Custom 465 is a premium martensitic age-hardenable stainless steel alloy known for high strength, toughness, and corrosion resistance. The unique Custom 465 chemical composition includes 11.00–12.50% chromium which provide strong corrosion protection, while 10.75–11.25% nickel ensure stability and toughness. Additions of 0.75–1.25% molybdenum improve pitting resistance, while titanium and aluminum help in precipitation hardening. Carbon, manganese, silicon, nitrogen, phosphorus, and sulfur remain in very low amounts to keep the steel clean and strong. Iron make up the balance by providing structure. Parag Metals is a trusted Custom 465 stainless steel supplier, delivering reliable quality for demanding industries. We supply alloy in several heat-treated conditions such as H950, H1000, or H1150, each provide balance of strength and ductility.
Table of Content
| Rods, Bars, Wires and Forgings | ASTM A693 / ASTM A564 / ASTM F899 / MMPDS-01 / UNS S46500 |
|---|
| Weight% | C | P | Si | Ni | Ti | Mn | S | Cr | Mo | Fe |
|---|---|---|---|---|---|---|---|---|---|---|
| Alloy 465 | 0.02 max | 0.015 max | 0.25 max | 10.75-11.25 | 1.5-1.8 | 0.25 max | 0.010 max | 11.0 -12.5 | 0.75-1.25 | Bal |
| Material | Condition |
Orientation | 0.2 % Yield Strength (Mpa) | Ultimate Tensile Strength (Mpa) | % Elongation in 4D | % Reduction of Area | Notch Tensile Strength | NTS/UTS | Charpy V Notch Impact | Rockwell C Hardness |
|---|---|---|---|---|---|---|---|---|---|---|
| Alloy 465 Bar 3″ to 9″ Round Custom 465® |
H950 | Long | 1655 | 1765 | 12 | 57 | 2475 | 1.40 | 16 | 49.5 |
| Alloy 465 Bar 3″ to 9″ Round Custom 465® |
H950 | Trans | 1648 | 1765 | 11 | 49 | 2386 | 1.35 | 13 | 49.5 |
| Alloy 465 Bar 3″ to 9″ Round Custom 465® |
H1000 | Long | 1496 | 1593 | 14 | 63 | 2427 | 1.52 | 35 | 47.5 |
| Alloy 465 Bar 3″ to 9″ Round Custom 465® |
H1000 | Trans | 1503 | 1600 | 13 | 57 | 2392 | 1.50 | 28 | 47.5 |
| Property | Imperial | Metric |
|---|---|---|
| Specific Gravity | 7.92 | 7.92 |
| Specific Heat | 10 Btu/lb.-°F | 420 Joules/kg-K |
| Density | 0.286 lb/in3 | 7.92 g/cm3 |
| Melting Range | 2500 – 2600 °F | 1370 – 1430 °C |
| Magnetic Permeability | 1.01 | 1.007 |
| Linear Coefficient of Thermal Expansion (70 °F to 200 °F) (21 °C to 93 °C) |
9.17 [10(-6)/°F] | 16.5 [10(-6)/K] |
| Linear Coefficient of Thermal Expansion (70 °F to 400 °F) (21 °C to 204 °C) |
9.35 [10(-6)/°F] | 16.8 [10(-6)/K] |
| Linear Coefficient of Thermal Expansion (70 °F to 600 °F) (27 °C to 316 °C) |
9.47 [10(-6)/°F] | 17 [10(-6)/K] |
| Linear Coefficient of Thermal Expansion (70 °F to 800 °F) (21 °C to 427 °C) |
9.64 [10(-6)/°F] | 17.4 [10(-6)/K] |
| Linear Coefficient of Thermal Expansion (70 °F to 1000 °F) (21 °C to 538 °C) |
9.78 [10(-6)/°F] | 17.6 [10(-6)/K] |
| Linear Coefficient of Thermal Expansion (70 °F to 1200 °F) (21 °C to 649 °C) |
9.88 [10(-6)/°F] | 17.8 [10(-6)/K] |
| Linear Coefficient of Thermal Expansion (70 °F to 1400 °F) (21 °C to 760 °C) |
10.32 [10(-6)/°F] | 18.6 [10(-6)/K] |
| Thermal Conductivity (@ 302 °F) (@ 150 °C) |
8.7 Btu/(hr/ft²/in/°F) | 15.1 [W/m-K] |
| Thermal Conductivity (@ 572 °F) (@ 300 °C) |
10.3 Btu/(hr/ft²/in/°F) | 17.8 [W/m-K] |
| Thermal Conductivity (@ 932 °F) (@ 500 °C) |
12.6 Btu/(hr/ft²/in/°F) | 21.8 [W/m-K] |
| Thermal Conductivity (@ 1112 °F) (@ 600 °C) |
13.8 Btu/(hr/ft²/in/°F) | 23.9 [W/m-K] |
| Shear Modulus (annealed) at 450 °F (232 °C) | 11000 ksi | 75.8 GPa |
| Magnetic Permeability (Solution Treated) |
1.010 | 1.010 |
| Magnetic Permeability (Solution Treated and Aged) |
1.007 | 1.010 |
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