2002 Ford Escape Lug Nut Torque & Bolt Specs
The 2002 Ford Escape lug nut torque is 100 ft-lbs (136 Nm), tightened with a 19mm socket on M12x1.5 studs. Torque in a star pattern in two passes (snug, then final), and re-check after the first 50–100 miles of driving. Use a calibrated torque wrench — not an impact gun — for the final pass.
Lug nut torque: 100 ft-lbs (136 Nm) · Socket size: 19mm · Thread: M12x1.5.
This page is the OEM-referenced fastener summary for the 2002 Ford Escape. Use it before any maintenance or repair job where torque values matter — brake work, wheel changes, suspension service, engine teardowns, or oil changes. Specs are pulled from manufacturer service literature, cross-checked against community data, and updated as new chassis variants become available.
Ford lug-nut torque varies more by chassis than most makes — 100 ft-lbs for Focus/Fusion/Fiesta, 150 ft-lbs for half-ton F-150, and 165 ft-lbs for Super Duty F-250/F-350. F-150s from 2004-2014 use a 21mm OEM socket, while 2015+ aluminum-body trucks moved to the larger 22mm. Ford torque-to-yield (TTY) head bolts are standard from the early 2000s — do not reuse them, ever.
Common fastener categories on the 2002 Ford Escape
- Wheel / lug nut torque and thread spec (covered above)
- Brake caliper bracket bolts (typically 80-130 ft-lbs) and slide/guide pins (18-35 ft-lbs)
- Engine oil drain plug torque — rarely above 30 ft-lbs; always use a new crush washer
- Transmission pan, valve cover, and intake manifold bolts (low torque, often 89-106 in-lbs)
- Suspension control arm, sway bar, tie rod end and ball joint torque
- Spark plug torque (typically 10-15 ft-lbs on aluminum heads — do not exceed)
- Differential cover bolts (RWD/4WD only) and transfer case fasteners
Repair guidance for this model year
For 2002 model-year work: Always use a calibrated torque wrench for safety-critical fasteners, and replace lock washers and crush washers on every reassembly.
Tools you will need
- Metric socket set (8mm-22mm), 6-point impact-rated
- Calibrated torque wrench (10-150 ft-lbs covers most automotive jobs; add a 0-250 ft-lbs wrench for truck lug nuts)
- Breaker bar (24" minimum) for initial loosening
- Penetrating oil (PB Blaster or Kroil) for any fastener over 5 years old
- Anti-seize on stainless or dissimilar-metal threads; thread-locker (Loctite blue) on critical reassembly
Frequently asked questions
What is the lug nut torque on a 2002 Ford Escape?
The OEM-specified lug-nut torque for the 2002 Ford Escape is 100 ft-lbs (136 Nm), using a 19mm socket on M12x1.5 thread studs. Use a calibrated torque wrench in a star pattern, in two passes (50% and 100%), and re-check after 50-100 miles of driving.
What socket size do I need for the 2002 Ford Escape lug nuts?
The 2002 Ford Escape uses a 19mm socket. A 6-point impact-rated socket is recommended over a 12-point chrome socket — 12-points round off lug nuts under impact-driver use.
Are the 2002 Ford Escape fasteners metric or SAE?
Metric is the standard for this vehicle. Most fasteners on this vehicle are metric (M6, M8, M10, M12, M14). Bring a full metric set; SAE substitutes can round the head. Bolt-head markings are the fastest way to confirm grade and material at the bench.
Other Ford Escape years
Same model, different model year — fastener spec may change. Always confirm against the year for your VIN.
- 2025 Ford Escape lug nut torque
- 2024 Ford Escape lug nut torque
- 2023 Ford Escape lug nut torque
- 2022 Ford Escape lug nut torque
- 2021 Ford Escape lug nut torque
- 2020 Ford Escape lug nut torque
- 2019 Ford Escape lug nut torque
- 2018 Ford Escape lug nut torque
- 2017 Ford Escape lug nut torque
- 2016 Ford Escape lug nut torque
- 2015 Ford Escape lug nut torque
- 2014 Ford Escape lug nut torque
- 2013 Ford Escape lug nut torque
- 2012 Ford Escape lug nut torque
- 2011 Ford Escape lug nut torque
- 2010 Ford Escape lug nut torque
→ 2002 Ford Escape oil drain plug torque & size
→ 2002 Ford Escape suspension & steering torque specs (control arm, ball joint, tie rod)
All 59 2002 Ford Escape fastener specs
Per-bolt torque, wrench size, and thread spec for the 2002 Ford Escape, sourced from OEM service literature and verified against community shop data. Values pair imperial (ft-lb) and metric (Nm) where the manufacturer publishes both.
