EMD SD40
The EMD SD40 is a six-axle, 3,000-horsepower diesel-electric road locomotive produced by the Electro-Motive Division (EMD) of General Motors from January 1966 to July 1972, featuring a turbocharged 16-cylinder 645E3 prime mover that marked a significant advancement in EMD's engine lineup.[1][2][3] Introduced amid the escalating "horsepower race" among locomotive manufacturers in the 1960s, the SD40 was designed for heavy freight service on mainline railroads, offering improved reliability and tractive effort over predecessors like the SD35 through its robust welded construction and the new 645-series engine, which replaced the aging 567 series.[1][2] A total of 1,268 standard SD40 units were built, with an additional 18 high-hood SD40A variants produced for Canadian railroads between 1969 and 1970 to meet clearance requirements; these locomotives weighed approximately 368,000 pounds, measured 65 feet 8 inches in length, and were equipped with HT-C trucks, a 3,200-gallon fuel capacity, and dynamic braking for enhanced control on grades.[4][2][3] The SD40's production spanned a period of rapid expansion in North American railroading, with major operators including the Union Pacific, Burlington Northern, Southern Pacific, and Canadian National acquiring fleets for transcontinental freight hauls; its robust design, including a welded carbody with large access doors and a spacious cab, contributed to its reputation for a smooth ride and ease of maintenance, allowing it to handle diverse terrains from mountain passes to flatlands.[1][4] Early prototypes were tested on modified SD35 frames in 1964, with the first production unit delivered to the Chicago & North Western Railway, validating the model's 3,000 hp rating at 65 mph top speed and 82,100 pounds of continuous tractive effort.[2][3] Despite being succeeded by the more advanced SD40-2 in 1972—which incorporated improved modular electrical controls and over 4,000 units built—the original SD40's legacy endures, as hundreds remain in service as of 2025 on Class I railroads, short lines, and excursions, often rebuilt as SD40-3s with modern electronics to extend their operational life well into the 21st century.[1][2] The SD40 represented a pinnacle of second-generation diesel technology. Its enduring popularity stems from proven durability in high-mileage applications, influencing subsequent EMD designs and symbolizing the peak of second-generation diesel technology in the post-World War II era.[1]Development and History
Origins and Design Goals
In the mid-1960s, American railroads faced increasing demands for more powerful locomotives to handle expanding heavy freight traffic on mainlines, prompting Electro-Motive Division (EMD) to develop advanced diesel-electric designs.[1] This era marked a shift in EMD's engineering focus toward higher reliability and output, as older models struggled with the growing scale of operations.[2] A key aspect of this evolution was EMD's transition from the long-serving 16-cylinder 567 engine series, which had powered locomotives since 1939, to the new 645 series prime mover. Introduced in 1965, the 645 featured a larger displacement of 645 cubic inches per cylinder compared to the 567's 567, allowing for greater power while maintaining compatibility with existing engine blocks for easier upgrades.[2] This change aimed to enhance reliability through improved durability and efficiency, addressing wear issues in high-mileage freight service.[2] The SD40's specific design goals centered on delivering 3,000 horsepower in a six-axle C-C truck configuration, optimized for sustained heavy-haul performance on challenging grades and long trains.[1] This addressed limitations of predecessors like the 2,500-hp SD35 and GP40, which lacked sufficient tractive effort for evolving freight demands.[2] Influenced by competition from ALCO's Century series, particularly the 3,000-hp C630 introduced in 1965, EMD sought to offer a versatile, low-maintenance alternative in the intensifying horsepower race of the decade.[5] Railroad operators, including the Atchison, Topeka and Santa Fe (AT&SF) and Southern Pacific (SP), provided critical feedback during early testing, emphasizing needs for better stability and power distribution.[1] Key development milestones included the completion of the first prototype in mid-1964, built on an SD35 frame and tested on various U.S. railroads with a 645 engine and AR10 alternator.[1] Nine black-painted demonstrator SD40 units were built in early 1965 and subjected to extensive trials across North America.[6] The official announcement of the "40-Line" series, including the SD40, occurred in June 1965, positioning it as a turbocharged advancement in EMD's lineup.[6]Production Timeline
