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BMW M40
BMW M40
BMW M40
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BMW M40 engine
Overview
ManufacturerBMW
Production1987–1994
Layout
ConfigurationNaturally aspirated straight-4
Displacement
  • 1.6 L (1,596 cc)
  • 1.8 L (1,796 cc)
Cylinder bore84 mm (3.31 in)
Piston stroke72 mm (2.83 in)
81 mm (3.19 in)
Cylinder block materialCast iron
Cylinder head materialAluminium
ValvetrainSOHC
Combustion
Fuel systemFuel injection
ManagementBosch Motronic 1.3 or 1.7
Fuel typePetrol
Cooling systemWater cooled
Chronology
PredecessorBMW M10
SuccessorBMW M43

The BMW M40 is an SOHC straight-four petrol engine which was produced from 1987–1994.[1][2] It served as BMW's base model four-cylinder engine and was produced alongside the higher performance BMW M42 DOHC four-cylinder engine from 1989 onwards.

Compared with its M10 predecessor, the M40 uses a belt-driven camshaft,[3] and hydraulic tappets. Like the M10, the M40 uses an iron block and an aluminium head. Fuel injection for the E30 versions is Bosch Motronic 1.3,[4] and the E36 versions use Bosch Motronic 1.7.[5][6]

Following the introduction of the BMW M43 engine in 1991, the M40 began to be phased out.

Versions

[edit]
Version Displacement Power Torque Year
M40B16-
E30 version		 1,596 cc (97.4 cu in) 73 kW (99 PS; 98 hp)
at 5,500 rpm		 141 N⋅m (104 lb⋅ft)
at 4,250 rpm		 1987
M40B16-
E36 version		 75 kW (102 PS; 101 hp)
at 5,500 rpm		 143 N⋅m (105 lb⋅ft)
at 4,250 rpm		 1991
M40B18-
E30 version		 1,796 cc (109.6 cu in) 83 kW (113 PS; 111 hp)
at 5,500 rpm		 162 N⋅m (119 lb⋅ft)
at 4,250 rpm		 1987
M40B18-
E36 version		 85 kW (116 PS; 114 hp)
at 5,500 rpm		 165 N⋅m (122 lb⋅ft)
at 4,250 rpm		 1991

M40B16

[edit]

The M40B16 is a 1,596 cc (97.4 cu in) version of the M40, which has a bore of 84 mm (3.3 in) and a stroke of 72 mm (2.8 in).[7] It produces 73 kW (98 hp) and 142 N⋅m (105 lb⋅ft).[8]

Applications:

M40B18

[edit]

The M40B18 is a 1,796 cc (109.6 cu in) version of the M40, which has a bore of 84 mm (3.3 in) and a stroke of 81 mm (3.2 in).[7] It produces 83 kW (113 PS) and 163 N⋅m (120 lb⋅ft).[6]

Applications:

See also

[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

BMW M40

View on Grokipedia
from Grokipedia
The M40 is a family of inline-four, naturally aspirated petrol engines produced by from 1987 to 1994, featuring a cast-iron block, aluminum crossflow head, single overhead (SOHC) with two valves per , and belt-driven timing system, designed as the successor to the earlier M10 engine for entry-level models. Introduced in September 1987 with the 1.8-liter M40B18 variant in the facelifted E30 3 Series 318i, the M40 series incorporated hydraulic valve lifters for reduced maintenance and Bosch 1.3 (E30) or 1.7 (E36) electronic for improved efficiency and emissions compliance compared to its predecessor. The 1.6-liter M40B16 followed in 1988 for the E30 316i, sharing the same architecture but with a shorter stroke for lower displacement. Production emphasized reliability and lighter weight than the M10 while delivering modest power outputs suited to compact executive vehicles. The M40B18 produced 113–114 horsepower at 5,500 rpm and 160–165 Nm of at around 4,250 rpm, with a of 9:1 and bore/stroke dimensions of 84 mm by 81 mm. The M40B16 offered 98–101 horsepower and 143 Nm, using a 84 mm bore and 72 mm stroke. These s powered models such as the E30 316i and 318i (1987–1991), E36 316i and 318i (1991–1994), and E34 518i (1988–1994), providing economical performance in BMW's 3 Series and 5 Series lineups before being replaced by the DOHC M42 and SOHC M43 series in 1994. Known for longevity up to 180,000 miles with proper maintenance, common issues include timing belt wear, which can lead to damage if neglected, and sensitivity to overheating.

