33508 DKB801 Plus50...API CJ-4, CI-4 PLUS, CI-4, SM X X X ACEA (Europe) E9, E7 X X JASO (Japan) DH-2...
Transcript of 33508 DKB801 Plus50...API CJ-4, CI-4 PLUS, CI-4, SM X X X ACEA (Europe) E9, E7 X X JASO (Japan) DH-2...
Plus-50™ II A direct comparison with other commercial diesel lubricants
Plus-50 II: Proven Engine ProtectionThe next generation Plus-50 II is more robust than existing commercial CJ-4 oils and optimized for off-road applications. It can also be used for on-highway, compressed natural gas, and marine engines, with 100-percent backward compatibility. Interim Tier 4 off-road emission regulations are in effect and require API CJ-4 service category oil.
Plus-50 II is qualified with B20 biodiesel blend in our newly developed JDQ78X dyno engine test to ensure protection against bearing corrosion. JDQ78X is considered to be the most severe dyno engine test in the industry with regard to oil thermal oxidation. We guarantee Plus-50 II will perform and protect in the extreme heat and power demands of our customers. The following pages display bench test results from independent lab analysis of Plus-50 II as relative to competitive products.
Plus-50 II service intervals can be extended 50-percent longer than specified in the operator’s manual, and up to 500 hours when used in John Deere engines with John Deere long-life oil filters.
Plus-50 II vs. Competitive Oils(All oils are CJ-4 and 15W-40)
ASTM D-4742 Oxidation Stability (to assess the oxidation stability of engine oil at high temperature, which impacts oil service life)
Thin-Film Oxygen Uptake Test (TFOUT) evaluates the oxidation stability of lubricants primarily intended for gasoline engines. This method, run at 160 degrees C, utilizes an oxygen-pressurized reactor, along with a metal catalyst package, a fuel catalyst, and water in a partial simulation of the conditions to which oil may be subjected during the combustion process.
Acronyms: ASTM: American Society of Testing and Materials CEC: Coordinating European Council JDQ: John Deere Quality API: American Petroleum Institute ACEA: Association des Constructeurs Europeans de l’Automobile
Oxidation Stability (ASTM D-4742) Note: Higher is Better
Plus
-50
II41
0
Chev
ron
Delo
400
LE
397
Shel
l Rot
ella
T27
5
Mob
il De
lvac 1
300
263
Esso
XD-
3 Xt
ra19
4
Cene
x® S
uper
lube
303
Citg
o Ci
tgar
d 70
026
6
Scha
effe
r Sup
rem
e31
5
CarQ
uest
® Fl
eet P
lus
358
Co-O
p D-
MO
Gold
232
TFO
UT O
xida
tion
Stab
ility
(min
utes
)
450 –
300 –
150 –
0 –
Evaporation Loss (ASTM D-5800)Note: Lower is better
Plus
-50
II11
.2
Chev
ron
Delo
400
LE
11.0
Shel
l Rot
ella
T12
.4
Mob
il De
lvac 1
300
10.0
Esso
XD-
3 Xt
ra9.
1
Cene
x® S
uper
lube
12.2
Citg
o Ci
tgar
d 70
010
.4
Scha
effe
r Sup
rem
e8.
6
CarQ
uest
® Fl
eet P
lus
12.1
Co-O
p D-
MO
Gold
11.8
Perc
ent W
eigh
t Los
s (w
t. %
)
15 –
10 –
5 –
0 –
ASTM D-5800 Evaporation Loss(to determine oil-evaporation tendency, which relates to lubricant thickening and consumption rate)
Noack evaporative tester is employed here to assess the volatility of lubricating oils. The test method relates to one set of operating conditions at 250 degrees C, but may be readily adapted to other conditions when required. Volatile loss of liquid lubricant is a major part of oil consumption as the design temperatures of modern engines continue to increase.