The EMD SD40 entered production in January 1966, with a total of 1,268 units manufactured by General Motors Electro-Motive Division through August 1972.[2] This output marked a significant expansion in EMD's six-axle locomotive lineup, driven by demand for high-horsepower freight haulers amid post-World War II rail modernization efforts. The first production unit was delivered to the Chicago & North Western Railway in November 1966.[2] Production progressed in distinct phases reflecting incremental design refinements. The early phase, spanning 1966 to 1967, offered dynamic braking as an option, with resistor grids housed in the long hood; a high short hood was available as an option for certain railroads, alongside the standard 16-645E3 engine and three 48-inch radiator fans.[7] By the mid-phase in 1968, EMD shifted to a low short hood configuration as standard for improved crew visibility and aerodynamics, while retaining core mechanical components.[7] Build rates reached a peak in 1966, exceeding 200 units annually, as railroads rushed to acquire these 3,000-horsepower machines to replace aging steam and first-generation diesels.[2] In the late phase from 1971 to 1972, updates included adoption of flexicoil-C trucks for enhanced stability on heavy freight and improved cooling systems to address overheating issues reported in earlier models.[7] However, output slowed during this period due to economic pressures, including the 1970-1971 recession and rising fuel costs that tempered railroad capital spending.[8] Production of the standard SD40 ceased in January 1972 with the introduction of the upgraded SD40-2, though a small number of final orders were completed by August 1972 to fulfill existing contracts.[1]Technical Specifications
Engine and Powertrain
The EMD SD40 utilized the 16-645E3 prime mover, a turbocharged V16 two-stroke diesel engine that served as the locomotive's primary power source. This engine featured a bore of 9 1/16 inches and a stroke of 10 inches per cylinder, yielding 645 cubic inches of displacement per cylinder for a total of 10,320 cubic inches. Rated at 3,000 horsepower at 900 rpm, the 16-645E3 incorporated a single-stage exhaust-gas turbocharger to boost air intake and combustion efficiency, enabling higher power density than earlier naturally aspirated or roots-blown designs. Compared to the predecessor 567 series engines, the 645 series achieved notable fuel efficiency gains due to the larger bore size, optimized combustion chamber, and turbocharging, which reduced throttling losses and improved low-speed torque delivery.[9][10] Power from the prime mover was transmitted through a diesel-electric system, with the engine directly coupled to the main generator, designated as the GM AR10 alternator, which converted mechanical energy into electrical power. This alternator supplied direct current to six EMD D77 DC traction motors, one per axle, mounted on the locomotive's C-C trucks. The system employed full-field excitation for precise control of motor output, allowing the SD40 to maintain consistent power across varying loads. Dynamic braking was integrated via onboard resistor grids that dissipated energy as heat during deceleration, reducing wear on mechanical brakes and enhancing control on grades. The traction setup included a 62:15 gear ratio, enabling a top speed of 65 mph while balancing acceleration and efficiency for freight service. Starting tractive effort reached 92,000 lbf at 25% adhesion, dropping to a continuous rating of 82,100 lbf at 11 mph, sufficient for hauling heavy trains on mainline routes. The total locomotive weight of 368,000 pounds was evenly distributed across the two C-C trucks at approximately 184,000 pounds each, optimizing adhesion and stability under load.Structural Features