Design and engineering

Block and internals

The BMW M40 engine utilizes a block, providing durability and thermal stability for its inline-four configuration, with a uniform bore diameter of 84 mm across both variants. The is constructed from aluminum alloy in a , optimizing and heat dissipation while mating to the block via a multi-layer steel gasket. At the core of the internals is a featuring eight counterweights for balance, with a stroke of 72 mm in the M40B16 variant—yielding a displacement of 1,596 cc—and 81 mm in the M40B18 variant, resulting in 1,796 cc. The pistons are made of lightweight , each fitted with two compression rings (measuring 1.5 mm and 1.75 mm thick) and a single three-piece oil control ring (totaling 3 mm thick) to manage sealing and lubrication within the cylinders. Both variants maintain a of 9:1, with the M40B16 at exactly 9.0:1 and the M40B18 at 9:1, achieved through precise crown shaping and chamber control. The oil pan bolts directly to the lower block, forming an integrated system that ensures consistent lubrication under varying loads by housing the oil pump pickup and baffle structures to minimize sloshing.

Valvetrain and timing

The BMW M40 engine features a single overhead (SOHC) with eight s total, arranged as two per for efficient gas flow. The valves have a diameter of 42 mm, while the exhaust valves measure 36 mm in diameter, optimizing airflow while maintaining compactness in the aluminum . Valve operation relies on hydraulic tappets, which provide automatic adjustment for clearance and eliminate the need for periodic manual shimming or adjustment, reducing requirements and ensuring consistent performance over time. These tappets use engine oil pressure to maintain zero lash, compensating for and wear in the components. The timing mechanism employs a belt-driven system, where the is synchronized to the via a toothed rubber timing belt. This setup includes a hydraulic to automatically maintain belt tension and an idler to guide the belt path, preventing slippage under varying loads. Although designed for reliability, the M40 operates as an , meaning a timing belt can lead to severe damage, such as bent valves from contact, necessitating prompt replacement at recommended intervals of approximately 60,000 miles or 4 years. This configuration promotes moderate overlap for smooth transitions between exhaust and intake strokes, contributing to the 's balanced low-end and mid-range power delivery.

Fuel and ignition systems

The BMW M40 features an integrated electronic and controlled by Bosch management units, enabling precise air-fuel mixture control and spark timing for optimal efficiency and emissions performance. In E30 3 Series applications, the system employs Bosch 1.3 with multi-point , utilizing four injectors—one per cylinder—to deliver directly into the ports. The setup includes a hot-film to measure incoming air volume and temperature, paired with a throttle body for airflow regulation, allowing the ECU to calculate precise delivery based on engine load and speed. pressure is maintained at 3.0 bar by a regulator, ensuring consistent injector performance across operating conditions. For E36 3 Series applications, the M40 upgrades to Bosch Motronic 1.7, incorporating refined ECU mapping for enhanced response and adaptability. The minimum requirement is 87 AKI unleaded , supporting the engine's 9:1 without under normal use. The is electronic and distributor-based, generating spark via a central coil and distributor rotor to sequence delivery to each . Emissions compliance is achieved through lambda closed-loop control, where an monitors exhaust gases to adjust the air-fuel ratio in real-time, optimizing operation of the for reduced hydrocarbon and carbon monoxide output.

