Hot melt magnetic sealant, method of making and method of using same
First Claim
1. A hot melt magnetic sealant, comprising, in weight percent:
- about 8% to about 15% hydrocarbon resin, 0% to about 7% tackifier resin, about 5% to about 18% plasticizer, about 65% to about 72% magnetic particles, about 5% to about 15% epoxy resin and about 0.7% to about 2% epoxy curing agent, said sealant providing a durable seal that is strongly adherent to oil-coated, galvanized ferrometallic substrates and to epoxy coated ferrometallic substrates after curing by exposure to elevated temperature in the range of about 240°
F. to about 300°
F.
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Accused Products
Abstract
A hot melt magnetic sealant that exhibits improved adhesion to oil covered galvanized ferrometallic substrates and to epoxy electrodeposition coated ferrometallic substrates is disclosed. The sealant comprises magnetic filler particles, a hydrocarbon resin, a tackifier resin, a plasticizer, an epoxy resin and an epoxy curing agent. A method for making a hot melt sealant tape comprising mixing a formulation of magnetizable particles, a hydrocarbon resin, a tackifier resin, a plasticizer, an epoxy resin and an epoxy curing agent, extruding the mixture to form a tape and exposing the tape to an electromagnetic field is also disclosed. Methods for using the magnetic sealant tape to seal a joint between ferrometallic members having oil covered galvanized surfaces or epoxy electrodeposition coated ferrometallic members comprising disposing the tape to cover the joint and heating the tape are also disclosed.
57 Citations
6 Claims
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1. A hot melt magnetic sealant, comprising, in weight percent:
about 8% to about 15% hydrocarbon resin, 0% to about 7% tackifier resin, about 5% to about 18% plasticizer, about 65% to about 72% magnetic particles, about 5% to about 15% epoxy resin and about 0.7% to about 2% epoxy curing agent, said sealant providing a durable seal that is strongly adherent to oil-coated, galvanized ferrometallic substrates and to epoxy coated ferrometallic substrates after curing by exposure to elevated temperature in the range of about 240°
F. to about 300°
F.- View Dependent Claims (2, 3)
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4. A method of making a hot melt magnetic sealant tape, comprising:
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(a) mixing a magnetic sealant formulation comprising, in weight percent; about 8% to about 15% hydrocarbon resin, 0% to about 7% tackifier resin, about 5% to about 18% plasticizer, about 65% to about 72% magnetic particles, about 5% to about 15% epoxy resin and about 0.7% to about 2% epoxy curing agent, (b) extruding the mixture to form an elongated sealant tape, (c) exposing the sealant tape to an electromagnetic field to magnetize the magnetizable particles in the tape, said magnetic sealant tape providing a durable seal that is strongly adherent to oil-coated, galvanized ferrometallic substrates and is strongly adherent to epoxy coated ferrometallic substrates after curing by exposure to elevated temperature in the range of about 240°
F. to about 300°
F. - View Dependent Claims (5, 6)
-
Specification