The EMD SD40 featured a robust road-switcher body design optimized for heavy freight service, measuring 65 feet 8 inches in length over the pulling faces of the couplers. The locomotive's carbody consisted of a welded underframe serving as the primary load-bearing structure, with integrated collision posts at the low front hood for enhanced crash resistance. The cab, positioned between a short hood and a long dynamic-braking hood, incorporated large windows for visibility and dual control stands to facilitate operation in either direction, a standard feature for bidirectional running in yard and road service. Early production units (1966–1967) utilized a high short hood for improved crew protection and visibility when running long hood forward, while later phases transitioned to a lower short hood starting around 1968, alongside refinements like an additional rear roof-mounted radiator fan and a rectangular turbocharger stack positioned forward of the dynamic brake blister.[3][2] The underbody supported six-axle HT-C trucks, each with a 13-foot 7-inch wheelbase and 40-inch diameter wheels, providing the C-C wheel arrangement essential for distributing the locomotive's weight across rough track while maintaining high tractive effort. These trucks employed a primary suspension system with coil springs and elastomeric pads for shock absorption, complemented by a center-plate bolster design that ensured lateral stability and minimized derailment risk on uneven rail. The overall width measured 10 feet (cab sheeting), expanding to 10 feet 3 inches over handholds and grab irons, with a height of 15 feet 5¼ inches from the top of the rail to the exhaust stack, allowing clearance under standard loading gauges. Operating weight was 368,000 pounds, reflecting the balance between power output and adhesion requirements for mainline freight hauling.[3][4][2] Safety and operational comfort were prioritized through multiple unit (MU) capability, enabling lashups of up to five or more units for distributed power in heavy trains, with standardized electrical and air brake connections for seamless control. Unlike the passenger-oriented SDP40 variant, the SD40 omitted a steam generator to reduce weight and maintenance, focusing instead on freight efficiency with provisions for dynamic braking grids housed in the long hood. Couplers were Type E standard, incorporating anti-climber profiles and rubber draft gearing for shock mitigation during impacts, an early adoption that met evolving Interstate Commerce Commission requirements for secure coupling and crew protection. Additional features included ICC-compliant steps, handrails, and guard chains at both ends, along with sand application systems (56 cubic feet capacity) for traction enhancement on slippery rails.[3][2]Production and Distribution
Manufacturing Details
The EMD SD40 locomotives were primarily assembled at Electro-Motive Division's main facility in McCook, Illinois, which served as the hub for U.S. production during the model's run from 1966 to 1972. Canadian variants were manufactured at the General Motors Diesel (GMD) plant in London, Ontario, where approximately 330 units were built to serve domestic railroads. This division of labor allowed EMD to meet North American demand efficiently while leveraging GMD's capacity for regional adaptations.[11] Production utilized a streamlined assembly line process, with locomotives advancing through stages from prime mover installation—typically the standardized 16-cylinder 645E3 diesel engine—to electrical system integration, truck mounting, and final painting. Units were moved between workstations via 200-ton overhead cranes, enabling high-volume output of up to 10 locomotives per day at peak efficiency in the La Grange/McCook complex; this workflow benefited from shared components across models, including frames and power assemblies common to the SD45 and GP40, which reduced inventory needs and accelerated build times. For international markets, EMD incorporated minor customizations to suit buyer specifications, such as enhanced cooling systems for high-temperature environments in the six SD40 units exported to the Guinea-Boke aluminum project in West Africa. These adaptations ensured reliable performance in tropical conditions without altering core design elements.[11] Quality assurance involved rigorous factory protocols, including load testing on dynamometers to verify tractive effort and engine performance under simulated rail conditions, prior to shipment. All units complied with Association of American Railroads (AAR) standards for mechanical interchangeability and safety, facilitating seamless integration into North American rail networks.Original Owners and Orders
