Introduction
Super alloys are also referred to as high performance alloys. They contain many elements in a variety of combinations so as to achieve the desired result. These alloys can function under very high temperatures and severe mechanical stress, and also where high surface stability is required. They have good creep and oxidation resistance. Strengthening of super alloys is performed by solid-solution hardening, work hardening, and precipitation hardening methods.
The following datasheet will provide more details about HASTELLOY(r) B-3.
Chemical Composition
The following table shows the chemical composition of HASTELLOY(r) B-3.
| Element |
Content (%) |
| Nickel, Ni |
65 min |
| Molybdenum, Mo |
27-32 |
| Cobalt, Co |
3 max |
| Manganese, Mn |
3 max |
| Tungsten, W |
3 max |
| Iron, Fe |
1-3 |
| Chromium, Cr |
1-3 |
| Aluminum, Al |
0.5 max |
| Copper, Cu |
0.2 max |
| Niobium, Nb |
0.2 max |
| Tantalum, Ta |
0.2 max |
| Titanium, Ti |
0.2 max |
| Vanadium, V |
0.2 max |
| Zirconium, Zr |
0.1 max |
| Phosphorus, P |
0.03 max |
| Sulfur, S |
0.01 max |
| Carbon, C |
0.01 max |
Physical Properties
The physical properties of HASTELLOY(r) B-3 are outlined in the following table.
| Properties |
Metric |
Imperial |
| Density |
9.13 g/cm³ |
0.33 lb/in³ |
Mechanical Properties
The mechanical properties of HASTELLOY(r) B-3 are provided below.
| Properties |
Metric |
Imperial |
| Tensile strength (0.125in.) |
0.88 GPa |
129 ksi |
| Yield strength (0.125in.) |
0.44 GPa |
64.5 ksi |
| Elongation at break (0.125in.) |
57.50% |
57.50% |
Other Designations
Equivalent materials to HASTELLOY(r) B-3 are:
ASTM B333
ASTM B335
ASTM B366
ASTM B564
ASTM B619
ASTM B622
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