Development and production

Background and introduction

The BMW M40 engine was developed in the mid-1980s as part of BMW's effort to modernize its base four-cylinder lineup, specifically to address the limitations of the aging M10 engine's pushrod design, which had been in production since the and was increasingly outdated for contemporary performance and efficiency demands. This new inline-four piston engine marked a significant evolution, incorporating a single (SOHC) configuration driven by a timing belt, similar to the six-cylinder M20, while retaining an iron block and aluminum head for a balance of durability and weight savings. Introduced in September 1987 with the facelifted E30 3 Series, the M40 debuted in the 318i model, powering the updated plastic-bumper variants and signaling BMW's transition away from pushrod architectures in its entry-level engines. A key feature was the inclusion of hydraulic tappets with finger rockers, which eliminated the need for periodic adjustments and reduced compared to the M10's solid lifters. The 1.6-liter version followed in 1988 for the 316i, fully phasing out the M10 by August of that year. Positioned as an economy-oriented powerplant, the M40 complemented the more performance-focused DOHC M42 engine introduced in , offering improved fuel economy and drivability for everyday use while meeting the emissions standards prevalent in during the late , prior to the formal Euro 1 regulations of 1992. Initial production occurred at BMW's plant in , with a primary design goal of lighter weight to enhance delivery and overall without sacrificing reliability.

Production years and facilities

The BMW M40 engine entered series production in September 1987 as BMW's new base four-cylinder powerplant, replacing the outgoing M10, and remained in manufacture until December 1994, with limited continuation in select markets into 1995. The engine's production timeline aligned closely with the final years of the E30 3 Series and the early phase of the E36 3 Series, during which it powered entry-level models before being supplanted by the refined M43 successor. The M40B16 variant was built from 1988 to 1994, while the M40B18 saw production from 1987 to 1993 in the E30 and from 1990 to 1994 in the E36, reflecting BMW's strategy to phase in the engine across generations. Overall output exceeded 800,000 units across both variants, based on aggregated model-specific production figures from BMW's technical data systems. Primary assembly occurred at BMW's dedicated engine facility in , , which had commenced series production of inline engines in May 1982 and became a cornerstone for the company's four- and six-cylinder petrol units. Key electronic components, including the Bosch Motronic 1.3 and 1.7 fuel injection and ignition systems, were supplied by Robert Bosch GmbH to ensure compliance with evolving European emissions and performance standards. Production of the M40 wound down from 1994 onward as BMW transitioned to the M43, an evolution of the SOHC design incorporating a plastic intake manifold for improved efficiency and reduced weight, primarily for E36 applications. This shift marked the end of the M40's role as BMW's entry-level inline-four, after which the M43 carried forward similar architecture with enhancements until 2001.

Variants and specifications

M40B16

The BMW M40B16 is the 1.6-liter variant of the M40 engine family, featuring a displacement of 1,596 cc with a bore of 84 mm and a of 72 mm. This version was designed as an economy-oriented option, sharing the core block design with other M40 engines but tuned for balanced performance in entry-level models. In the E30 3 Series applications, the M40B16 delivers 73 kW (98 hp) at 5,500 rpm and 141 N⋅m (104 lb-ft) of torque at 4,250 rpm, with a of 6,000 rpm. Equipped in the E30 316i, it achieves 0-100 km/h acceleration in approximately 12 seconds. For the E36 3 Series, the engine receives minor tuning refinements, producing 75 kW (101 hp) at 5,500 rpm and 143 N⋅m (105 lb-ft) of torque at 4,250 rpm, maintaining the same . The primary difference between the E30 and E36 installations lies in the , with the E30 using Bosch 1.3 for fuel and ignition management, while the E36 employs the updated 1.7 for more refined mapping and emissions compliance. The dry weight of the M40B16 is approximately 120 kg. Fuel economy in combined driving cycles typically ranges from 7-8 L/100 km, depending on transmission and configuration.
ParameterE30 316iE36 316i
Power73 kW (98 hp) @ 5,500 rpm75 kW (101 hp) @ 5,500 rpm
Torque141 N⋅m (104 lb-ft) @ 4,250 rpm143 N⋅m (105 lb-ft) @ 4,250 rpm
ECUMotronic 1.3Motronic 1.7
0-100 km/h~12 secondsN/A (similar )