The EMD SD40 saw widespread adoption among North American railroads following its introduction in 1966, with production spanning until 1972. A total of 856 units were delivered to U.S. owners, reflecting the model's appeal for heavy freight service on major lines. The largest U.S. purchasers included the Missouri Pacific with 90 locomotives (road numbers 700-789, built 1967-1971), Southern Pacific with 89 units (road numbers 8400-8488, built 1966-1968), and Union Pacific with 115 units (road numbers 3000-3114, built 1966-1971). Other significant early orders included 65 units to the Pennsylvania Railroad (road numbers 6040-6104, built February-March 1966) and 20 units to the Atchison, Topeka and Santa Fe Railway (road numbers 1700-1719, built March-May 1966). These orders were typically placed through Electro-Motive Division's La Grange, Illinois facility, with build dates clustered in 1966-1967 for early adopters seeking to modernize fleets with the 3,000 hp turbocharged 16-645E3 engine.[11] Canadian railroads accounted for 330 SD40s, primarily built by General Motors Diesel (GMD) in London, Ontario, to meet domestic demand for versatile six-axle power. The Canadian National Railway placed the largest order, totaling 241 units across production phases from 1967 to 1971 (road numbers 5000-5240). Canadian Pacific Railway ordered 65 units (road numbers 5500-5564, built 1966-1967), with Quebec North Shore and Labrador (QNS&L) receiving 21 units (road numbers 200-220, built 1968-1971). Orders were often staggered to align with expansion projects.[11] Internationally, 72 units were supplied to Ferrocarriles Nacionales de México (NdeM) between 1968 and 1972 (road numbers 8500-8571), supporting Mexico's national rail network expansion. Smaller export orders included 6 units to the Guinea-Boke Project for bauxite mining transport (built August 1972, road numbers 101-106) and 4 units to Rede Ferroviária Federal (RFFSA) in Brazil (built April 1967, road numbers 3701-3704, adapted for 1,600 mm gauge). These international deliveries highlighted the SD40's adaptability, with modifications for local gauges and climates, though they represented a minor fraction of overall production. Bulk ordering patterns mirrored U.S. and Canadian trends, with NdeM's initial batch in 1968.[11]| Region | Major Owner | Quantity | Representative Build Dates | Notes |
|---|---|---|---|---|
| U.S. | Missouri Pacific | 90 | 1967–1971 | Largest U.S. fleet; road numbers 700-789 for Midwest freight |
| U.S. | Southern Pacific | 89 | 1966–1968 | Road numbers 8400-8488 for Western routes |
| U.S. | Union Pacific | 115 | 1966–1971 | Road numbers 3000-3114; phased for transcontinental operations |
| U.S. | Pennsylvania Railroad | 65 | Feb–Mar 1966 | Road numbers 6040-6104; early production for Northeast service |
| U.S. | Atchison, Topeka and Santa Fe | 20 | Mar–May 1966 | Road numbers 1700-1719; initial order for Southwest freight |
| Canada | Canadian National | 241 | 1967–1971 | GMD-built; road numbers 5000-5240; largest single fleet for cross-Canada hauls |
| Canada | Canadian Pacific | 65 | 1966–1967 | Road numbers 5500-5564; focused on prairie and mountain divisions |
| International | Ferrocarriles Nacionales de México | 72 | 1968–1972 | Road numbers 8500-8571; key for Mexican mainline expansion |
| International | Guinea-Boke Project | 6 | Aug 1972 | Road numbers 101-106; export for industrial mining rail |
| International | RFFSA (Brazil) | 4 | Apr 1967 | Road numbers 3701-3704; gauge-adapted for South American use |
Operational Use
Service History
The EMD SD40 entered revenue service in 1966, quickly becoming a mainstay for heavy transcontinental freight on major North American railroads such as the Atchison, Topeka and Santa Fe Railway, Burlington Northern, and Union Pacific.[1] These locomotives powered demanding routes, including Santa Fe's high-speed Super C intermodal train, which operated between Chicago and Los Angeles from 1968 to 1976 and set records for freight speed.[1] During the 1960s and 1970s, SD40s handled bulk commodity trains across vast distances, contributing to the era's expansion in rail freight volume.[2] Early operations revealed challenges in extreme conditions, particularly in hot climates and tunnels, where related variants like the SD40T-2 were developed with improved cooling.[12] Despite these adaptations, the SD40's robust frame and traction allowed it to excel in high-tonnage service, with many units accumulating over a million miles in their initial assignments.[1] In the 1980s and 1990s, as Class I railroads modernized fleets with SD40-2 and AC-traction models, surplus SD40s underwent mid-life transfers to regional and short line carriers.[1] Leasing firms such as Helm Financial played a key role, acquiring and remarketing units to operators like the Illinois Central Gulf and various switching railroads for local freight and yard duties.