For the SD40T-2, the basic SD40-2/45-2 frame was stretched several feet to allow for an enlarged radiator compartment at the rear of the long hood. Instead of the traditional placement of the radiator fans on the long hood roof, above the radiator cores and intake grills, the T-2 design placed the radiator fans and a diffuser assembly inside of the hood, below the radiator cores, and above a large, open radiator intake area placed at walkway level, resulting in faster, more efficient cooling. SP 8300, built in 1974, would be the first SD40T-2, whose fuel-efficient sixteen-cylinder 16-645E3 prime mover would prove to be more popular than the thirsty twenty-cylinder 20-645E3 used in the SD45T-2.
The SD40T-2 quickly became a fixture on the Southern Pacific, with a total of 240 units built for SP (and its Cotton Belt subsidiary) between 1974 and 1980. Built in multiple groups over that time period, they would exhibit various customer option differences, as well as EMD production differences. The first SD40T-2s, SP 8300-8306, and 8350-8356, were equipped with 116” long extended low short hoods to house Locotrol electronic equipment for remote control helper operations. Subsequent deliveries of units equipped with extended “snoot” low short hoods would measure 123” in length, reflecting EMD design changes across the product line. All SP/SSW units featured a large air conditioner housing on the cab roof (a welcome relief in the arid southwest), a 3-chime Nathan P3 airhorn offset to one side of the number board housing, and in the case of the Locotrol-equipped snoots, additional antenna ground planes and related cable conduits on the cab roof.
And of course, the units would be equipped with SP’s traditional Pyle-National “Gyralite” signal light package; while the SP 8300-8306, 8350-8356 only had signal lights on the front, changes to signal light policy saw all subsequent orders equipped with these safety appliances front and rear. The dual clear Gyralite assembly was intended to supplement the standard dual sealed-beam headlights as an attention-getter for motorists and pedestrians, while the single red-lensed Gyralite was meant as a safety feature for other trains. Tied into the brake system, when brake pressure suddenly dropped, in an emergency brake application, as might happen when brake lines parted in a derailment or other mishap, the red Gyralite would automatically illuminate, extinguishing other headlights in the process, as a warning to trains on adjacent tracks that the train was in emergency, and to be wary of derailed equipment possibly fouling the tracks.
In the Rockies, coal hauler Rio Grande faced similar operating challenges as SP in regards to long tunnels and heavy grades, such as the massive Moffat Tunnel, stretching over 6 miles long. Liking what it saw in the SD40T-2, Rio Grande would order them as well, taking delivery of its first units in 1974. Painted black with Aspen gold striping on the ends, sidesill, and number board box, a total of 73 units would be delivered to the Grande. Eschewing cab air conditioning, Rio Grande optioned a dual Mars light, later Gyralite, assembly mounted in the low short hood, and most distinctively, requested a 4,000 gallon fuel tank, in contrast to the longer 4,400 gallon tank specified on all SP/SSW SD40T-2s.
Popular with engine crews and maintenance forces alike, the SD40T-2 would form the backbone of the SP and Rio Grande locomotive fleets well into the 1990s. Physical changes would appear to their fleets over the years; as a cost-cutting measure during the mid 1980s, as SP was struggling during an economic downturn, as well as the failed SPSF merger, the distinctive Gyralite signal lights, with their electric motors and moving parts, started to be removed, replaced by Prime Stratolite “digital” rotary beacons on the cab roof. Also deleted were the expensive engineer’s side “L” front cab windows, replaced by cheaper, more standardized pieces of impact-resistant glazing.
On Rio Grande’s fleet, changes were subtle; following the success of their SD50s, beginning in 1985, Rio Grande began to retrofit their SD40T-2 with Positive Traction Control, or PTC (different from the definition of PTC in the 2000s), which promised increased tractive effort on par with the newer SD50s. The retrofit consisted of wheelslip sensors added to all axles, as well as an electronic control cabinet added to the walkway behind the cab, on the conductor’s side. By 1989, the SP/SSW and Rio Grande SD40T-2 fleets would become one, with the purchase of Southern Pacific by Rio Grande Industries, with the better-known Southern Pacific name being used as the corporate image for the combined companies.
