Haynes 25 (L605) Alloy 1.250in Bar
Haynes 25 (L605) Alloy 1.250in Bar
SKU:HAY-63d5a2
Explore the superior strength and resilience of Haynes® 25 (L605) Alloy in 1.250in size. Ideal for high-temp applications.
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$99.99
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$99.99
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per
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The 1.250 Inch (in) Size Haynes® 25 (L605) Alloy is a high-performance material ideal for applications requiring excellent strength at high temperatures up to 1800°F. With resistance to oxidation, carburization, galling, marine environments, acids, and body fluids, this non-magnetic alloy offers exceptional durability and reliability. Its mechanical properties include a Tensile Strength of 122 ksi, Yield Strength of 69 ksi, and an Elongation of 41%, making it suitable for demanding environments. Suitable for gas turbine engine components, bearings, springs, and more.

Product Specifications
Applications 0
Gas turbine engine combustion chambers and afterburnersHigh temperature ball bearings and bearing racesSpringsHeart valves
Features 0
Outstanding high temperature strengthOxidation resistant to 1800 ºFGalling ResistantResistant to marine environments, acids and body fluids
General Resistance Barrod Usa
AMS 5759 | F90
General Resistance Forging Usa
AMS 5759
General Resistance General Resistance
Temperature | Oxidation
General Resistance Sheetplate Usa
AMS 5537
General Resistance Unified Numbering System Uns
R30605
General Resistance Weld Wire
AMS 5796
General Resistance Werkstof
2.4964
Machinability Ratings Note
These machinability ratios must be recognized as approximate values. They are a reasonable guide to relative tool life and lower required for cutting. It is obvious, however, that variables of speed, cutting oil, feed and depth of cut will significantly affect these ratios.
Machinability Ratings Speed Percent Of B1112
25 (L-605) : 21 | Cold Worked: 9
Machinability Ratings Speed Surface
25 (L-605) : 35 ft/mm | Cold Worked: 15 ft/mm
Machining Section 0
The alloys described here work harden rapidly during machining and require more power to cut than do the plain carbon steels. The metal is 'gummy', with chips that tend to be stringy and tough. Machine tools should be rigid and used to no more than 75% of their rated capacity. Both work piece and tool should be held rigidly; tool overhang should be minimized. Rigidity is particularly important when machining titanium, as titanium has a much lower modulus of elasticity than either steel or nickel alloys. Slender work pieces of titanium tend to deflect under tool pressures causing chatter, tool rubbing and tolerance problems.Make sure that tools are always sharp. Change to sharpened tools at regular intervals rather than out of necessity. Titanium chips in particular tend to gall and weld to the tool cutting edges, speeding up tool wear and failure. Remember- cutting edges, particularly throw-away inserts, are expendable. Don't trade dollars in machine time for pennies in tool cost.Feed rate should be high enough to ensure that the tool cutting edge is getting under the previous cut thus avoiding work-hardened zones. Slow speeds are generally required with heavy cuts. Sulfur chlorinated petroleum oil lubricants are suggested for all alloys but titanium. Such lubricants may be thinned with paraffin oil for finish cuts at higher speeds. The tool should not ride on the work piece as this will work harden the material and result in early tool dulling or breakage. Use an air jet directed on the tool when dry cutting, to significantly increase tool life.Lubricants or cutting fluids for titanium should be carefully selected. Do not use fluids containing chlorine or other halogens (fluorine, bromine or iodine), in order to avoid risk of corrosion problems. The speeds are for single point turning operations using high speed steel tools. This information is provided as a guide to relative machinability, higher speeds are used with carbide tooling.
Mechanical Elongation
41 %
Mechanical Hardness
B93
Mechanical Mechanical Type
Annealed
Mechanical Tensile Strength
122 ksi
Mechanical Yield Strength
69 ksi
Nominal Chemistry Chromium Cr
20
Nominal Chemistry Cobalt Co
Balanced
Nominal Chemistry Manganese Mn
1.5
Nominal Chemistry Maximum Carbon C
0.10
Nominal Chemistry Maximum Iron Fe
3
Nominal Chemistry Maximum Silicon Si
0.4
Nominal Chemistry Nickel Ni
10
Nominal Chemistry Tungsten W
15
Physical Density
0.333 lb/in³
Physical Melting Range
2570 to 2620 ºF
Physical Specific Heat
0.090 Btu/lb ºF
Physical Thermal Expansion Coefficient At 70 To 600 Degree Fahre
7.61 x 10-6 in/in/ºF
Specifications Alloy
L605
Specifications Size
1.250 in
Specifications Type
Bar