Wheels — 2002 Ford Escape
Wheel and lug nut spec for the 2002 Ford Escape. Wheel lug nut tightens to 100 ft-lbs (136 Nm), takes a 19mm driver, runs on M12x1.5 threads, located at the wheels.
Brakes — 2002 Ford Escape
Brake fasteners on the 2002 Ford Escape — caliper bracket, slide pins, and banjo bolt torque follow. The front caliper slide pin bolts (all) uses a 7mm hex (Allen) or T47 Torx drive on a M8 thread, torqued to 24-26 ft-lbs (33-35 Nm) [varies by year: 2001-2004: 26 ft-lbs; 2005-2007 4WD: 33 ft-lbs] at the caliper slide pins / guide pins. At the front brake caliper, the brake caliper bolt torques to 22-25 ft-lbs (13mm drive, M8x1.25 thread). For the brake rotor to hub, one screw per side, plan for a T20 Torx (Phillips on some) tool on a M5 stud; final torque is 10-15 in-lbs / 1-1.7 ft-lbs (1-2 Nm) (rotor retaining screw (all)). Rear caliper slide pin bolts (all (4-wheel disc models)) tightens to 26 ft-lbs (35 Nm), takes a 7mm hex driver, runs on M8 threads, located at the rear caliper slide pins. The rear caliper bracket bolts (all (4-wheel disc models)) uses a 13mm drive on a M10 thread, torqued to 26 ft-lbs (35 Nm) at the rear caliper bracket to rear knuckle. At the caliper anchor plate/bracket to steering knuckle, two bolts per side, the front caliper bracket bolts (all) torques to 100 ft-lbs (136 Nm) [2001-2006: 111 ft-lbs / 150 Nm] (18mm drive, M12x1.5 thread). For the front axle, plan for a 15mm tool on a M10x1.5 stud; final torque is 85 ft-lbs (115 Nm) (front caliper bracket bolt). Lug nuts (all) tightens to 100 ft-lbs (136 Nm), takes a 19mm driver, runs on M12x1.5 threads, located at the wheel studs to wheel.
Engine — 2002 Ford Escape
Engine bolt-by-bolt torque for the 2002 Ford Escape, including the long block, valve covers, and intake. At the valve cover to cylinder head, the valve cover bolts (2.3l duratec dohc i4) torques to 106 in-lbs / 8 ft-lbs (9 Nm) (8mm drive, M6 thread). For the valve covers to cylinder heads (two covers), plan for a 8mm tool on a M6 stud; final torque is 89 in-lbs / 7.4 ft-lbs (10 Nm) (valve cover bolts (3.0l duratec dohc v6)). Crankshaft pulley bolt (2.0l zetec dohc i4) tightens to 85 ft-lbs (115 Nm), takes a 22mm driver, runs on M16x1.5 threads, located at the crankshaft snout, front of engine. The oil drain plug uses a 13mm drive on a M13x1.5 thread, torqued to 18-22 ft-lbs at the oil pan. At the bottom of oil pan, the oil drain plug (2.3l duratec dohc i4) torques to 10 ft-lbs (14 Nm) (15mm drive, M12x1.5 thread). For the crankshaft snout, front of engine, plan for a 22mm tool on a M16x1.5 stud; final torque is Stage 1: 120 Nm (89 ft-lbs); Stage 2: Loosen 360 degrees; Stage 3: 50 Nm (37 ft-lbs); Stage 4: +90 degrees (crankshaft pulley bolt (3.0l duratec dohc v6)). Exhaust manifold nuts (3.0l duratec dohc v6) tightens to 15 ft-lbs (20 Nm), takes a 13mm driver, runs on M8 threads, located at the exhaust manifold studs, both left and right banks. The oil drain plug (2.0l zetec dohc i4) uses a 15mm drive on a M12x1.5 thread, torqued to 18-21 ft-lbs (24-28 Nm) at the bottom of oil pan. At the upper intake manifold to lower manifold, the upper intake manifold bolts (3.0l duratec dohc v6) torques to 89 in-lbs / 7.4 ft-lbs (10 Nm) (10mm drive, M8 thread). For the each cylinder head to block (two heads on v6), plan for a T55 Torx tool on a M10x1.25 stud; final torque is Stage 1: 30 ft-lbs (41 Nm); Stage 2: Loosen 1 full turn; Stage 3: 30 ft-lbs (41 Nm); Stage 4: +90 degrees; Stage 5: +90 degrees (cylinder head bolts (3.0l duratec dohc v6)). Timing belt tensioner bolt (2.0l zetec dohc i4) tightens to 18 ft-lbs (24 Nm), takes a 13mm driver, runs on M8 threads, located at the timing belt tensioner pulley to block. The oil drain plug (3.0l duratec dohc v6) uses a 15mm drive on a M12x1.5 thread, torqued to 19 ft-lbs (26 Nm) at the bottom of oil pan. At the end of camshaft, timing chain drive, the camshaft sprocket bolt (2.3l duratec dohc i4) torques to 50 ft-lbs (68 Nm) (T55 Torx drive, M12x1.25 thread). For the timing chain tensioner, both left and right banks, plan for a 10mm tool on a M8 stud; final torque is 18 ft-lbs (24 Nm) (timing chain tensioner bolts (3.0l duratec dohc v6)). Connecting rod bearing bolts (2.0l zetec dohc i4) tightens to Stage 1: 26 ft-lbs (35 Nm); Stage 2: +90 degrees, takes a 10mm driver, runs on M8 threads, located at the connecting rod caps to rod. The valve cover bolts (2.0l zetec dohc i4) uses a 8mm drive on a M6 thread, torqued to 80 in-lbs / 6.7 ft-lbs (9 Nm) at the valve cover to cylinder head. At the cylinder head, one per cylinder (6 total), the spark plugs (3.0l duratec dohc v6) torques to 11 ft-lbs (15 Nm) (16mm (5/8") drive, M14x1.25 thread). For the crankshaft snout, front of engine, plan for a 22mm tool on a M16x1.5 stud; final torque is 85 ft-lbs (115 Nm) (crankshaft pulley bolt (2.3l duratec dohc i4)). Camshaft timing pulley (sprocket) bolt (2.0l zetec dohc i4) tightens to Intake: 50 ft-lbs (68 Nm); Exhaust: 50 ft-lbs (68 Nm), takes a T55 Torx driver, runs on M12x1.25 threads, located at the end of each camshaft, timing belt drive. The timing chain tensioner bolt (2.3l duratec dohc i4) uses a 10mm drive on a M6 thread, torqued to 8 ft-lbs (11 Nm) at the timing chain tensioner to cylinder block. At the main bearing caps to cylinder block, the main bearing cap bolts (3.0l duratec dohc v6) torques to Stage 1: 30 ft-lbs (41 Nm); Stage 2: 60 ft-lbs (81 Nm) (10mm hex drive, M10 thread). For the cylinder head, one per cylinder, plan for a 16mm (5/8") tool on a M14x1.25 stud; final torque is 11 ft-lbs (15 Nm) (spark plugs (2.0l zetec dohc i4)). Intake manifold bolts/nuts (2.0l zetec dohc i4) tightens to 13 ft-lbs (18 Nm), takes a 10mm driver, runs on M8 threads, located at the intake manifold to cylinder head. The oil drain plug (2.5l) uses a 13mm drive on a M14x1.5 thread, torqued to 20 ft-lbs (27 Nm) at the oil pan. At the main bearing caps to cylinder block, the main bearing cap bolts (2.0l zetec dohc i4) torques to Stage 1: 18 ft-lbs (24 Nm); Stage 2: +60 degrees (10mm hex / internal Torx drive, M10 thread). For the connecting rod caps, plan for a 10mm tool on a M8 stud; final torque is Stage 1: 17 ft-lbs (23 Nm); Stage 2: 32 ft-lbs (43 Nm) (connecting rod bearing bolts (3.0l duratec dohc v6)). Intake manifold bolts (2.3l duratec dohc i4) tightens to 13 ft-lbs (18 Nm), takes a 10mm driver, runs on M8 threads, located at the intake manifold to cylinder head. The connecting rod bearing bolts (2.3l duratec dohc i4) uses a 10mm drive on a M8 thread, torqued to Stage 1: 21 ft-lbs (28 Nm); Stage 2: +90 degrees at the connecting rod caps. At the cylinder head to block, 8 bolts in sequence, the cylinder head bolts (2.0l zetec dohc i4) torques to Stage 1: 15 ft-lbs (20 Nm); Stage 2: 30 ft-lbs (40 Nm); Stage 3: +90 degrees (T55 Torx (internal hex) drive, M10x1.25 thread). For the end of each camshaft (4 total on v6), plan for a T50 Torx tool on a M10 stud; final torque is 13.25 ft-lbs (18 Nm) (camshaft sprocket (phaser) bolt (3.0l duratec dohc v6)). Oil pan bolts (2.0l zetec dohc i4) tightens to 15-18 ft-lbs (20-24 Nm), takes a 8mm driver, runs on M6 threads, located at the oil pan to cylinder block, sequence tighten. The lower intake manifold bolts (3.0l duratec dohc v6) uses a 10mm drive on a M8 thread, torqued to 89 in-lbs / 7.4 ft-lbs (10 Nm) at the lower intake manifold assembly to cylinder heads. At the exhaust manifold to cylinder head, stud nuts, the exhaust manifold