[13] Internationally, exports bolstered the model's legacy; Mexico's National Railways of Mexico received dozens for mainline service, while second-hand units from U.S. owners were shipped to Australia for BHP's iron ore operations in the Pilbara region starting in the early 2000s.[1][14][15] By the 2010s, stringent EPA emissions standards accelerated widespread retirements among original SD40s, with major carriers phasing them out in favor of compliant rebuilds or newer locomotives.[16] However, the type persisted in low-density applications on short lines and industrial railroads, where regulatory scrutiny was lighter and maintenance costs remained viable; hundreds of original and rebuilt SD40s continue in service as of 2024, often in helper or transfer roles, with many upgraded through rebuild programs to meet modern standards.[2][1] Notable incidents involving SD40s were infrequent but occasionally linked to the high-adhesion HT-C truck design, which contributed to rare derailments on tight curves under heavy loads, echoing issues seen in related variants like the SDP40F.[17] Overall, the model's durability enabled service lives exceeding 40 years for many units, underscoring its status as a reliable workhorse in freight railroading.[1]Performance and Impact
The EMD SD40's engineering success was marked by its robust reliability, enabling the locomotive to achieve high operational uptime.[2] The 3,000-horsepower 16-645E3 engine provided efficient power delivery for heavy-haul operations while maintaining operational uptime.[18] These attributes made the SD40 a cornerstone of freight service, reducing downtime and maintenance costs compared to earlier models. Economically, the SD40 played a pivotal role in transforming North American railroading by enabling longer trains of up to 100 cars, thanks to its high starting tractive effort of 92,000 pounds at 25% adhesion.[2][4] This capability contributed to merger-era efficiencies, such as those realized by the Penn Central Transportation Company, where SD40s facilitated cost savings through reduced crew needs and optimized train consists during the consolidation of the Pennsylvania and New York Central railroads in 1968. Over 1,200 units were produced between 1966 and 1972, underscoring its market dominance and positive impact on railroad profitability amid rising freight volumes.[2] The SD40's technological legacy is evident in the standardization of the 645 engine platform, which became the basis for all subsequent EMD six-axle locomotives, including the GP38, SD38, and long-running SD40-2 series, influencing designs through the 1980s with its modular two-stroke architecture.[2] However, the model faced environmental critiques for its high emissions profile prior to the EPA's 1973 locomotive standards, as the unfiltered 645E3 engine produced elevated NOx and particulate matter levels—baseline rates around 12.5 g/bhp-hr for NOx in line-haul service—without modern controls, contributing to air quality concerns in urban rail corridors.[19] In comparative terms, the SD40 surpassed ALCO contemporaries like the Century 4300 series in parts availability and overall reliability, as EMD's widespread adoption and supply chain support minimized downtime, while ALCO's designs suffered from higher maintenance demands and less consistent performance.[20] Nonetheless, it was outpaced by the SD40-2's introduction in 1972, which incorporated modular components, solid-state controls, and enhanced frame design for superior maintainability and reduced wheel slip.[2]Variants and Derivatives
Standard Derivatives
The SDP40 was a passenger-service adaptation of the SD40, incorporating a steam generator for car heating and an extended fuel tank to support extended runs without refueling. Built between June 1966 and May 1970, a total of 64 units were produced, with early examples including six for the Great Northern Railway in 1966 to replace F-units on regional trains like the Western Star. These locomotives retained the SD40's 3,000 hp 16-645E3 engine but featured a 65-foot-8-inch body length similar to the base model, with options for Vapor-Clarkson steam boilers.[21] The SD40A represented a cowl-unit variation designed for improved crew comfort and operational efficiency, featuring a full-width body that allowed walk-through access from cab to engine room. Electro-Motive Division constructed 18 examples exclusively for the Illinois Central Railroad, delivered in two batches between August 1969 and January 1970 as numbers 6006–6023. Mechanically identical to the SD40 with its 3,000 hp turbocharged 16-645E3 prime mover and dynamic brakes, the SD40A utilized a stretched frame derived from the SDP45 to increase fuel capacity by 1,000 gallons, addressing the Illinois Central's needs for long-haul freight on its Chicago-to-New Orleans mainline.