EOS Titanium Ti64 Grade 5 DMSL on EOS M 290; 80 µm Layer Thickness

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EOS Titanium Ti64 Grade 5 DMSL on EOS M 290; 80 µm Layer Thickness
Categories:	Metal; 3D Printing/Additive Manufacturing Metal; Nonferrous Metal; Titanium Alloy
Material Notes:	EOS Titanium Ti64 Grade 5 is a Ti6Al4V alloy, which is well-known for having excellent mechanical properties: low density with high strength and excellent corrosion resistance. The alloy has low weight compared to superalloys and steels and higher fatigue resistance compared to other lightweight alloys. Parts built with EOS Titanium Ti64 Grade 5 powder can be machined, shot-peened and polished in as manufactured and heat treated states. Due to the layerwise building method, the parts have a certain anisotropy. Heat treatment is recommended to reduce internal stresses and increase ductility. EOS Titanium Ti64 Grade 5 powder can be used on the EOS M 290 with a 40 µm and 80 µm process and on the EOS M 400-4 with an 80 µm process. Main Characteristics: Low weight combined with high strength Excellent corrosion resistance High fatigue resistance compared to other lightweight alloys The parts fulfill chemical requirements for Grade 5 alloy Typical Applications: Aerospace components Automotive components Other industrial applications where low weight in combination with high strength are required Information provided by EOS GmbH (Electro Optical Systems).
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Physical Properties	Metric	English	Comments

Particle Size	20 - 80 µm	20 - 80 µm
Thickness	80.0 microns	3.15 mil

Mechanical Properties	Metric	English	Comments
Tensile Strength	1010 MPa	146000 psi	HIP horizontal
	1020 MPa	148000 psi	HIP vertical
	1100 MPa	160000 psi	Heat treated horizontal
	1100 MPa	160000 psi	Heat treated vertical
Tensile Strength, Yield	900 MPa	131000 psi	HIP horizontal
	920 MPa	133000 psi	HIP vertical
	1000 MPa	145000 psi	Heat treated horizontal
	1020 MPa	148000 psi	Heat treated vertical
Elongation at Break	15 %	15 %	Heat treated horizontal
	15 %	15 %	Heat treated vertical
	16 %	16 %	HIP horizontal
	16 %	16 %	HIP vertical
Reduction of Area	>= 25 %	>= 25 %	Heat treated horizontal
	>= 25 %	>= 25 %	Heat treated vertical
	>= 25 %	>= 25 %	HIP horizontal
	>= 25 %	>= 25 %	HIP vertical
Fatigue Strength	675 MPa @# of Cycles 1.00e+7	97900 psi @# of Cycles 1.00e+7	ASTM E466

Component Elements Properties	Metric	English	Comments
Aluminum, Al	5.5 - 6.75 %	5.5 - 6.75 %
Carbon, C	<= 0.080 %	<= 0.080 %
Hydrogen, H	<= 0.015 %	<= 0.015 %
Iron, Fe	<= 0.30 %	<= 0.30 %
Nitrogen, N	<= 0.050 %	<= 0.050 %
Other, each	<= 0.10 %	<= 0.10 %
Other, total	<= 0.40 %	<= 0.40 %
Oxygen, O	<= 0.20 %	<= 0.20 %
Titanium, Ti	87.6 - 91 %	87.6 - 91 %	Balance
Vanadium, V	3.5 - 4.5 %	3.5 - 4.5 %
Yttrium, Y	<= 0.0050 %	<= 0.0050 %

Descriptive Properties
Surface roughness	9 µm		Ra, Vertical

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to view all the property values for this datasheet as they were originally entered into MatWeb.

NEOS960 / 280620

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