nuts (2.0l zetec dohc i4) torques to 13 ft-lbs (18 Nm) (13mm drive, M8 thread). For the exhaust manifold studs to cylinder head, plan for a 13mm tool on a M8 stud; final torque is 40 ft-lbs (54 Nm) (exhaust manifold nuts (2.3l duratec dohc i4)). Cylinder head bolts (2.3l duratec dohc i4) tightens to Stage 1: 15 ft-lbs (20 Nm); Stage 2: Loosen 1 full turn; Stage 3: 15 ft-lbs (20 Nm); Stage 4: 30 ft-lbs (41 Nm); Stage 5: +90 degrees; Stage 6: +90 degrees, takes a T55 Torx driver, runs on M10x1.25 threads, located at the cylinder head to block, 10 bolts in sequence. The spark plugs (2.3l duratec dohc i4) uses a 16mm (5/8") drive on a M14x1.25 thread, torqued to 12 ft-lbs (16 Nm) at the cylinder head, one per cylinder. At the aluminum oil pan to lower cylinder block, the oil pan bolts (3.0l duratec dohc v6) torques to 18 ft-lbs (24 Nm) (8mm drive, M6 thread). For the main bearing caps to cylinder block, plan for a 10mm hex tool on a M10 stud; final torque is Stage 1: 10 ft-lbs (14 Nm); Stage 2: 32 ft-lbs (43 Nm); Stage 3: +90 degrees; Stage 4: +90 degrees (main bearing cap bolts (2.3l duratec dohc i4)). Oil pan bolts (2.3l duratec dohc i4) tightens to 18 ft-lbs (24 Nm), takes a 8mm driver, runs on M6 threads, located at the oil pan to block.
Suspension — 2002 Ford Escape
Suspension and chassis fastener torque for the 2002 Ford Escape — strut, control arm, and sway bar values. For the lower control arm pivot and frame mount bolts, plan for a 21mm / 15mm tool on a M14 / M12 stud; final torque is Front pivot: 110 ft-lbs (149 Nm) [21mm]; Rear mount: 85 ft-lbs (115 Nm) [15mm] (front lower control arm bolts (all)). Rear shock upper nut (all) tightens to 22 ft-lbs (30 Nm), takes a 13mm driver, runs on M10 threads, located at the rear shock top mount nut in cargo area. The rear control arm bolts (all) uses a 18mm / 21mm drive on a M14 thread, torqued to Upper arm to body: 129 ft-lbs (175 Nm); Lower arm to body: 129 ft-lbs (175 Nm); Ball joint nut: 46 ft-lbs (62 Nm) at the rear suspension trailing/lateral arms to body. At the rear axle nut at rear hub (awd models), the rear hub/axle nut (all) torques to 160 ft-lbs (217 Nm) (32mm drive, M20x1.5 thread). For the strut lower clamp bolts at steering knuckle, 2 bolts, plan for a 18mm / 21mm tool on a M14x1.5 stud; final torque is 85 ft-lbs (115 Nm) (front strut-to-knuckle bolts (all)). Control arm bolt tightens to 85-95 ft-lbs, takes a 18mm driver, runs on M12x1.75 threads, located at the lower control arm. The front hub/bearing nut (axle nut) (all) uses a 32mm drive on a M22x1.5 or M24x1.5 thread, torqued to 214 ft-lbs (290 Nm) [2001-2005]; 221 ft-lbs (300 Nm) [2006-2007] at the front axle/halfshaft nut at hub. At the outer tie rod end to steering knuckle, the tie rod end nut (all) torques to 41 ft-lbs (56 Nm) (18mm drive, M12x1.25 thread). For the strut upper mounting tower, 3 nuts, plan for a 13mm tool on a M10 stud; final torque is 35 ft-lbs (47 Nm) [2001-2003: 59 ft-lbs (80 Nm); 2004: 41 ft-lbs; 2005-2006: 30 ft-lbs; 2007: 35 ft-lbs] (front strut top nut (upper mounting nuts) (all)). Rear shock lower bolt (all) tightens to 130 ft-lbs (176 Nm), takes a 18mm driver, runs on M14x1.5 threads, located at the rear shock absorber lower mount to trailing arm. The sway bar end link nut (all) uses a 17mm / 6mm Allen drive on a M12 thread, torqued to 35-41 ft-lbs (47-56 Nm) [year varies: 2001-2002: 35; 2003: 32; 2004: 35; 2005-2006: 41; 2007: 46] at the front sway bar end link to strut/control arm.
New to torquing wheels? Read our How lug nut torque works — the complete guide for star-pattern sequence, re-torque intervals, and how to read a lug spec — then use the 2002 Ford Escape numbers above.
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