[22] Succeeding the SD40 as its primary production follow-on, the SD40-2 introduced the "Dash-2" suite of enhancements in January 1972, including modular electrical systems with solid-state components for reduced maintenance, improved AR10 alternators, and HT-C trucks for better tractive effort and wheel-slip control. Retaining the 3,000 hp 16-645E3 engine, over 3,982 units were manufactured through 1984, far exceeding the original SD40's 1,268 examples and becoming a staple for heavy freight service across North American railroads.[2] Export adaptations of the SD40 for international markets included modifications for local loading gauges and track conditions. In Australia, the Commonwealth Railways CL class comprised 17 units built under license by Clyde Engineering between 1970 and 1972, mechanically based on the SD40 with its 3,000 hp V16-645E3 engine but featuring a streamlined "bulldog" cab and adjusted body width for standard-gauge operations; these locomotives later served Queensland Rail National after the 1975 merger into Australian National Railways. Similarly, Victorian Railways' C class consisted of 10 units produced by Clyde Engineering in 1977–1978, derived from the SD40 platform with minor gauge and safety cab adaptations for broad-gauge heavy-haul duties in Victoria, powered by the same 3,000 hp engine and restricted to 80 km/h speeds.[23]Experimental and Special Builds
The EMD 434 served as the primary testbed for the development of the 16-cylinder 645-series diesel engine that powered the SD40 locomotive. Constructed in July 1964 on an SD35 frame modified with three large radiator fans to accommodate the new prime mover's cooling requirements, it was initially used for in-house testing at EMD's La Grange, Illinois facility. In 1965, it was outshopped as a demonstrator unit, painted in blue and yellow to mimic Atchison, Topeka and Santa Fe colors for field trials on that railroad, where it logged thousands of miles evaluating the engine's performance, reliability, and integration with the SD40's electrical systems.[24][25] Following the demonstration period, EMD 434 was sold to the Gulf, Mobile and Ohio Railroad in 1966 and renumbered as GM&O 950, entering revenue freight service on routes in the Midwest. After the 1972 merger creating the Illinois Central Gulf Railroad, it was rebuilt with updated components, including improvements to its electrical systems, and renumbered IC 6071, continuing in service for over three decades on mixed freight duties until retirement around 2009. The locomotive's long operational life provided valuable data on the 645 engine's durability in real-world conditions, influencing subsequent EMD designs. Today, it is preserved in operational condition at the Monticello Railway Museum in Monticello, Illinois, where it occasionally runs excursions to demonstrate early SD40 technology.[26][27] Another notable experimental adaptation of SD40 technology was the SDP40F, a passenger-specific variant developed for high-speed service on Amtrak's long-distance routes. Built between June 1973 and August 1974, these 150 units featured a stretched 72-foot frame to house a steam generator for train heating and additional water tanks, while retaining the 3,000-horsepower 16-645E3 engine and six-axle C-C configuration of the SD40 series. To enhance traction and stability at speeds up to 100 mph, they were equipped with HTC (high-tensile-capacity) trucks, a high-adhesion design intended to improve performance on uneven track common to passenger corridors. However, operational issues soon emerged, including frequent low-speed derailments attributed to the trucks' rigid frame and dynamic instability, compounded by water sloshing in the oversized tanks that shifted the center of gravity. Amtrak retired the fleet by 1981 after extensive testing and modifications failed to fully resolve the problems, though some units were traded back to EMD for further experimentation with traction systems.[28][29] Early experiments with dynamic braking enhancements were conducted on Union Pacific prototypes, which tested improved resistor grid configurations and extended-range dynamic brake systems integrated into the SD40's design. These UP units, among the first production SD40s delivered in 1966, incorporated larger cooling intakes and refined control logic to increase braking efficiency on long mountain grades, providing data that standardized dynamic braking across the SD40 fleet and influenced later variants like the SD40-2. The tests confirmed the system's ability to handle sustained downhill operations without overheating, marking a significant advancement in locomotive safety and energy recovery.[24][30]Rebuilds and Modernizations
