Silver Seals | McMaster-Carr

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12 Products

Conductive Surface Filler Pens for Electronics

Epoxy

Dispense ready-to-use conductive liquid to fill pits and small gaps on circuit board components. These pens are also used to sketch and repair conductive pathways.

Silver Filled—Silver epoxy pens are the most versatile—use them for any type of repair as well as for repairs that require excellent conductivity, such as connecting through holes on circuit boards without adding jumpers, wiring, or solder. Since they have the lowest surface resistivity, they allow the most current to pass.

Cannot Be Sold To—Product labeling requirements restrict sales to the listed areas.

	Container		Tip										Temp. Range, ° F
	Size, fl. oz.	Type	Dia.	Shape	Begins to Harden, min.	Reaches Full Strength, min.	Surface Resistivity, ohm/sq.	Consistency	Mixing Req.	Thermal Conductivity	Max. Thk.	For Use Outdoors	Min.	Max.	Color	For Use On	Cannot Be Sold To		Each
Silver Epoxy



		0.2	Pen	0.03"	Point	3	60	0.050	Thin Liquid	No	Not Rated	Not Rated	No	-65	300	Silver	Aluminum, Brass, Bronze, Copper, Steel, Stainless Steel, Titanium	Outside United States and Canada	7365A44	000000

Materials for High-Vacuum Thin Film Protective Coatings

Coat knobs, handles, mirrors, and other objects with a micron-thin, decorative finish. 99.999% or 99.88% elementally pure, these metals vaporize when heated with low-voltage current inside a high-vacuum environment. The material then coats the object one atom at a time. Also known as physical vapor deposition (PVD), this process allows for super-thin coatings that are more consistent, wear resistant, and corrosion resistant than coatings created through other methods. Hold and heat the material in a material holder.

All materials will coat metal and plastic with a silvery-white color.

Silver—Silver has a shiny appearance and adds corrosion resistance.

							25 g		100 g
	Lg.	Dia.	For Color	For Appearance	Material Composition	Certificate Type		Each		Each
Pellets







				Silver

				1/8"	1/8"	Silver	Polished	99.999% Silver, 0.001% Other	Material Certificate with Traceable Lot Number	3407N13	0000000	3407N14	0000000

EMI/RFI Shielding Gaskets

These gaskets absorb electromagnetic interference (EMI) and radio frequency interference (RFI) to prevent inaccurate signals, flickering displays, and other electrical problems. They compress to fill gaps and complete a grounding path around doors and access panels.

Sheets

Urethane Foam

Sheets work well between two flat surfaces.

Urethane Foam—Urethane foam gaskets block EMI and RFI in most applications. Gaskets are made with conductive silver wire.

UL 94 V-0—Gaskets that meet UL 94 V-0 self-extinguish within 10 seconds if they catch fire and won’t spread the fire by dripping.

	Wd.	Lg.	Interference Reduction @ Freq.	Backing Type	Temp. Range, ° F	Color	For Use Outdoors	Flammability Rating		Each
Urethane Foam



	0.06"	6"	12"	95 dB @ 1 GHz	Plain	-40 to 158	Gray	No	UL 94 V-0	6021T111	000000


	0.118"	6"	12"	95 dB @ 1 GHz	Plain	-40 to 158	Gray	No	UL 94 V-0	6021T131	00000

EMI/RFI Shielding Conformal Coatings

Protect sensitive electronic parts, enclosures, and prototypes from electromagnetic interference (EMI) and radio frequency interference (RFI) with these coatings. Also known as conductive paint, these coatings block EMI and RFI from disrupting electrical, data, and radio signals, which can cause circuit malfunctioning and data loss.

For best adhesion, apply to clean, oil-free surfaces. If applying to highly chemical-resistant plastics such as PVC and PTFE, use a primer first.

Silver Acrylic Plastic—Silver acrylic plastic coatings are made with silver flakes mixed with acrylic. They’re the most conductive coatings in our offering, so they protect against the broadest spectrum of EMI and RFI frequencies. They’re also the most corrosion resistant. Use them to coat portable electronics, access panels, industrial cabinets, and engine control modules.