M40B18

The BMW M40B18 is the 1.8-liter displacement variant of the M40 engine family, with a total capacity of 1,796 cc achieved through an 84 mm bore and 81 mm stroke. This configuration provided a balance of performance and efficiency for entry-level models in the E30 and E36 3 Series lines. In the E30 3 Series, the M40B18 delivered 83 kW (111 hp) at 5,500 rpm and 162 N⋅m (119 lb⋅ft) of torque at 4,250 rpm, paired with a redline of 6,000 rpm. Equipped in the E30 318i, it achieved 0-100 km/h acceleration in approximately 11 seconds. The engine utilized Bosch Motronic 1.3 engine control, featuring a slightly richer fuel mapping to support the older chassis dynamics. For the E36 3 Series, tuning adjustments increased output to 85 kW (114 hp) at 5,500 rpm and 165 N⋅m (122 lb⋅ft) of at 4,250 rpm, maintaining the same 6,000 rpm redline. This version employed Bosch 1.7, optimized for improved mid-range response and smoother power delivery in the newer platform. The dry weight of the M40B18 is approximately 122 kg, contributing to agile handling in its applications. Combined fuel economy typically ranged from 7.5 to 8.5 L/100 km, depending on driving conditions and transmission. The M40B18 shared the same SOHC valvetrain architecture as other M40 family members and powered 318i variants in both the E30 and E36 models.

Applications

E30 3 Series

The BMW M40 engine was introduced in the E30 3 Series as part of the 1987 facelift, replacing the earlier M10 inline-four in entry-level models. The 316i trim level featured the M40B16 variant, a 1.6-liter unit producing 98 hp (73 kW) at 5,500 rpm and 104 lb-ft (141 Nm) of torque at 4,250 rpm, and was offered from 1987 to 1994 primarily in sedan form. The 318i trim utilized the larger M40B18, a 1.8-liter outputting 111 hp (83 kW) at 5,500 rpm and 119 lb-ft (162 Nm) of torque at 4,250 rpm, also spanning 1987 to 1994. This model was available across multiple body styles, including sedan, , , and touring (introduced in 1987 for the European market). These M40-equipped E30 variants were standard in European markets, where they provided efficient yet modest performance for daily driving. In contrast, North American specifications for the 318i adopted the more advanced M42 DOHC starting in 1989, bypassing the M40 entirely due to emissions and performance preferences. Transmission choices for the M40-powered E30 3 Series included a 5-speed manual as standard, with a ZF 4-speed automatic available as an option for both the 316i and 318i. Overall production of E30 3 Series units fitted with the M40 engine reached approximately 404,000.

E36 3 Series

The BMW M40 engine was integrated into the E36 3 Series platform starting in 1990, following the chassis's European launch in late 1990, with adaptations including revised mounting points and exhaust routing to suit the newer body's compact executive design. This integration allowed the M40 to power entry-level models, emphasizing and accessibility in markets where higher-displacement six-cylinder options were less common. The 316i variant utilized the M40B16 engine, delivering 100 hp (73 kW) at 5,500 rpm, and was offered in sedan and body styles from 1990 to 1994. These models were primarily targeted at European and Asian markets, where demand for economical four-cylinder powertrains was strong, and were phased out earlier in select regions as the successor M43 engine was introduced. Transmission options included a five-speed manual or the ZF 4HP18 four-speed automatic, providing versatility for urban and highway driving. Similarly, the 318i employed the M40B18 engine, producing 113 hp (83 kW) at 5,500 rpm, and was available in sedan form from 1990 to 1993, extending to and configurations through 1994. Like the 316i, it focused on and , serving as a bridge between base and performance-oriented variants in the lineup. It paired with the same five-speed manual or ZF 4HP18 automatic transmissions, with minor ECU mapping updates for E36-specific emissions compliance. Overall, approximately 399,000 E36 3 Series vehicles were produced with M40 engines, reinforcing the powertrain's contribution to BMW's compact executive positioning during the early .

