The Pyre ML® product line encompasses a family of enamels employed in insulation of magnet wire. The insulated wire based on Pyre ML® enamel has the highest thermal rating of 240° C continuous use temperature from NEMA. In addition to its very high thermal rating, wire insulated with Pyre ML® enamel has very good flexibility and excellent solvent resistance. This outstanding combination of properties has made Pyre ML® insulation the choice for the most demanding magnet wire applications for over four decades. To fulfill customers strong demands in recent years, we have made additions to the family, such as higher solids level products that allow more efficient manufacture of magnet wires. These new high solids level products developed by our lab have been used by many magnet wire manufacturers and acquired excellent reputations by increasing their productivity.

The Pyre ML® product line encompasses a family of enamels employed in insulation of magnet wire. The insulated wire based on Pyre ML® enamel has the highest thermal rating of 240° C continuous use temperature from NEMA. In addition to its very high thermal rating, wire insulated with Pyre ML® enamel has very good flexibility and excellent solvent resistance. This outstanding combination of properties has made Pyre ML® insulation the choice for the most demanding magnet wire applications for over four decades. To fulfill customers strong demands in recent years, we have made additions to the family, such as higher solids level products that allow more efficient manufacture of magnet wires. These new high solids level products developed by our lab have been used by many magnet wire manufacturers and acquired excellent reputations by increasing their productivity.

The Pyre ML® product line encompasses a family of enamels employed in insulation of magnet wire. The insulated wire based on Pyre ML® enamel has the highest thermal rating of 240° C continuous use temperature from NEMA. In addition to its very high thermal rating, wire insulated with Pyre ML® enamel has very good flexibility and excellent solvent resistance. This outstanding combination of properties has made Pyre ML® insulation the choice for the most demanding magnet wire applications for over four decades. To fulfill customers strong demands in recent years, we have made additions to the family, such as higher solids level products that allow more efficient manufacture of magnet wires. These new high solids level products developed by our lab have been used by many magnet wire manufacturers and acquired excellent reputations by increasing their productivity.

The Pyre ML® product line encompasses a family of enamels employed in insulation of magnet wire. The insulated wire based on Pyre ML® enamel has the highest thermal rating of 240° C continuous use temperature from NEMA. In addition to its very high thermal rating, wire insulated with Pyre ML® enamel has very good flexibility and excellent solvent resistance. This outstanding combination of properties has made Pyre ML® insulation the choice for the most demanding magnet wire applications for over four decades. To fulfill customers strong demands in recent years, we have made additions to the family, such as higher solids level products that allow more efficient manufacture of magnet wires. These new high solids level products developed by our lab have been used by many magnet wire manufacturers and acquired excellent reputations by increasing their productivity.

The Pyre ML® product line encompasses a family of enamels employed in insulation of magnet wire. The insulated wire based on Pyre ML® enamel has the highest thermal rating of 240° C continuous use temperature from NEMA. In addition to its very high thermal rating, wire insulated with Pyre ML® enamel has very good flexibility and excellent solvent resistance. This outstanding combination of properties has made Pyre ML® insulation the choice for the most demanding magnet wire applications for over four decades. To fulfill customers strong demands in recent years, we have made additions to the family, such as higher solids level products that allow more efficient manufacture of magnet wires. These new high solids level products developed by our lab have been used by many magnet wire manufacturers and acquired excellent reputations by increasing their productivity.

The Pyre ML® product line encompasses a family of enamels employed in insulation of magnet wire. The insulated wire based on Pyre ML® enamel has the highest thermal rating of 240° C continuous use temperature from NEMA. In addition to its very high thermal rating, wire insulated with Pyre ML® enamel has very good flexibility and excellent solvent resistance. This outstanding combination of properties has made Pyre ML® insulation the choice for the most demanding magnet wire applications for over four decades. To fulfill customers strong demands in recent years, we have made additions to the family, such as higher solids level products that allow more efficient manufacture of magnet wires. These new high solids level products developed by our lab have been used by many magnet wire manufacturers and acquired excellent reputations by increasing their productivity.

The Pyre ML® product line encompasses a family of enamels employed in insulation of magnet wire. The insulated wire based on Pyre ML® enamel has the highest thermal rating of 240° C continuous use temperature from NEMA. In addition to its very high thermal rating, wire insulated with Pyre ML® enamel has very good flexibility and excellent solvent resistance. This outstanding combination of properties has made Pyre ML® insulation the choice for the most demanding magnet wire applications for over four decades. To fulfill customers strong demands in recent years, we have made additions to the family, such as higher solids level products that allow more efficient manufacture of magnet wires. These new high solids level products developed by our lab have been used by many magnet wire manufacturers and acquired excellent reputations by increasing their productivity.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.

The Skybond® product line encompasses a number of products usable as matrix resins for manufacture of high thermal stability structural composites. Composites based on the Skybond® family of resins have continuous use temperatures in excess of 600° F with short term capability greater than 1000° F. Prepreg has been successfully manufactured from all common high performance substrates, such as, E-glass, high modulus carbon, and quartz. Two new classes of matrix resins have been developed in the Skybond® family. The first can be processed by RTM molding techniques to bring the outstanding thermal resistance of polyimide resins to RTM molded composites. The second new class of Skybond® matrix resins is the two-stage cure resins that when used in prepreg applications allow the manufacture of very low void level composites by autoclave processing (<0.5% voids) combined with excellent thermal stability of polyimide resins.