HMC Electronics 68035 Loctite 680 Retaining Compound, High Strength User Manual

Loctite

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Technical Data Sheet

LOCTITE

®

680™

December

-

2009

PRODUCT DESCRIPTION
LOCTITE

®

680™

provides

the

following

product

characteristics:

Technology

Acrylic

Chemical Type

Methacrylate ester

Appearance (uncured)

Green liquid

LMS

Fluorescence

Positive under UV light

LMS

Components

One component - requires no mixing

Viscosity

Medium

Cure

Anaerobic

Secondary Cure

Activator

Application

Retaining

Strength

High

LOCTITE

®

680™ is designed for the bonding of cylindrical

fitting parts, particularly where low viscosity is required. The
product cures when confined in the absence of air between
close fitting metal surfaces and prevents loosening and
leakage from shock and vibration.

NSF International

Certified to ANSI/NSF Standard 61 for use in commercial and

residential potable water systems not exceeding 82° C. Note:

This is a regional approval. Please contact your local Technical

Service Center for more information and clarification.

TYPICAL PROPERTIES OF UNCURED MATERIAL

Specific Gravity @ 25 °C

1.1

Flash Point - See MSDS
Viscosity, Brookfield - RVT, 25 °C, mPa·s (cP):

Spindle , speed r/min

750 to 1,750

LMS

TYPICAL CURING PERFORMANCE

Cure Speed vs. Substrate

The rate of cure will depend on the substrate used. The graph

below shows the shear strength developed with time on steel

pins and collars compared to different materials and tested

according to ISO 10123.

% of Full Strength on Steel

Cure Time

100

75

50

25

0

1min 5min 10min 30min 1h

3h 6h

24h

72h

Steel

Aluminum

Zinc dichromate

Cure Speed vs. Bond Gap

The rate of cure will depend on the bondline gap. The following

graph shows shear strength developed with time on steel pins

and collars at different controlled gaps and tested according to

ISO 10123.

% of Full Strength on Steel

Cure Time

100

75

50

25

0

1min 5min 10min 30min 1h

3h 6h

24h

72h

0.15 mm

0.2 mm

0.05 mm

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

100

75

50

25

0

1min 5min 10min 30min 1h

3h 6h

24h

72h

22 °C

5 °C

40 °C

Documentation Provided By HMC Electronics

33 Springdale Ave. Canton, MA 02021

http://www.hmcelectronics.com

(800) 482-4440

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