– Noack limit of API CJ-4 is 13% maximum – Noack limit of ACEA E9 is 13% maximum
Plus-50 II vs. Competitive Oils(continued)
JDQ-73 Cold-Flow Resistance(to demonstrate oil fluidity under low-temperature conditions, which is critical during engine cold start)
A cold-soak method has been developed to evaluate the low-temperature fluidity of lubricating oils exposed to sub-zero environments for extended periods. A small jar of oil sample is placed vertically in a cold box at a specified temperature. After a preset duration of cold soak, the sample jar is tilted to a horizontal position, and the time elapsed for the oil to flow 30 mm is recorded as the fluidity measurement. Diesel-crankcase lubricant generally thickens at lower temperature, which may impair oil flow, resulting in inadequate lubrication for some critical parts of the engine.
CEC-L-85-T-99 Oxidation Reserve(to measure the level of oxidation inhibitors present in the lubricant, which reflects oil quality and performance)
This method describes a procedure for determining the oxidation-induction time of lubricating oils by Pressure Differential Scanning Calorimetry (PDSC) at 210 degrees C. Oxidation times measured under this condition can be used as an indicator of a lubricant’s ability to resist oxidation and deposit formation.
– PSDC limit of ACEA E9 is 65 minutes minimum
Cold-Flow Resistance (JDQ-73) Note: Lower is Better
Plus
-50
II9
Chev
ron
Delo
400
LE
14
Shel
l Rot
ella
T30
Mob
il De
lvac 1
300
11
Esso
XD-
3 Xt
ra9
Cene
x® S
uper
lube
6
Citg
o Ci
tgar
d 70
010
Scha
effe
r Sup
rem
e7
CarQ
uest
® Fl
eet P
lus
7
Co-O
p D-
MO
Gold
6
Cold
-Soa
k Fl
uidi
ty
(sec
onds
)
30 –
20 –
10 –
0 –
Oxidation Reserve (CEC-L-85-T-99)Note: Higher is Better
Plus
-50
II20
9
Chev
ron
Delo
400
LE
192
Shel
l Rot
ella
T11
7
Mob
il De
lvac 1
300
134
Esso
XD-
3 Xt
ra11
0
Cene
x® S
uper
lube
114
Citg
o Ci
tgar
d 70
013
3
Scha
effe
r Sup
rem
e11
6
CarQ
uest
® Fl
eet P
lus
106
Co-O
p D-
MO
Gold
87
PDSC
Oxi
datio
n In
duct
ion
(min
utes
)
225 –
150 –
75 –
0 –
ASTM D-2896 Acid Neutralization(to show the detergent capacity of engine oil for acid neutralization, which provides vital anti-corrosion protection)
Basic constituents of petroleum products are quantified in this method via acid titration. Alkalinity value or Total Base Number (TBN), which reflects the acid-neutralization capability of a formulated lubricant, can be obtained. Acids, mostly from the combustion by-products of diesel fuel, are corrosive in nature, and thus should be curtailed or neutralized whenever possible.
Plus-50 II vs. Competitive Oils(continued)
Acid Neutralization (ASTM D-2896) Note: Higher is Better
Plus
-50
II10
.5
Chev
ron
Delo
400
LE
8.7
Shel
l Rot
ella
T9.
8
Mob
il De
lvac 1
300
10.4
Esso
XD-
3 Xt
ra8.
5
Cene
x® S
uper
lube
9.1
Citg
o Ci
tgar
d 70
010
.2
Scha
effe
r Sup
rem
e9.
