Data Sheet
TDS LOCTITE
®
6300™, May-2012
Cure Speed vs. Temperature
The rate of cure will depend on the temperature. The graph
below shows the shear strength developed with time at
different temperatures on steel pins and collars and tested
according to ISO 10123.
% of Full Strength on Steel
Cure Time
200
175
150
125
100
75
50
25
0
0 1h 2h 4h 24h 48h 72h 168h
40 °C
22 °C
5 °C
Cure Speed vs. Activator
Where cure speed is unacceptably long, or large gaps are
present, applying activator to the surface will improve cure
speed. The graph below shows the shear strength developed
with time on stainless steel pins and collars using
Activator 7471™ or 7649™ and tested according to ISO
10123.
% of Full Strength on Steel
Cure Time
100
75
50
25
0
0 1h 2h 4h 24h 48h 72h 168h
Activator 7471™
Activator 7649™
No activator
TYPICAL PERFORMANCE OF CURED MATERIAL
Adhesive Properties
Cured for 72 hours @ 22 °C
Compressive Shear Strength, ISO 10123:
Steel pins and collars N/mm² ≥15
LMS
(psi) (≥2,180)
TYPICAL ENVIRONMENTAL RESISTANCE
Cured for 1 week @ 22 °C
Compressive Shear Strength, ISO 10123:
Steel pins and collars
Hot Strength
Tested at temperature
% Strength @ 22 °C
Temperature, °C
125
100
75
50
25
0
0 50 100 150 200
Heat Aging
Aged at temperature indicated and tested @ 22 °C
% Initial Strength @ 22 °C
Exposure Time, hours
150
125
100
75
50
25
0
0 1000 2000 3000
150 °C
180 °C
200 °C
Chemical/Solvent Resistance
Aged under conditions indicated and tested @ 22 °C.
% of initial strength
Environment °C 100 h 500 h 1000 h 3000 h
Motor oil (5W40) 125 110 120 125 95
Unleaded Petrol 22 90 110 100 85
Brake fluid 22 90 95 85 95
Water/glycol 50/50 87 100 140 115 105
Ethanol 22 95 95 75 80
Acetone 22 85 100 95 90
DEF (AdBlue
®
)
22 85 100 80 75
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