To provide the most useful information, we will approach as a gateway to discussing the family of high-performance alloys that feature a density rating near the 4.89 g/cm³ threshold. The Density Factor: Why 4.89 g/cm³ Matters Density is the silent killer in engineering. In applications ranging from gas turbine blades to space vehicle landing gear, "every gram counts." Most traditional nickel superalloys (e.g., Inconel 718) have a density around 8.19 g/cm³. Steel sits at roughly 7.8 g/cm³. A material with a density of 4.89 g/cm³ is incredibly lightweight—closer to titanium (4.5 g/cm³) than to nickel.
If you are pursuing a project that specifies Haynes 4.89, you are at the cutting edge of materials science. You are likely working on a classified aerospace frame, a nuclear micro-reactor, or a high-end racing engine. Do not treat this material like standard bar stock. Treat it with the respect it deserves: strict temperature controls, certified welding procedures, and a direct line to the engineers at Haynes International. haynes 4.89
| Property | Haynes 4.89 (Theoretical) | Titanium 6Al-4V | Inconel 718 | Haynes 188 | | :--- | :--- | :--- | :--- | :--- | | | 4.89 | 4.43 | 8.19 | 8.33 | | Max Service Temp (°C) | ~800 | 600 | 980 | 1,095 | | Oxidation Resistance | Excellent (Haynes family) | Poor above 600°C | Good | Excellent | | Cost per lb | Very High (Proprietary) | High | Moderate | Very High | To provide the most useful information, we will