4
CarQ
uest
® Fl
eet P
lus
9.3
Co-O
p D-
MO
Gold
8.0
Tota
l Bas
e N
umbe
r (m
gKO
H/g
)
12 –
8 –
4 –
0 –
Composite Rating (Equally Weighted)Note: Higher is Better
Plus
-50
II84
Chev
ron
Delo
400
LE
62
Shel
l Rot
ella
T27
Mob
il De
lvac 1
300
52
Esso
XD-
3 Xt
ra43
Cene
x® S
uper
lube
44
Citg
o Ci
tgar
d 70
059
Scha
effe
r Sup
rem
e66
CarQ
uest
® Fl
eet P
lus
49
Co-O
p D-
MO
Gold
27Rela
tive
Com
paris
on
(% m
erit)
100 –
80 –
60 –
40 –
20 –
0 –
Synthetic Plus-50 II vs. Competitive Oils(All oils are CJ-4 and 0W-40)
Oxidation Stability (ASTM D-4742) Note: Higher is Better
Cold-Flow Resistance (ASTM D-5293) Note: Lower is Better
Evaporation Loss (ASTM D-5800)Note: Lower is better
Oxidation Reserve (CEC-L-85-T-99)Note: Higher is Better
Synt
hetic
Plu
s-50
II84
3
Esso
XD-
3 Xt
ra27
0
Duro
n-E
Synt
hetic
200
Co-O
p D-
MO
SL60
2
Synt
hetic
Plu
s-50
II47
80
Esso
XD-
3 Xt
ra60
30
Duro
n-E
Synt
hetic
5350
Co-O
p D-
MO
SL60
01
Synt
hetic
Plu
s-50
II12
.9
Esso
XD-
3 Xt
ra8.
1
Duro
n-E
Synt
hetic
11.9
Co-O
p D-
MO
SL12
.6
Synt
hetic
Plu
s-50
II17
3
Esso
XD-
3 Xt
ra11
9
Duro
n-E
Synt
hetic
92
Co-O
p D-
MO
SL20
0
TFO
UT O
xida
tion
Stab
ility
(min
utes
)
Cold
Cra
nkin
g Vi
scos
ity
(cP)
Perc
ent W
eigh
t Los
s (w
t. %
)
PDSC
Oxi
datio
n In
duct
ion
(min
utes
)
900 –
600 –
300 –
0 –
6500 –
5500 –
4500 –
3500 –
15 –
10 –
5 –
0 –
200 –
150 –
100 –
50 –
ASTM D-4742 Oxidation Stability(to assess the oxidation stability of engine oil at high temperature, which impacts oil service life)
Thin-Film Oxygen Uptake Test (TFOUT) evaluates the oxidation stability of lubricants primarily intended for gasoline engines. This method, run at 160 degrees C, utilizes an oxygen-pressurized reactor, along with a metal catalyst package, a fuel catalyst, and water in a partial simulation of the conditions to which oil may be subjected during the combustion process.
ASTM D-5293 Cold-Flow Resistance (to demonstrate oil fluidity under low-temperature conditions, which is critical during engine cold start)
This test method utilizes a cold-cranking simulator (CCS) with a relatively high level of shear stress and rate at temperatures between –5 and –35 degrees C. The main purpose is to evaluate oil behavior during the initial cranking phase of engine startup. The lower the oil viscosity measured under these conditions, the easier an engine will turn over in cold environments. Diesel-crankcase lubricant generally thickens at lower temperature, which may impair oil flow, resulting in inadequate lubrication for some critical parts of the engine.
ASTM D-5800 Evaporation Loss (to determine oil-evaporation tendency, which relates to lubricant thickening and consumption rate)
Noack evaporative tester is employed here to assess the volatility of lubricating oils. The test method relates to one set of operating conditions at 250 degrees C, but may be readily adapted to other conditions when required. Volatile loss of liquid lubricant is a major part of oil consumption as the design temperatures of modern engines continue to increase.
– Noack limit of API CJ-4 is 13% maximum – Noack limit of ACEA E9 is 13% maximum
CEC-L-85-T-99 Oxidation Reserve (to measure the level of oxidation inhibitors present in the lubricant, which reflects oil quality and performance)
This method describes a procedure for determining the oxidation-induction time of lubricating oils by Pressure Differential Scanning Calorimetry (PDSC) at 210 degrees C. Oxidation times measured under this condition can be used as an indicator of a lubricant’s ability to resist oxidation and deposit formation.
