7 Years Factory Titanium alloy 6Al-4V ELI UNS R56401 for Peru Factories
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HY Titanium 6-4 ELI Material grades and equivalents
6-4 ELI Titanium, 6-4 ELI, UNS R56401
Introduction
Low interstitial version of HY Titanium 6-4 ELI, for maximum toughness. Preferred for marine and cryogenic applications. This grade is normally used in the annealed condition. HY Titanium 6-4 ELI is the preferred choice for the medical implant field.
Stress relief 900-1200°F 1 to 4 hours, air cool. Duplex anneal, bar and forgings: Solution anneal 50-100°F below the beta transus, hold 1 hour minimum, air cool. Then reheat within the range 1300-1400°F, hold 1 hour minimum, air cool. Stress – relief annealing is performed after welding.
Chemistry Composition
|
|
Al |
V |
Fe |
O |
C |
N |
H |
Y |
Others, |
Others, |
Ti |
|
MIN |
5.5 |
3.5 |
– |
– |
– |
– |
– |
– |
– |
– |
– |
|
MAX |
6.5 |
4.5 |
0.25 |
0.13 |
0.08 |
0.03 |
0.0125 |
0.005 |
0.1 |
0.4 |
Balance |
Features
- Resistant to bodily fluids
- Resistant to a variety of corrosive environments
- Freedom from chloride stress corrosion cracking
- Good strength and toughness over a wide temperature range
- High resistance to erosion corrosion and corrosion fatigue
- Useful resistance to dry chlorine, fluorine, hydrogen chloride and hydrogen fluoride gases
Applications
- Medical and dental implants
- Cryogenics
- Aerospace
- Chemical processing
Physical Properties
Density: 0.160 lb/in3
Melting Range: 2370 – 2460°F
Beta Transus: 91790+25°F
Minimum Tensile Properties, AMS 4919, Duplex Annealed
|
Temperature, °F |
68-212 |
68-600 |
68-1000 |
68-1200 |
68-1500 |
|
Coefficient* of Thermal Expansion, in/in°F x 10-6 |
9.18 |
9.54 |
10.08 |
10.44 |
10.8 |
Mechanical Properties
Typical hardness Rockwell: C 30-34 Specific minimums, AMS 4931, bar and forging
Representative Tensile Properties, Sheet
|
Diameter, in |
< 3.0 |
< 3.0 < 4.0 |
< 4.0) < 6.0 |
|
Tensile Strength, ksi |
125 |
123 |
120 |
|
0.2 % Yield Strength, ksi |
115 |
110 |
110 |
|
Elongation, % *L (**ST) |
10 (8) |
10 (8) |
8 (8) |
|
Reduction of Area, % *L (**ST) |
25 (–) |
20 (15) |
15 (15) |
* Longitudinal ** Short Transverse
Typical Elevated temperature Properties
|
Temperature, °F |
93 (200) |
149 (300) |
204 (400) |
260 (500) |
|
Ultimate Tensile Strength, ksi |
843.3 (121) |
772.2 (112) |
723.9 (105) |
657.7 (98) |
|
0.2 % Yield Strength, ksi |
710.2 (103) |
641.2 (93) |
586.1 (85) |
531.0 (77) |
|
Elongation, % |
13 |
15 |
16 |
16 |
| Regular shape for all kinds of alloys | |||
| Form | Specification | Supply Form | Others |
| Sheet | Thickness:0.40-4.75mm,General Width:1000、1219、1500mm | Whole Coil or piece of it | Cold Annealed,Surface 2B、2E |
| Plate | Thickness:4.76-60mm,Width:1500、2000、2500mm,Length:3000、6000、8000、8500mm(Under 10mm plate can be coiled) | Whole Coil or piece of it | Single hot rolling,Solid solution annealed state,Surface 1D |
| Belt | Thickness:0.10-3.0mm,Width:50-500mm | Whole Coil or Specified size | Cold Annealed,Surface 2B、2E |
| Bar & Rod | Rolled barΦ5-45mm,Length≤1500mm | Polished Bar(circle、Square) | Solution annealing,descaling |
| Forged barΦ26-245mm,Length≤4000mm | |||
| Weld tube | Outer diameterΦ4.76-135mm,Wall Thickness0.25-4.00mm,Length:≤35000 mm | Base on your requirement | |
| Seamless Tube | Outer diameterΦ3-114mm,Wall Thickness0.2-4.5mm | Base on your requirement | |
| Wire | Outer diameterΦ0.1-13mm | Base on your requirement | Ni & Ni alloy, Ti & Ti alloy |
| Forged piece | discs,rings,squares,blocks,slabs | Base on your requirement | Steel, Alloy |
| Flangs | All kinds of Flangs | Base on your requirement | Steel, Alloy |
| Welding Material | Coil wire Φ0.025mm-1.6mm | Base on your requirement | Certificate of Origin:America, Sweden, Britain, Germany, Austria, Italy, France. |
| Straight WireΦ1.6mm-4.0mm | |||
| Welding rodΦ1.2mm-4.0mm | |||
| Tube | Elbow, three links, four links, different diameter size | Base on your requirement | Ni & Ni alloy, Ti & Ti alloy |
| Explosive bonded laminate | Raw Sheet Thickness≥2mm | Base on your requirement | Ni & Ni alloy, Ti & Ti alloy |
Experimentální odlévání monelu na katedře strojírenské technologie při TU v Liberci – Monel je slitina niklu a mědi. Název Monel je registrován jako trademark americké firmy Specific Metals Corporation. Monel vyrobil v roce 1901 Robert Crooks Stanley, slitinu pojmenoval po tehdejším prezidentu firmy Ambrose Monellovi.
Monel vykazuje výborné mechanické vlastnosti a chemickou odolnost v náročném prostředí, např. v dlouhodobém kontaktu se slanou vodou, ale i v chemickém průmyslu. Často bývá využit tam, kde již nedostačují vlastnosti nerezových ocelí.
Monel is a group of nickel alloys, largely composed of nickel (up to sixty seven%) and copper, with tiny quantities of iron, manganese, carbon, and silicon. More powerful than pure nickel, Monel alloys are resistant to corrosion by quite a few agents, like promptly flowing seawater. They can be fabricated quickly by very hot- and chilly-working, machining, and welding.[2]
Monel was made by David H. Browne, main metallurgist for Global Nickel Co. Monel alloy four hundred is a binary alloy of the identical proportions of nickel and copper as is found naturally in the nickel ore from the Sudbury (Ontario) mines and is thus thought of a puritan alloy. Monel was named following business president Ambrose Monell, and patented in 1906.[three] Just one L was dropped, for the reason that loved ones names were being not allowed as trademarks at that time.[one] The title is now a trademark of Specific Metals Corporation.
The progress of improved metallic resources is a crucial action at the leading edge of science and know-how. Metals offer unrivalled mixtures of houses and reliability at a cost which is economical. They are adaptable mainly because subtle improvements in their microstructure can cause dramatic variations in their houses. For illustration, it is feasible to purchase business steel with a energy as lower as 50 MPa or as large as 5500 MPa. They can be built with a microstructure which is finer than that of carbon nanotubes. An understanding of the progress of microstructure in metals, rooted in thermodynamics, crystallography and kinetic phenomena is crucial for the resources scientist. The bulk of the 1.4 billion tonnes of metals made annually are the outcome of developments within just the last 10 a long time
http://www.msm.cam.ac.british isles/phase-trans/2002/creep.1.html