Rebuild Programs
In the late 1970s and 1980s, railroads began implementing rebuild programs to prolong the operational life of aging EMD SD40 locomotives through targeted component replacements aimed at enhancing reliability and reducing maintenance costs. Southern Pacific Transportation Company launched one such initiative in 1980-1981, overhauling its SD40 fleet by upgrading to Dash-2 electrical systems while retaining the original 16-645E3 prime movers, which improved electrical efficiency and overall dependability without altering horsepower ratings.[31] Conrail followed with a similar effort in the early 1990s, rebuilding 40 SD40 units at its Juniata Locomotive Shop into SD40-2R configuration by incorporating Dash-2 modular controls and other updates, extending their service into the late 20th century.[32] Morrison-Knudsen's overhaul programs in the 1980s represented a more comprehensive approach, producing the SD40M-2 series from donor SD40, SD45, and SDP45 locomotives for clients including Union Pacific and Southern Pacific. These rebuilds featured entirely new cabs for improved crew comfort, AR10 alternators for enhanced electrical output, and refurbished 16-645 prime movers to preserve the 3,000 horsepower rating, effectively creating near-new units with extended lifespans.[33] During the 1990s, VMV Enterprises in Paducah, Kentucky, specialized in SD40-3 rebuilds, focusing on modernization for better efficiency; these involved integrating microprocessor-based control systems to optimize fuel consumption and throttle response, with around 50 units produced primarily for short-line and regional operators like Kansas City Southern.[34][35] To meet evolving environmental regulations, SD40 rebuilds in the 2000s increasingly incorporated EPA Tier 0 emissions compliance measures, including retrofit kits from EMD that added exhaust aftertreatment devices such as oxidation catalysts to the 645-series prime movers, reducing particulate matter and other pollutants during remanufacturing.[36][37] These adaptations ensured continued viability for pre-1973 locomotives under the 2000 EPA standards for remanufactured units.Upgraded Models
The Southern Pacific Transportation Company undertook a major rebuild program for its EMD SD40 locomotives at its Sacramento General Shops between March 1980 and August 1981, resulting in 86 units designated as the SD40R class.[38] These locomotives received new cabs for improved crew comfort and safety, along with refurbished 16-645E3 prime movers that enhanced reliability and efficiency compared to the originals.[38] The program also incorporated Dash 2 electrical systems for better control and performance, extending the service life of these units on SP's freight operations across the western United States.[38] In the 1990s, Montana Rail Link rebuilt approximately 10 EMD SD40 and SDP40 locomotives to SD40-2XR standards at its Livingston Shops, designating them for "extra reliable" service on long-haul routes.[39] The upgrades focused on enhanced durability for the railroad's demanding transcontinental operations, including reinforced components to handle extended runs across remote terrain.[39] These experimental units, such as MRL 261, were often assigned to specialized services like the Gas Local, supporting petroleum transport between Missoula and Thompson Falls.[39] Burlington Northern Santa Fe (BNSF) conducted rebuilds of former Canadian National and Grand Trunk Western SD40 locomotives into SD40-2 standards at Alstom's Point St. Charles shop, incorporating quiet exhaust kits to meet noise regulations and improve environmental compliance.[40] Numbered 7300-7339, these 40 units featured updated cabs and electrical systems for continued mainline freight duty.[40] Many upgraded SD40-series locomotives continue in active service across North American Class I railroads as of 2025, reflecting ongoing modernization efforts to sustain these versatile workhorses.Preservation
Preserved Locomotives