– PDSC limit of ACEA E9 is 65 minutes minimum
Service Ratings 15W-40 1OW-30 0W-40
API CJ-4, CI-4 PLUS, CI-4, SM X X X
ACEA (Europe) E9, E7 X X
JASO (Japan) DH-2 X X
John Deere JDQ78X X X X
Mack EO-O Premium Plus 07 X X
Mack EO-N Premium Plus 03 X X X
Cummins CES 20081 X X X
Caterpillar ECF-3, ECF-2, ECF-1-a X X
Mercedes Benz 228.31 X X X
Detroit Diesel 93K218, 93K214 X
Volvo VDS-4, VDS-3, VDS-2 X X
Renault RLD, RXD, RD X X
Man M3275 X X
MTU Type 2.1 X X
Physical Properties 15W-40 10W-30 0W-40Test Parameters
Viscosity @ 40 deg. C 128.0 cSt 86.6 cSt 94.9 cSt
Viscosity @ 100 deg. C 15.6 cSt 12.1 cSt 14.7 cSt
Viscosity Index 127 133 162
HTHS viscosity @ deg. C 4.3 cP 3.6 cP 3.67 cP
Pour point –36 deg. C –40 deg. C –57 deg. C
Flash point 225 deg. C 223 deg. C 228 deg. C
Total Base Number (TBN), mgKOH/g 10.5 10.5 10.5
Sulfated ash level 1.0 mass % 1.0 mass % 1.0 mass %
Acid Neutralization (ASTM D-2896) Note: Higher is Better
Composite Rating (Equally Weighted)Note: Higher is Better
Synt
hetic
Plu
s-50
II10
.8
Esso
XD-
3 Xt
ra8.
1
Duro
n-E
Synt
hetic
8.5
Co-O
p D-
MO
SL8.
9
Synt
hetic
Plu
s-50
II75
Esso
XD-
3 Xt
ra27
Duro
n-E
Synt
hetic
18
Co-O
p D-
MO
SL40
Tota
l Bas
e N
umbe
r (m
gKO
H/g
)Re
lativ
e Co
mpa
rison
(%
mer
it)
12 –
8 –
4 –
0 –
80 –
60 –
40 –
20 –
0 –
Synthetic Plus-50 II vs. Competitive Oils(continued)
Ratings and Readings
ASTM D-2896 Acid Neutralization (to show the detergent capacity of engine oil for acid neutralization, which provides vital anti-corrosion protection)
Basic constituents of petroleum products are quantified in this method via acid titration. Alkalinity value or Total Base Number (TBN), which reflects the acid-neutralization capacity of a formulated lubricant, can be obtained. Acids, mostly from the combustion by-products of diesel fuel, are corrosive in nature, and thus should be curtailed or neutralized whenever possible.
John Deere Company guarantees Plus-50 II Engine Oil will meet or exceed the performance needs of diesel engines. Regardless of hours or miles, John Deere Company will pay for any damages (parts and labor) to your engine which are caused by an oil defect provided:
– The oil defect is verified by oil analysis.
– The engine oil used is confirmed to be unadulterated and non-contaminated Plus-50 II.
– Plus-50 II meets the engine manufacturer’s specifications for service and application.
– The engine is used under normal operating conditions and maintained according to manufacturer’s recommendations.
To secure warranty service, report the product failure to an authorized John Deere dealer.To make a claim under this warranty, it will be necessary to do the following as part of the technical investigation:
– Provide records showing that the engine was serviced according to the manufacturer’s recommendations.
– Submit an oil sample from the failed engine for analysis to determine if oil is defective.
– Make the failed engine available.
John Deere disclaims all liability for indirect or consequential damages. Your rights and remedies pertaining to this warranty are limited as set forth herein. Implied warranties of merchantability and fitness are not made and are excluded.
John Deere Plus-50 II Engine Oil Limited Performance Warranty
www.JohnDeere.comDKB801 Litho in U.S.A. (11-11)