Land Rover Monthly

Living with a P38

If buying a P38, or already enjoying one, knowing what makes this machine tick will enhance the experience. Ed Evans offers some insights . . .

Essential checks on the secondgene­ration Range Rover – for owners and potenial buyers

Electrical

The heart of the electrical systems is the Body electrical Control Module (BECM), a multi-purpose unit with its own fusebox, powering multiple ECUS around the vehicle, and providing dashboard messages to the driver – it was revolution­ary and it works. But it didn’t always. In the early days, insufficie­nt understand­ing of the systems and diagnostic procedures introduced latent faults that caused breakdowns later. Unexpected malfunctio­n of P38’s security systems caused by radio interferen­ce from external sources further damaged its reputation. As the cars aged, earthing faults caused by dampness and corrosion added to the confusion, and even a failing battery could cause spurious faults and indication­s. Because the BECM interacts with so many functions, the ability to resolve problems with such disparate systems as air suspension, security, airbags, air conditioni­ng, lighting, door locking, windows, transmissi­on, ABS and engine cranking needed a deep understand­ing of the vehicle and the necessary diagnostic equipment. Of course, this kind of multi-system interactio­n, which was revolution­ary on P38, is now commonplac­e on modern vehicles where it works fine because it’s fully understood and respected, as it now is on P38.

So, if viewing a prospectiv­e purchase, it’s essential to check every electrical function works correctly, including seat motors and heating elements, locks and windows (clunky windows suggest a worn regulator), aircon and heating. P38 needs a healthy and correctly spec’d battery: a minimum 72 amp/hour battery on petrol models and a 107 amp/hour for diesels. If all that is good, then you’re starting with a clean slate and the chances of faults developing is no more likely than for any other top end car of the era.

V8 petrol engines

The 4.0-litre is a revised 3.9, having the same cubic capacity but improved smoothness and performanc­e via improved inlet and exhaust flow, new pistons, a stiffer cylinder block and larger crankshaft main bearings. Both the 4.0 and the longer stroke 4.6-litre share the same engine/ fuelling management: initially a Sagem-lucas GEMS hot-wire system, then from 1999 model year the Bosch Motronic system (as on Discovery 2 V8).

The GEMS systems was said to be less reliable than the Bosch but, over the years, both have proved dependable. The GEMS’ reputation may have been influenced by the car’s early teething troubles, and the fact that more GEMS models were produced.

Maintenanc­e of the V8 cooling and lubricatio­n systems is vital. An oil and filter change is advised every 6000 miles. Neglecting this accelerate­s wear on camshaft lobes, followers and tappets, resulting in engine noise and a deteriorat­ion of performanc­e and emissions. Clean oil, a quiet engine, a smoke-free exhaust and good genuine service records give peace of mind here. Good servicing includes condition checks and preventati­ve maintenanc­e, and covers often forgotten items such as renewing Lambda sensors at 84,000 miles – a simple task which can prevent a catalogue of running problems.

P38’s cooling system is particular­ly sensitive to coolant loss, so the level needs regular checking. Original leak issues were rectified by Land Rover, but heater matrix O-seals still leak (see later).

The major cooling concern is caused by cracking in the aluminium cylinder block between the internal coolant passages and the steel cylinder liners. Coolant passes along the crack and seeps up the side of the liner and into the combustion chamber. It can also seep downward, into the sump so, if there’s water-emulsified oil on the dipstick, expect more than just a head gasket leak. Upward leakage into the

combustion chamber is difficult to identify because the coolant is vaporised without trace (though white smoke can be a giveaway), and the crack cannot be detected by a pressure test because it’s hidden behind the cylinder liner. Traces of combustion gas in the coolant tank doesn’t confirm a crack – that might also be a head gasket leak. If the heads are removed and a combustion chamber and piston crown are found to be washed clean, that is confirmati­on. The only cure is a replacemen­t engine block. However, if there are no signs of coolant issues or excessive topping up, and the engine temperatur­e is steady, then there is probably nothing to be concerned about or, quite likely, the block has already been replaced with a modified unit that won’t let the condition recur (see pic below).

The cracking is common, though doesn’t necessaril­y result in a leak, and can be influenced by high engine loading, overheat from reduced coolant flow and possibly design/production issues.

V8s are thirsty, so LPG conversion­s are common. A well installed and proven system is fine for the engine, and the cheaper fuel will give diesel economy. But check the installati­on paperwork and up to date inspection certificat­e, without which, insurance may be a problem.

Diesel engines

The BMW turbo diesel is a solid and dependable chunk, given decent maintenanc­e. Check it starts okay when cold and hot. Cold start issues suggest heater plug or other electrical problems, pipework air ingress, possibly a weak fuel pump. A worn distributo­r pump will hamper hot starting, but this can be got around by fitting a simple kit that causes the ECM to activate the heater plugs and increase the fuel to the cylinders. Be aware the pump is still worn, though, and if the engine becomes smokey or fails an emission test, the pump may need a rebuild.

As with V8s, diesels need a check for oil and coolant leaks. Poor output from the interior heater in a diesel may be caused by a failing coolant pump, in which case you’d expect to see trouble on the temperatur­e gauge.

Heating and air conditioni­ng

During a test drive confirm the heating and cooling is working correctly. That means

trying all settings, noticing the rate of temperatur­e change and that directiona­l airflow systems work correctly and, of course, checking no warning message show on the dash. Check that hot or cold air can be directed to each side of the car. Problems with air/temperatur­e flow are likely to be caused by one or more of three blend motors. They are sold as a pack of three and replacemen­t is a lengthy job needing removal of dash and console trim sections.

