"What do you know about the oil in your car's engine? From the ads, you're
led to believe that most exotic part of a Ferrari's engine is in the sump,"
writes Fast Fours and Rotaries (FFR) (July 1998), an Australian performance car
journal.
"The basic concept of oil is to provide a film of lubrication between
two surfaces," FFR continues, "reducing friction, wear and heat and ensuring an
engine's long life span. But the reality is that while all claim to be superior,
there are some that are better than others. We decided to test most of the major
brands to see how the well-known brands, the ones most of us can readily buy,
shape up in a real-life engine test."
Test Procedure
FFR chose to test only high quality synthetic
oils. High quality synthetics are each oil makers' top product and high quality
synthetics are "most relevant" to performance enthusiasts. The testers ran each
oil through a "short yet grueling" dynamometer session followed by professional
oil analysis.
Sam Blumenstein, of COME Racing, performed the dyno testing
on his SuperFlow engine dynamometer using a mildly modified five liter V8. Bill
Reid of Lubrication Management, performed the oil analyses. Ryco supplies oil
filters.
After establishing baseline performance using a mineral oil, the
test team subjected the test oils to three timed sessions at high engine loads,
between each of which were three full-power runs.
"The intent," says FFR, "was to establish a number of criteria.
Firstly, whether any of the oils would improve horsepower; whether any of the
products would lose viscosity; evaluate [the] ability (or lack thereof) to
prematurely wear components or suffer from discoloration. As it turned out,
discoloration didn't prove to be a factor.
"We approached ten oil suppliers/manufacturers,
informing them of our intention, and all were reasonably keen and eager to be
involve, although Pennzoil didn't want to commit and Penrite flat out said no --
a little strange given this company has actually advertised with and for this
[performance] market.
Viscosity
Test
FFR first subjected the oils to a test of viscosity
retention. "Note," writes FFR, "that being such a short test it was flet that
none of the oils would lose any of its viscosity rating, and indeed six oils
suffered an inconsequential loss of less than one percent." The other five,
Torco MPZ, Shell Helix Ultra, Shell Helix Plus, Hi-Tec HTO and Castrol R
suffered significant viscosity losses.
|
AMSOIL SERIES 2000
SYNTHETIC
20W-50 RACING OIL:
NO VISCOSITY LOSS REPORTED |
| Oil |
Product |
Viscosity Loss % |
Type |
Test # |
| Torco |
MPZ |
18% |
Synthetic |
5&6 |
| Shell |
Helix Ultra |
14% |
Synthetic |
8 |
| Shell |
Helix Plus |
12% |
Petroleum |
1 |
| Hi-Tec |
HTO |
8% |
Synthetic |
9 |
| Castrol |
R |
6% |
Synthetic |
12 |
The oil probe is then placed in a solution to free it of all oil, leaving
behind just the raw wear particles. Once the magnet is clean, a piece of
cellophane tape is applied to stick any metal particles for analysis either on a
contrasting background or under a microscope.
FFR points out that the loss of viscosity suffered by the five oils was
very rapid. "Under normal conditions it's suggested oil which loses viscosity
this quickly would be subject to significant losses over 5000 miles (8045 km).
Indeed, one would be suspect of the potential for increased wear over this
perior."
Wear Metal Test
Oils inhibit
wear by inhibiting metal to metal contact of engine parts. To test each oil's
ability to protect parts from contact and wear, FFR subjected each oil to a test
of wear metal generation. Their test "indicates the size and number of wear
particles for each oil. The higher the rating the greater number and size of
wear particles," writes FFR.
|
AMSOIL SERIES 2000 SYNTHETIC
20W-50 RACING OIL:
LOWEST WEAR METAL GENERATION |
| Rating |
Oil |
Average Particle Size |
Overall
(micron) |
Test # |
| #1 |
Amsoil Series 2000 |
5-10 micron |
5-50 micron |
10 |
| #2 |
Hi-Tec HTO |
15-20 micron |
15-60 micron |
9 |
| #3 |
BP Visco 5000 |
15-20 micron |
15-60 micron |
4 |
| #4 |
Shell Helix Ultra |
15-25 micron |
15-60 micron |
8 |
| #5 |
Shell Helix Plus |
10-20 micron |
15-50 micron |
1 |
| #6 |
Mobil 1 5W-50 |
20-25 micron |
15-60 micron |
3 |
| #7 |
Mobil 1 0W-40 |
15-20 micron |
15-50 micron |
11 |
| #8 |
Castrol R |
20-30 micron |
15-100 micron |
12 |
| #9 |
Torco |
15-20 micron |
15-100 micron |
5&6 |
| #10 |
Royal Purple |
15-20 micron |
15-100 micron |
7 |
| #11 |
Castrol SLX |
20-25 micron |
15-100 micron |
2 |
Horsepower
FFR averaged three
runs per oil, noting power figures at 500 rpm increments between 3000 and 5000
rpm and noting peak power and torque. While the engine FFR used for testing was
a large toleranced engine for which a 20W-50 grade oil is ideal, some of the oil
manufacturers supplied 0W-30 grade oils for testing. The low grade viscosity
oils delivered somewhat greater horsepower than the high grade oils did, but as
FFR notes, "around 4000 rpm the power produced is very similar across the range
and it's only really the top end where there are substantial differences. That
said, the AMSOIL [20W-50], Castrol R [10W-60] and Mobil 5W-50 prove themselves
very well."
|
Conclusion
"Although we've provided criteria to pick and choose an
oil,
the stand-out to us appears to be AMSOIL, rating well in the
viscosity
and producing good horespower."
"With the variety of grades, use this test as a guide but
always follow the manufacturer's recommendation. But if we were to
stick our neck out in anticipation of the law suites, from the information
we gathered specific to the supplied oils in this test, we'd rate the oils
in the following order:
1) AMSOIL
2) BP Visco 5000
3&4) Both Mobil 1
(difference being pricing)
5) Hi-Tec HTO
6) Shell Helix Ultra
7)
Royal Purple
8) Castrol R
9) Castrol SLX
10) Torco"
|
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