Into the 1990s, the SD40T-2s soldiered on. In 1991, the SP “Speed Lettering” paint scheme was introduced, with elements taken from both SP and Rio Grande. With a backlog of tired units needing overhauls and fresh paint, only a relatively small number of SP and Rio Grande SD40T-2s would be repainted into the striking new livery, but they looked sharp amongst a sea of grungy locomotives. While the new livery showed promise for a railroad that had struggled throughout the 1980s and was seemingly getting back on its feet in the 1990s, it was to be short lived, as Union Pacific would acquire Southern Pacific in 1996, with the merger taking effect on 9-11-96. As with past merger acquisitions, UP quickly absorbed the combined SP/SSW/DRGW SD40T-2 fleet, with many receiving coats of UP Armour yellow and gray. Others would receive new UP-system numbers in the form of a “patch” over their old numbers.
Into the 2000s, as newer, more fuel-efficient locomotives came online, the SD40T-2s that had served so well for over thirty years slowly started to fade from use on the UP. However, not all were to meet the scrapper’s torch; some would be sold, and go on to careers with shortline or regional railroads, such as KCS and Wheeling & Lake Erie. While far removed from the western tunnels and snowsheds they were designed for, these venerable machines soldier on for their new owners, and should continue to do so for years to come.
SP and EMD would collaborate on finding a solution to the problem. One idea that was tested in the late 1960s was “Elephant Ears”, large sheet-metal airfoils, applied to the radiator intakes of various members of SP’s large SD45 fleet. While effective at their intended purpose of directing a greater volume of cooling air towards the radiators, and reducing overheating problems, they were a maintenance hassle that blocked easy access to numerous hood doors. Engine crews also disliked them, as they could be an impediment on the walkways. A more permanent solution would be found in 1972, with the delivery of the first SD45T-2 to SP. Cataloged by EMD as an extra-cost option of their basic SD45-2 … “SD45-2 with cooling system modifications”, as described in EMD product manuals from the early 1970s … the SD45T-2 built upon the basic principle of the elephant ears, but in a permanent package. A success, SP would order a “T-2” variant of the SD45T-2s cousin, the SD40-2.
For the SD40T-2, the basic SD40-2/45-2 frame was stretched several feet to allow for an enlarged radiator compartment at the rear of the long hood. Instead of the traditional placement of the radiator fans on the long hood roof, above the radiator cores and intake grills, the T-2 design placed the radiator fans and a diffuser assembly inside of the hood, below the radiator cores, and above a large, open radiator intake area placed at walkway level, resulting in faster, more efficient cooling. SP 8300, built in 1974, would be the first SD40T-2, whose fuel-efficient sixteen-cylinder 16-645E3 prime mover would prove to be more popular than the thirsty twenty-cylinder 20-645E3 used in the SD45T-2.
The SD40T-2 quickly became a fixture on the Southern Pacific, with a total of 240 units built for SP (and its Cotton Belt subsidiary) between 1974 and 1980. Built in multiple groups over that time period, they would exhibit various customer option differences, as well as EMD production differences. The first SD40T-2s, SP 8300-8306, and 8350-8356, were equipped with 116” long extended low short hoods to house Locotrol electronic equipment for remote control helper operations. Subsequent deliveries of units equipped with extended “snoot” low short hoods would measure 123” in length, reflecting EMD design changes across the product line. All SP/SSW units featured a large air conditioner housing on the cab roof (a welcome relief in the arid southwest), a 3-chime Nathan P3 airhorn offset to one side of the number board housing, and in the case of the Locotrol-equipped snoots, additional antenna ground planes and related cable conduits on the cab roof.