E34 5 Series

The M40B18 engine powered the entry-level 518i model in the E34 5 Series from 1989 to 1994, offering 113 hp (83 kW) at 5,500 rpm and 122 lb-ft (165 Nm) of at 4,250 rpm. Available in sedan and touring body styles, it provided economical performance for the larger executive sedan, primarily in European markets. Transmission options included a five-speed manual or four-speed automatic.

Reliability and maintenance

Common issues

The BMW M40 , while reliable overall, exhibits several recurring problems related to its belt-driven , cooling system, fuel delivery, seals, electrical sensors, and intake integrity. These issues often manifest after miles of use and can lead to performance degradation or costly repairs if unaddressed. One of the most critical concerns is timing belt failure, as the narrow belt wears rapidly under normal operating conditions and requires replacement every 60,000 miles to prevent catastrophic damage. Breakage or slippage can result in valve-to-piston interference, bending valves despite some claims of non-interference , necessitating a full teardown for repair. Overheating is another frequent issue, exacerbated by the engine's sensitivity to cooling system and the use of components in early models. The impeller in the water pump is particularly prone to wear or detachment, reducing flow and causing temperature spikes, especially in . Symptoms include boiling , hard radiator hoses, and excessive use from the running hot; prolonged overheating often warps the or blows the , leading to loss and gas intrusion into the cooling system. Dirty fuel injectors commonly develop after 100,000 miles due to fuel residue buildup, causing uneven fuel atomization and spray patterns. This results in symptoms such as rough or lumpy , noticeable power loss during acceleration, and increased fuel consumption by up to 20% as the compensates with richer mixtures. Oil leaks are prevalent from the valve cover gasket, which hardens and cracks with age, allowing oil to seep onto exhaust components and potentially cause burning smells or smoke. Similarly, the rear main seal fails due to wear and high mileage, leading to oil dripping from the bell housing area, low oil levels, and puddles under the vehicle even when parked. Electrical faults often involve the , which can fail from heat exposure or wiring degradation, preventing the engine from starting altogether as the ECU loses timing reference signals. The idle air control valve is susceptible to sticking from carbon deposits, causing low or unstable speeds (e.g., 500–600 RPM when cold), hesitation under throttle, and stalling, particularly noticeable during cold starts. Misfires frequently stem from vacuum leaks in the intake manifold, where gaskets degrade or hoses crack, introducing unmetered air that disrupts the air-fuel ratio. This leads to lean running conditions, rough idle, hesitation, and intermittent cylinder misfires, often worsening under load.

Maintenance requirements

The BMW M40 engine requires regular timing belt replacement every 60,000 miles or 4 years, whichever occurs first, to prevent potential engine damage from belt failure; this service should include the water pump and for comprehensive preventive maintenance. Engine oil changes are recommended every 7,500 miles using 5W-30 , with a refill capacity of 4.0 liters to ensure proper and longevity of internal components. The cooling system should be flushed every 2 years using BMW-specified to avoid overheating issues common in aluminum-block engines like the M40. Fuel injectors benefit from every 50,000 miles or periodic use of fuel additives to maintain optimal spray patterns and prevent buildup-related performance degradation. Due to the M40's hydraulic valve lifters, no manual valve adjustment is required, though owners should inspect for unusual noise every 30,000 miles and replace lifters if necessary to address ticking sounds. Spark plugs should be replaced every 30,000 miles, with NGK BKR6E recommended for reliable ignition in the M40's SOHC setup.