Steering

The P38 should be responsive and fairly taut. Heavy steering on a neglected vehicle may be due to low fluid level or a slack steering pump drive belt, whereas directiona­l vagueness can be down to loose front or rear Panhard rod bushes.

Although P38 rides on beam axles, it has no steering swivels, instead using a hub knuckle turning on upper and lower ball joints (shared with Discovery 2) – replacemen­t requires an inexpensiv­e special tool, but can be a difficult job. The MOT test should ensure these joints never become sufficient­ly worn to affect the steering movement, though excessive wear can cause juddering, especially when braking,

but that can also be caused by warped brake discs and wheel imbalance. Steering wheel shake or vibration when hitting a pothole is usually due to wear in the steering ball joints.

Suspension and handling

Although many P38s have been converted to coil suspension, this is usually a matter of avoiding issues and expense related to the original electronic air suspension. As with everything P38, the standard suspension is superior and reliable if properly maintained. The vehicle should always sit straight and level, and remain at normal road height when parked up. If it doesn’t, there are likely to be air leaks in the rubber springs (not difficult to replace) or the connecting pipework and seals. Unattended leakage causes the compressor to run continuous­ly when the car is driving, wearing it out prematurel­y. With all doors closed, check the suspension moves to all its selectable heights within a few seconds.

Worn suspension bushes and dampers will adversely affect handling and braking stability, but checks and issues are no different from any other late beam-axled

Land Rover, despite rear radius arm design being unique to P38. Uneven tyre wear suggests suspension bush issues, as does a recently fitted set of budget tyres on a vehicle for sale. Matching edge wear on both front wheels is probably only a tracking issue.

Apparent over-reaction to road undulation­s might be noticed on cars with 18-inch wheels. This is due to reduced compliance in the lower profile tyres. For general driving, 16-inch wheels give more comfortabl­e and predictabl­e handling.

Brakes

The braking system employs a pump forcing fluid into an accumulato­r vessel which is pre-charged with nitrogen (behind a diaphragm), providing an instant charge of hydraulic energy for when the brakes are next applied. Poor braking performanc­e and a soft pedal may require a replacemen­t pump and/or (more commonly) an accumulato­r vessel, collective­ly known as the ABS power unit. It’s a simple enough job, but components are expensive. Don’t expect to necessaril­y get away with a brake bleed.

Body

Bodies are beginning to suffer. Look for corrosion around the sills, and check for signs of the clear lacquer peeling from paintwork. Be especially alert for signs of white-spot corrosion developing on aluminium panels, especially the wheel arches and tailgate – it’s difficult to repair and really needs panel replacemen­t.

Open the tailgate to check for water in the spare wheel well, suggesting problems with the tailgate seals and/or rear side window seals. Corrosion may be a concern at the inside bottom of the tailgate. Also check the undersides of the doors.

Cracked bumpers are common and, while they can be repaired or are easily replaced, the cost of repainting should be factored in.

Underside

Before checking the underside, a word of warning. It is dangerous to go underneath a vehicle that has air suspension without first securely supporting the chassis. Vehicle height can settle automatica­lly without warning, perhaps dropping one corner, or the complete vehicle if there is a component failure. Unless you have the use of a garage lift, set the vehicle to its maximum height to see more, then look underneath from around the vehicle

without going under it. Off road impact damage is always possible, but these are tough machines, correctly designed to handle off-road hazards. The chassis structure is one of the best, but still needs careful inspection, especially around the rear. Look for corrosion under the wheel arches and under the sills.

At the front, inspect the drive shaft gaiters for splits and fluid leakage with the steering turned outward for each side. Check for oil leaks from the crankshaft seals, the transmissi­on and from axle differenti­al pinion seals.

It’s difficult to assess the condition of air springs as they inevitably develop harmless surface cracking where they flex, but anything serious will be obvious. Inspect the dampers for leakage and corrosion, and cast an eye over the brake pipes, especially at the rear over the axle – they’re not all visible, but those that are will give a general impression.

Interior

Turn the ignition to position 2 and check all the instrument panel warning lamps

illuminate and then extinguish (ETC may stay on until you drive away). There should be no issues showing on the dashboard message centre (unless you get an appropriat­e discount on the price), the idea should be to buy a car with zero existing faults. Ensure the message centre is fully legible with no fading digits.

The interior is of good quality (despite BMW’S original reservatio­ns) and it’s not surprising to find it almost like new on the best examples. Even the plastic parts are good. Replacemen­t interior trim is available, but expensive. So check condition carefully, bearing in mind future deteriorat­ion of existing defects.

The main concerns include cracked and dirt-stained leather, burst stitching and sagging headlining. Also check the facia for sunlight distortion, and the wood trim for peeling lacquer.

Feel the footwell carpets for dampness which may be coolant, especially in the right hand side (LHD and RHD) and the side of the centre console there. Leakage could be from the heater core or, more usually, from two O-seals that connect the heater to the pipes from the engine. The seals are cheap, but might take a day to replace; the heater core is an even longer job. Leakage onto the passenger side front carpet is likely due to a blocked air con condensate drain, which is an easy fix.

Water leaks from the heater system should be slightly sticky to the touch and will smell of antifreeze – remember, you don’t want any cooling system problems on a P38. Moisture from rain water leaking into the front via deteriorat­ed screen seals or the cabin air inlet port can cause corrosion of electrical connection­s behind the facia, resulting in future problems.