Historical Context:
The BMW 316 (E30) was a key model in BMW's strategy to offer a compact, sporty, and luxurious sedan. It served as an entry-level option in the highly successful 3 Series lineup, competing against rivals like the Mercedes-Benz 190E and Audi 80/90.
Strengths:
Renowned for its driving dynamics, build quality, and premium feel, the E30 316 offered a refined driving experience for its class.
Chassis Design:
Iconic E30 chassis known for its balanced handling and responsive steering.
Powertrain Philosophy:
Emphasis on smooth power delivery and efficient operation for daily driving.
Engine Mechanical:
Engine overhaul, cylinder head, block assembly, pistons, crankshaft, camshaft, valve train
Engine Management:
Fuel injection system (e.g., Bosch L-Jetronic/Motronic variations), ignition system, sensors, actuators, ECU diagnostics
Transmission:
Manual transmission overhaul and repair, clutch system, driveshafts, differential
Suspension:
Front and rear suspension components, shock absorbers, springs, control arms, bushings, wheel bearings
Steering:
Steering rack, power steering system (if equipped), steering column, linkages
Brakes:
Front and rear brake systems (disc/drum), hydraulic system, master cylinder, brake lines, calipers, pads, rotors, parking brake
Electrical System:
Wiring diagrams, battery, alternator, starter, lighting system, instrument cluster, fuses, relays
Body And Chassis:
Body panel removal and installation, interior trim, seats, doors, hood, trunk, chassis components
Heating And Ventilation:
HVAC system, blower motor, heater core, A/C system (if equipped)
Routine Maintenance:
Oil changes, filter replacements, spark plug replacement, coolant flush, lubrication points
Troubleshooting:
Diagnostic procedures for common drivability issues, electrical faults, mechanical problems
Repair And Overhaul:
Detailed step-by-step instructions for engine rebuilds, transmission overhauls, suspension component replacement, brake system repairs
Component Replacement:
Instructions for replacing specific parts such as alternators, starters, fuel pumps, water pumps, thermostats, radiators
Adjustment And Calibration:
Valve adjustment, ignition timing adjustment, idle speed adjustment, brake adjustment
Diagnostic Capabilities:
Advanced diagnostics including troubleshooting charts, electrical schematic interpretation, component testing procedures
Rebuilding Procedures:
Comprehensive guidelines for rebuilding major components like the engine and transmission, including torque specifications and clearances
Specifications And Tolerances:
Detailed technical specifications, measurements, and wear tolerances for all major components
Engine Type:
Inline 4-cylinder, naturally aspirated
Engine Code Example:
M10B18
Displacement:
1.8 Liters (1766 cc)
Bore X Stroke:
89.0 mm x 71.0 mm
Compression Ratio:
Typically 8.3:1 to 9.5:1 depending on specific variant
Horsepower Est:
Approximately 90-105 hp (DIN) at 5500-5800 rpm
Torque Est:
Approximately 140-155 Nm (103-114 lb-ft) at 3000-3500 rpm
Injection System:
Bosch L-Jetronic or Motronic (likely L-Jetronic for early models, transitioning to Motronic)
Fuel Type:
Unleaded Gasoline (RON 95/98)
Fuel Pump Type:
Electric, in-tank
Body Styles:
2-door sedan, 4-door sedan, Convertible, Touring (wagon) - Manual likely covers sedan variants primarily.
Wheelbase:
2570 mm (101.2 in)
Length:
Approx. 4325 mm (170.3 in) for sedan
Width:
Approx. 1670 mm (65.7 in)
Height:
Approx. 1380 mm (54.3 in) for sedan
Curb Weight Est:
Approx. 1150 - 1250 kg (2535 - 2755 lbs)
Gross Vehicle Weight Rating:
Typically around 1650 kg
Historical Safety Standards:
Designed to meet European safety standards of the era. Independent crash test data may be limited or vary by region.
Brakes:
Front ventilated discs, rear drum brakes (standard). ABS was optional on later models, not typically on the 316.
Steering Stability:
Well-balanced chassis contributing to inherent stability.
Seatbelts:
3-point front seatbelts, 2-point rear seatbelts (later models may have 3-point rear).
Body Structure:
Reinforced passenger cell and crumple zones characteristic of BMW engineering.
Oil Change Interval Est:
Every 5,000 - 7,500 miles or 6-12 months, whichever comes first (depending on driving conditions).
Spark Plug Replacement Interval:
Typically every 20,000 - 30,000 miles.
Coolant Flush Interval:
Every 2-3 years or 30,000 miles.
Timing Belt Replacement:
The M10 engine is a timing chain engine, not a belt, hence no replacement interval for a belt.
Engine Oil Type Est:
API SF or SG, SAE 10W-40 or 15W-40 (check manual for exact BMW approval).
Engine Oil Capacity Est:
Approximately 4.5 liters (4.8 US quarts) with filter change.
Coolant Type:
Ethylene glycol-based antifreeze, typically a 50/50 mix with distilled water.
Brake Fluid Type:
DOT 3 or DOT 4 (check manual).
Transmission Fluid Manual:
GL-4 gear oil, e.g., SAE 75W-90 or SAE 80W-90.
Transmission Fluid Automatic:
Dexron II (or equivalent DEXRON compatible fluid).
Engine M10:
Can be robust but susceptible to oil leaks (valve cover gasket, oil pan gasket), potential cooling system issues (thermostat, water pump), and carburation/injection system tuning.
Electrical:
Corrosion on connectors, aging wiring harnesses, instrument cluster failure (frequently cracked solder joints on PCB).
Suspension Bushings:
Wear in control arm bushings, sway bar links, and subframe mounts, leading to clunking noises and poor handling.
Rust:
Prone to rust in common areas like wheel arches, rocker panels, strut towers, and battery tray area.
Bmw Legacy:
BMW's reputation for building driver-focused vehicles with excellent engineering and build quality.
E30 Introduction:
The E30 generation of the 3 Series was introduced in 1982 and ran until 1991, representing a significant evolution from the E21.
316 Positioning:
The 316 was positioned as the most affordable and fuel-efficient 3 Series model, offering the core BMW driving experience to a wider audience.
Manufacturing Locations:
Primarily manufactured in Germany (e.g., Dingolfing, Munich).
Production Period:
1983-1988 for the specific models covered by this manual.