References

  1. https://www.bmwblog.com/2023/07/06/bmw-m40-m42-m43-and-m44-engines-explained/
  2. https://www.motorreviewer.com/engine.php?engine_id=68
  3. https://www.torquecars.com/bmw/m40-tuning.php
  4. https://www.motorreviewer.com/engine.php?engine_id=65
  5. https://www.engine-specs.net/bmw/m40b16.html
  6. https://www.engine-specs.net/bmw/m40b18.html
  7. https://www.e30zone.net/e30wiki/index.php/M40
  8. https://www.spannerrash.com/m40-timing-belt-change-service-guide-bmw-e30/
  9. https://www.bimmerworld.com/Intake-Fuel/Intake-Sensors/
  10. https://www.reddit.com/r/E30/comments/pj7qx6/m40_fuel_pressure_at_idle/
  11. https://www.bimmerforums.com/forum/showthread.php?562773-Octane-gas-required-for-E30-s
  12. https://www.e30zone.net/e30wiki/index.php/Ignition
  13. https://www.turnermotorsport.com/BMW-E30-Parts/c-101-bmw-oxygen-sensors-o2-sensors
  14. http://www.e38.org/BMWProductionData.pdf
  15. https://www.myclassicparts.com/wp-content/uploads/2021/10/18_BMW_E36_Production_Numbers_List.pdf
  16. https://www.bmwgroup-werke.com/steyr/en/history.html
  17. https://www.encycarpedia.com/us/bmw/88-316i-sedan
  18. https://www.ultimatespecs.com/car-specs/BMW/1495/BMW-E30-3-Series-316i.html
  19. https://www.auto-data.net/en/bmw-3-series-sedan-e30-facelift-1987-318i-113hp-10076
  20. https://www.bimmerforums.com/forum/showthread.php?1380077-BMW-e30-M40-Engine-Weight-URGENT
  21. https://www.ultimatespecs.com/car-specs/BMW/1496/BMW-E30-3-Series-318i-kat.html
  22. https://prestigeandperformancecar.com/bmw/bmw-3-series-e30-model-guide/
  23. https://www.e30zone.net/e30wiki/index.php/Drivetrain
  24. https://www.myclassicparts.com/wp-content/uploads/2021/10/084_BMW_E30_Production_Data_Numbers_Eng.pdf
  25. https://www.autoevolution.com/cars/bmw-3-series-sedan-e36-1991.html
  26. https://classicsworld.co.uk/guides/bmw-e36-buyers-guide/
  27. https://www.ultimatespecs.com/car-specs/BMW/147/BMW-E36-3-Series-Sedan-316i.html
  28. https://www.ultimatespecs.com/car-specs/BMW/156/BMW-E36-3-Series-Sedan-318i.html
  29. https://www.ultimatespecs.com/car-specs/BMW/167/BMW-E34-5-Series-518i.html
  30. https://www.bimmerforums.com/forum/showthread.php?695560-Timing-belt-snapped-o
  31. https://bimmersport.co.nz/topic/8569-m40-overheating/
  32. https://www.e30zone.net/forum/viewtopic.php?t=157522
  33. https://www.autozone.com/diy/engine/symptoms-of-a-bad-idle-air-control-valve
  34. https://www.bimmerworld.com/Blog/BMW-Valve-Cover-Gasket-Replacement.html
  35. https://www.bimmerforums.com/forum/showthread.php?2373819-e30-m40-316i-crank-or-cam-sensor
  36. https://www.e30zone.net/forum/viewtopic.php?t=281660
  37. https://www.e30zone.net/forum/viewtopic.php?t=21243
  38. https://www.bimmerworld.com/BMW-Engine-Oil/
  39. https://www.pelicanparts.com/BMW/techarticles/E36-Coolant_Flush/E36-Coolant-Flush.htm
  40. https://www.e30zone.net/e30wiki/index.php/Cleaning_injectors
  41. http://forums.pelicanparts.com/101-projects-discussion-forum-bmw-3-series/273443-m40-valve-adjustment.html
  42. https://www.bimmerfest.com/threads/m40-spark-plugs-replacement.103704/
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