			Dry Time				Temperature
	Container Net Wt., oz.	Consistency	Touch, min.	Overall, hr.	Interference Reduction @ Freq.	Surface Resistivity, ohm/sq.	Min.	Max., ° F	For Use On	For Use Outdoors	Color		Each
Silver Acrylic Plastic



		12	Thin Liquid	30	24	70 dB @ 1 GHz	0.10	Not Rated	185	Plastic	No	Silver	77075T39	0000000

Heavy Duty EMI/RFI Shielding Conformal Coatings

Coat electronics for durability in tough conditions while blocking EMI/RFI signals. Made of epoxy mixed with silver-coated copper, these coatings are stronger than acrylic plastic EMI/RFI coatings. They are rigid enough to withstand the wear of access panels and industrial cabinets. You can also use them in engine compartments because they resist damage from high temperatures and chemicals. Also known as conductive paint, they shield your parts from interference that could cause circuit malfunction and data loss. Mix the two parts of these compounds together and paint them on components.

Cannot Be Sold to Canada— These coatings cannot be sold to Canada due to product labeling requirements.

			Dry Time
	Container Size, fl. oz.	Consistency	Touch, min.	Overall, hr.	Mixing Req.	Interference Reduction @ Freq.	Surface Resistivity, ohm/sq.	Dielectric Strength	Thermal Conductivity	Temp. Range, ° F	Heating Req. to Reach Full Strength	Cure Type	For Use Outdoors	For Use On	Color	Cannot Be Sold To		Each
Silver-Coated Copper Epoxy







				Can

				27	Thin Liquid	5	4	Yes	55 dB @ 1 GHz	0.31	Not Rated	Not Rated	-40 to 245	4 Hrs. @ 150°F	Heat	No	Aluminum, Steel, Stainless Steel, Plastic, Ceramic, Glass, Chrome, Galvanized Steel	Brown	Canada	6606N11	0000000

Conductive Surface Fillers for Electronics


Epoxy Jar	Single-Use Packet

A high silver content allows these surface fillers to conduct electricity and heat. Use them to fill gaps and rebuild missing material on electrical connections or to assemble new components. They come as two parts. The size listed is the combined total of the two parts.

Thermal Conductivity—Thermal conductivity measures a material’s ability to transfer heat. The higher the rating, the more heat it transfers.

Electrical Volume Resistivity—Electrical volume resistivity measures how well a material opposes the flow of electricity. The lower the rating, the more electricity it conducts.

		Container												Temp. Range, ° F
	Mfr. Model No.	Size, fl. oz.	Net Wt., oz.	Type	Begins to Harden	Reaches Full Strength	Consistency	Mixing Req.	Thermal Conductivity, W/(m⋅°C)	Electrical Volume Resistivity	Mix Ratio	Max. Thk.	For Use Outdoors	Min.	Max.	Color	For Use On		Each
Loctite® Surface Fillers



		3888	—	0.09	Single-Use Packet	90 min.	24 hr.	Paste	Yes	1.44	0.001Ω⋅cm	100:6	1/4"	Yes	-40	170	Silver	Aluminum, Brass, Bronze, Copper, Steel, Stainless Steel, Titanium, Polycarbonate	7366A55	000000


		Surface Fillers



				—	—	0.09	Single-Use Packet	90 min.	24 hr.	Paste	Yes	6.05	0.009Ω⋅cm	100:6	1/4"	Yes	-75	250	Silver	Aluminum, Brass, Bronze, Copper, Steel, Stainless Steel, Titanium, Ceramic, Glass	7661A11	00000


				—	—	0.35	Single-Use Packet	90 min.	24 hr.	Paste	Yes	6.05	0.009Ω⋅cm	100:6	1/4"	Yes	-75	250	Silver	Aluminum, Brass, Bronze, Copper, Steel, Stainless Steel, Titanium, Ceramic, Glass	7661A12	000000
				—	0.5	—	Jar	4 hr.	5 day	Paste	Yes	5.77	0.0004Ω⋅cm	1:1	Not Rated	No	Not Rated	300	Silver	Aluminum, Brass, Copper, Steel, Stainless Steel	7595A31	000000
				—	1	—	Jar	4 hr.	5 day	Paste	Yes	5.77	0.0004Ω⋅cm	1:1	Not Rated	No	Not Rated	300	Silver	Aluminum, Brass, Copper, Steel, Stainless Steel	7595A32	000000