Several EMD SD40 locomotives and close variants have been preserved statically in museums and historical collections worldwide, highlighting their historical significance in freight railroading. These preservations often focus on cosmetic restorations or full operational rebuilds to educate the public on mid-20th-century diesel technology. Several SD40-series units are preserved, with some restored to operational status for occasional excursions.[41] A notable Canadian example is Canadian Pacific Railway SD40 No. 5500, the first SD40 built in Canada by General Motors Diesel in London, Ontario, in 1966. Retired in 2007 after over four decades of service hauling freight across the Rockies, it was donated to the Revelstoke Railway Museum in British Columbia, where it underwent cosmetic restoration and remains on static display adjacent to the mainline, symbolizing CP's early adoption of high-horsepower diesels. The museum has been fundraising for further restoration work.[42][43] In the United States, BNSF SD40 No. 5008 (ex-ATSF 1708, later renumbered 5008), constructed in 1966, is preserved at the Walt Disney Hometown Museum in Marceline, Missouri. Cosmetically restored to its iconic blue-and-yellow Warbonnet livery by a former Santa Fe engineer who operated it for 41 years, the locomotive stands as a static exhibit outside the former Santa Fe depot, evoking the railroad's role in midwestern transport and its cultural ties to Walt Disney's childhood inspirations.[44][45] Another key U.S. preservation is Union Pacific SD40-2C No. 3105 (originally Missouri Pacific No. 6027, built in 1979), located at the RailGiants Train Museum in Pomona, California. Donated by UP in 2014 as part of an exchange for historical artifacts, it is the only operational SD40-2C in preservation and occasionally runs under its own power during museum events, demonstrating upgraded "Dash 2" electrical systems and C-C truck modifications for heavy-haul service.[46][47] Illinois Central Gulf also contributes significant preserved units, including SD40 No. 6071—the prototype SD40, built by EMD in July 1964 as a demonstrator (originally EMD No. 434). After service on the Gulf, Mobile and Ohio and later IC, it was retired in 2009 and donated to the Monticello Railway Museum in Illinois, where it is statically displayed. Nearby, IC SD40A No. 6014 (built 1969 with an extended fuel tank for long-haul routes) is owned by Railexco in Union, Illinois, and undergoing full restoration to operational condition as of 2025, preserving the unique "A-unit" design tailored for IC's Chicago-to-New Orleans mainline.[26][48] Internationally, Australia's preserved Commonwealth Railways CLP class—based on the SD40 design and built by Clyde Engineering in the early 1970s—includes CLP No. 10 (original CL No. 17), the last streamliner-style EMD locomotive produced globally. Acquired by Streamliners Australia in 2018 after storage, it is under restoration in Cootamundra, New South Wales, retaining its passenger-hauling modifications and high-nose cab for static and potential heritage runs. In Mexico, Ferrocarriles Nacionales de México SD40 No. 805 (built 1975) is on display at the Yucatán Railway Museum in Mérida, representing NdeM's adoption of U.S.-style heavies for cross-border freight, with cosmetic upkeep emphasizing its role in Yucatán's agricultural transport history. Other notable preservations include Chesapeake and Ohio SD40 No. 7534 at the C&O Railway Museum in Clifton Forge, Virginia, and Milwaukee Road SD40 No. 308 at the Illinois Railway Museum.[49][50][41]| Locomotive | Original Owner | Build Year | Location | Status (2025) | Historical Significance |
|---|---|---|---|---|---|
| CP 5500 (SD40) | Canadian Pacific | 1966 | Revelstoke Railway Museum, BC, Canada | Static, cosmetic restoration | First Canadian-built SD40; Rocky Mountain service icon.[42] |
| BNSF 5008 (SD40, ex-ATSF 1708/5008) | Atchison, Topeka & Santa Fe | 1966 | Walt Disney Hometown Museum, Marceline, MO | Static, restored livery | Symbol of midwestern rail heritage; operator-restored.[44] |
| UP 3105 (SD40-2C variant) | Missouri Pacific/Union Pacific | 1979 | RailGiants Train Museum, Pomona, CA | Operational for demos | Unique SD40-2C; heavy-haul upgrade example.[46] |
| IC 6071 (SD40) | Illinois Central Gulf (ex-EMD demo) | 1964 | Monticello Railway Museum, IL | Static | Prototype SD40 worldwide.[26] |
| IC 6014 (SD40A) | Illinois Central | 1969 | Railexco, Union, IL | Under restoration to operational | Rare extended-fuel SD40A for long runs.[48] |
| CLP 10 (SD40-based) | Commonwealth Railways/Aurizon | 1972 | Streamliners Australia, Cootamundra, NSW | Under restoration | Last EMD streamliner built; passenger heritage.[50] |
| NdeM 805 (SD40) | Ferrocarriles Nacionales de México | 1975 | Yucatán Railway Museum, Mérida | Static display | Key to Mexican freight expansion.[41] |