Usage instructions, Technical & application assistance, Availability – Chemtronics CircuitWorks® Flex Conductive Pen CW2900 User Manual

Page 2

USAGE INSTRUCTIONS

Read MSDS carefully prior to use.

Cleaning: For best adhesion, clean board with
Chemtronics Electro-Wash



PX Cleaner Degreaser

in order to remove any surface contamination which
may prevent adequate material contact.

Mixing: Although this system has been formulated
to resist hard-packing, it should be shaken
vigorously for 30 seconds to insure the proper
dispersion of the silver flakes. If pen has been
allowed to sit idle for a long period of time, the
mixing ball may seize in the barrel. To free the ball
use force to tap the barrel end of the pen until the
ball begins to move inside the pen.

Application: The conductive ink is dispensed
through the CircuitWorks



Flex Conductive Pen.

Squeezing the pen body while pressing down on the
surface will allow the material to flow through the
tip, enabling the trace to be drawn. Practice with
the pen before attempting detail work.

Thinning: The conductive ink has been optimized
for the CircuitWorks



Flex Conductive Pen and

thinning is not normally necessary. However, a
small amount of Butyl Acetate may be added with
thorough mixing to make slight adjustments for ease
of application for other dispensing systems.

Clean-up/Removal: The conductive ink may be
cleaned or removed using a strong organic solvent
such as acetone or Chemtronics



Electro-Wash



Two-Step (ES125a).

Curing: Dries tack-free in about 5 minutes at room
temperature. Achieves electrical conductivity
within 15 minutes. Full conductivity after 24 hours
at room temperature. Heat cure for 15 minutes at 80
to 90

°C for maximum conductivity, durability and

chemical resistance.

TECHNICAL & APPLICATION
ASSISTANCE

Chemtronics



provides a technical hotline to answer

your technical and application related questions.
The toll free number is:
1-800-TECH-401.

AVAILABILITY

CW2900 8.5 g (0.3 oz.) pen

ENVIRONMENTAL IMPACT DATA

ODP

None

VOC

Yes

HCFC

None

HFC

None

Ozone depletion potential (ODP) is determined in accordance with the
Montreal Protocol and U.S. Clean Air Act of 1990.

Hydrochlorofluorocarbons (HCFCs) are regulated under the Montreal
Protocol as Class II ozone depleting substances. Volatile Organic Compound
(VOC) information is calculated on a weight basis using the VOC definition
of California Air Resources Board (CARB) Consumer Product Regulations,
South Coast Air Quality Management District (SCAQMD) Rule 102 and the
Federal definition published in 40 CFR 51.100(s). Hydrofluorocarbons
(HFCs) are not currently regulated.

NOTE:

This information is believed to be accurate. It is
intended for professional end users having the skills
to evaluate and use the data properly.

CHEMTRONICS does not guarantee the accuracy
of the data and assumes no liability in connection
with damages incurred while using it.

Chemtronics

, Electro-Wash and CircuitWorks are

 is a trademark of Chemtronics. All rights

reserved. All other trademarks herein are trademarks or
registered trademarks of their respective owners.

CHEMTRONICS
8125 COBB CENTER DRIVE
KENNESAW, GA 30152
1-770-424-4888

REV. F (08/13)

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