Morgan Advanced Materials Datasheets for Braze and Brazing Alloys
Braze and brazing alloys join metals or other materials without extensive fusion of the substrates. Brazes have a higher melting point (>800° F) than solders and cause little or no metal vaporization, gain growth, stress corrosion, or distortion.
Braze and Brazing Alloys: Learn more
| Product Name | Notes |
|---|---|
| A high-purity Active Brazing Filler in composite form containing titanium, copper and nickel, developed for direct application to ceramic surfaces. Nominal composition by weight: 70% Ti, 15% Cu, and 15%... | |
| High-purity Active Braze Alloy of copper, silicon, titanium and aluminum, developed for direct application to ceramic surfaces. Nominal composition by weight: 92.75% Cu, 3.0% Si, 2.25% Ti and 2.0% Al. | |
| High-purity Active Braze Alloy of gold, nickel and titanium, developed for direct application to ceramic surfaces. Nominal composition by weight: 96.4% Au, 3.0% Ni and 0.6% Ti. | |
| High-purity Active Braze Alloy of gold, nickel, vanadium and molybdenum, developed for direct application to ceramic surfaces. Nominal composition by weight: 82.0% Au, 15.5% Ni, 1.75% V and 0.75% Mo. | |
| High-purity Active Braze Alloy of silver, copper, indium and titanium, developed for direct application to ceramic surfaces. Nominal composition by weight: 59.0% Ag, 27.25% Cu, 12.50% In and 1.25% Ti. | |
| High-purity gold/copper alloy for vacuum brazing. Nominal composition by weight: 35% Au and 65% Cu (both within ±1%). | |
| High-purity gold/copper alloy for vacuum brazing. Nominal composition by weight: 50% Au and 50% Cu (both within ±1%). | |
| High-purity gold/copper/nickel alloy for vacuum brazing. Nominal composition by weight: 35% Au, 62% Cu and 3% Ni, (Au and Cu within ±1%, Ni ±0.5%). | |
| High-purity gold/copper/nickel alloy for vacuum brazing. Nominal composition by weight: 81.5% Au, 16.5% Cu and 2% Ni, (Au and Cu within ±1%, Ni ±0.5%). | |
| High-purity gold/nickel alloy for vacuum brazing. Nominal composition by weight: 82% Au and 18% Ni (both within ±1%). | |
| High-purity gold/nickel/palladiu m alloy for vacuum brazing. Nominal composition by weight: 70% Au, 22% Ni and 8.0% Pd. | |
| High-purity Melt-Spun Foil alloy of nickel, chromium, silicon, boron and iron, for vacuum brazing. Nominal composition by weight: 73.8% Ni, 14.0% Cr, 4.5% Si, 4.5% Fe, and 3.2% B. | |
| High-purity Melt-Spun Foil alloy of nickel, chromium, silicon, boron and iron, for vacuum brazing. Nominal composition by weight: 82.3% Ni, 7.0% Cr, 4.5% Si, 3.2% B, and 3.0% Fe. Melt-Spun... | |
| High-purity Melt-Spun Foil alloy of nickel, palladium, chromium and boron, for vacuum brazing. Nominal composition by weight: 56.55% Ni, 30.5% Pd, 10.5% Cr, and 2.45% B. Melt-Spun Foil is produced... | |
| High-purity nickel/copper alloy brazing filler. Nominal composition by weight: 50% Ni and 50% Cu. | |
| High-purity palladium/nickel/chr omium alloy for vacuum brazing and TIG welding. Nominal composition by weight: 36% Pd, 50% Ni, 10.5% Cr, with approximately 3% B and 0.5% Si. (Maximum levels of... | |
| High-purity silver/copper alloy for vacuum brazing. Nominal composition by weight: 72% Ag and 28% Cu (both within ±1%). | |
| High-purity silver/copper/nickel alloy for vacuum brazing. Nominal composition by weight: 56% Ag, 42% Cu and 2% Ni, (Ag and Cu within ±1%, Ni ±0.05%). | |
| High-purity silver/copper/nickel alloy for vacuum brazing. Nominal composition by weight: 71.15% Ag, 28.1% Cu and 0.75% Ni. | |
| High-purity silver/copper/pallad ium alloy for vacuum brazing. Nominal composition by weight: 58% Ag, 32% Cu and 10% Pd. | |
| Oxygen free high conductivity (OFHC) copper brazing filler. Composition by weight is between 99.990% and 99.999% Cu, which represents the purest commercially available form of the metal. | |
| The Wesgo Metals business of Morgan Technical Ceramics manufactures and supplies high-purity, low vapour pressure brazing alloys in various forms. Precious and non-precious alloys are available in atomized powder, discs,... |