And of course, the units would be equipped with SP’s traditional Pyle-National “Gyralite” signal light package; while the SP 8300-8306, 8350-8356 only had signal lights on the front, changes to signal light policy saw all subsequent orders equipped with these safety appliances front and rear. The dual clear Gyralite assembly was intended to supplement the standard dual sealed-beam headlights as an attention-getter for motorists and pedestrians, while the single red-lensed Gyralite was meant as a safety feature for other trains. Tied into the brake system, when brake pressure suddenly dropped, in an emergency brake application, as might happen when brake lines parted in a derailment or other mishap, the red Gyralite would automatically illuminate, extinguishing other headlights in the process, as a warning to trains on adjacent tracks that the train was in emergency, and to be wary of derailed equipment possibly fouling the tracks.
In the Rockies, coal hauler Rio Grande faced similar operating challenges as SP in regards to long tunnels and heavy grades, such as the massive Moffat Tunnel, stretching over 6 miles long. Liking what it saw in the SD40T-2, Rio Grande would order them as well, taking delivery of its first units in 1974. Painted black with Aspen gold striping on the ends, sidesill, and number board box, a total of 73 units would be delivered to the Grande. Eschewing cab air conditioning, Rio Grande optioned a dual Mars light, later Gyralite, assembly mounted in the low short hood, and most distinctively, requested a 4,000 gallon fuel tank, in contrast to the longer 4,400 gallon tank specified on all SP/SSW SD40T-2s.
Popular with engine crews and maintenance forces alike, the SD40T-2 would form the backbone of the SP and Rio Grande locomotive fleets well into the 1990s. Physical changes would appear to their fleets over the years; as a cost-cutting measure during the mid 1980s, as SP was struggling during an economic downturn, as well as the failed SPSF merger, the distinctive Gyralite signal lights, with their electric motors and moving parts, started to be removed, replaced by Prime Stratolite “digital” rotary beacons on the cab roof. Also deleted were the expensive engineer’s side “L” front cab windows, replaced by cheaper, more standardized pieces of impact-resistant glazing.
On Rio Grande’s fleet, changes were subtle; following the success of their SD50s, beginning in 1985, Rio Grande began to retrofit their SD40T-2 with Positive Traction Control, or PTC (different from the definition of PTC in the 2000s), which promised increased tractive effort on par with the newer SD50s. The retrofit consisted of wheelslip sensors added to all axles, as well as an electronic control cabinet added to the walkway behind the cab, on the conductor’s side. By 1989, the SP/SSW and Rio Grande SD40T-2 fleets would become one, with the purchase of Southern Pacific by Rio Grande Industries, with the better-known Southern Pacific name being used as the corporate image for the combined companies.
Into the 1990s, the SD40T-2s soldiered on. In 1991, the SP “Speed Lettering” paint scheme was introduced, with elements taken from both SP and Rio Grande. With a backlog of tired units needing overhauls and fresh paint, only a relatively small number of SP and Rio Grande SD40T-2s would be repainted into the striking new livery, but they looked sharp amongst a sea of grungy locomotives. While the new livery showed promise for a railroad that had struggled throughout the 1980s and was seemingly getting back on its feet in the 1990s, it was to be short lived, as Union Pacific would acquire Southern Pacific in 1996, with the merger taking effect on 9-11-96. As with past merger acquisitions, UP quickly absorbed the combined SP/SSW/DRGW SD40T-2 fleet, with many receiving coats of UP Armour yellow and gray. Others would receive new UP-system numbers in the form of a “patch” over their old numbers.
Into the 2000s, as newer, more fuel-efficient locomotives came online, the SD40T-2s that had served so well for over thirty years slowly started to fade from use on the UP. However, not all were to meet the scrapper’s torch; some would be sold, and go on to careers with shortline or regional railroads, such as KCS and Wheeling & Lake Erie. While far removed from the western tunnels and snowsheds they were designed for, these venerable machines soldier on for their new owners, and should continue to do so for years to come.
Warranty Registration
Downloadable Documentation
Downloadable ESUX Sound & Control Files