EOS Maraging Steel M S1 Powder Processed by DMSL on EOSINT M 270 and EOSINT M 280

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EOS Maraging Steel M S1 Powder Processed by DMSL on EOSINT M 270 and EOSINT M 280
Categories:	Metal; 3D Printing/Additive Manufacturing Metal; Ferrous Metal; Alloy Steel
Material Notes:	Description: Parts built in EOS Maraging Steel MS 1have a chemical composition corresponding to US classification 18% Ni Maraging 300, European 1.2709 and German X3NiCoMoT 1i 8-9-5 .This kind of steel is characterized by having very good mechanical properties, and being easily heat treatable using a simple thermal age-hardening process to obtain excellent hardness and strength. Parts built from EOS Maraging Steel MS1 are easily machinable after the building process and can be easily post-hardened to more then 50 HRC by age-hardening at 490 °C (914 °F) for 6 hours. In both as-built and age-hardened states the parts can be machined, spark-eroded, welded, micro shot-peened, polished and coated if required. Due to the layer wise building method, the parts have a certain anisotropy, which can be reduced or removed by appropriate heat treatment - see Technical Data for examples. Ageing temperature 490 °C (914 °F), 6 hours, air cooling Information provided by Proto3000
Key Words:	Direct Metal Laser Sintering
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Physical Properties	Metric	English	Comments

Density	8.00 - 8.10 g/cc	0.289 - 0.293 lb/in³

Mechanical Properties	Metric	English	Comments
Hardness, Rockwell C	33.0 - 37.0	33.0 - 37.0	As built; EN/ISO 6508-1
	50.0 - 56.0	50.0 - 56.0	Heat treated; EN/ISO 6508-1
Tensile Strength	900 - 1100 MPa	131000 - 160000 psi	in vertical direction (Z), As built; ISO 689-21:2009 (B) Annex D
	1000 - 1200 MPa	145000 - 174000 psi	in horizontal direction (XY), As built; ISO 689-21:2009 (B) Annex D
	1930 MPa	280000 psi	in horizontal direction (XY), Heat treated; ISO 689-21:2009 (B) Annex D
	1950 - 2150 MPa	283000 - 312000 psi	in vertical direction (Z), Heat treated; ISO 689-21:2009 (B) Annex D
Tensile Strength, Yield	900 - 1100 MPa @Strain 0.2 %	131000 - 160000 psi @Strain 0.2 %	in vertical direction (Z), As built; ISO 689-21:2009 (B) Annex D
	950 - 1150 MPa @Strain 0.2 %	138000 - 167000 psi @Strain 0.2 %	in horizontal direction (XY), As built; ISO 689-21:2009 (B) Annex D
	1862 MPa @Strain 0.2 %	270100 psi @Strain 0.2 %	in horizontal direction (XY), Heat treated; ISO 689-21:2009 (B) Annex D
	1890 - 2090 MPa @Strain 0.2 %	274000 - 303000 psi @Strain 0.2 %	in vertical direction (Z), Heat treated; ISO 689-21:2009 (B) Annex D
Elongation at Break	>= 2.00 %	>= 2.00 %	in horizontal direction (XY), Heat treated; ISO 689-21:2009 (B) Annex D
	2.00 - 6.00 %	2.00 - 6.00 %	in vertical direction (Z), Heat treated; ISO 689-21:2009 (B) Annex D
	6.00 - 14.0 %	6.00 - 14.0 %	in vertical direction (Z), As built; ISO 689-21:2009 (B) Annex D
	6.00 - 14.0 %	6.00 - 14.0 %	in horizontal direction (XY), As built; ISO 689-21:2009 (B) Annex D
Modulus of Elasticity	130 - 170 GPa	18900 - 24700 ksi	in vertical direction (Z), As built; ISO 689-21:2009 (B) Annex D
	135 - 185 GPa	19600 - 26800 ksi	in horizontal direction (XY), As built; ISO 689-21:2009 (B) Annex D
	160 - 200 GPa	23200 - 29000 ksi	in horizontal direction (XY), Heat treated; ISO 689-21:2009 (B) Annex D
	160 - 200 GPa	23200 - 29000 ksi	in vertical direction (Z), Heat treated; ISO 689-21:2009 (B) Annex D
Charpy Impact	7.00 - 15.0 J	5.16 - 11.1 ft-lb	Notched, Heat treated
	35.0 - 55.0 J	25.8 - 40.6 ft-lb	Notched, As built

Thermal Properties	Metric	English	Comments
Specific Heat Capacity	0.430 - 0.470 J/g-°C	0.103 - 0.112 BTU/lb-°F	As built
	0.430 - 0.470 J/g-°C	0.103 - 0.112 BTU/lb-°F	Heat treated
Thermal Conductivity	14.2 - 15.8 W/m-K	98.5 - 110 BTU-in/hr-ft²-°F	As built
	19.0 - 21.0 W/m-K	132 - 146 BTU-in/hr-ft²-°F	Heat treated
Maximum Service Temperature, Air	400 °C	752 °F

Component Elements Properties	Metric	English	Comments
Aluminum, Al	0.0500 - 0.150 %	0.0500 - 0.150 %
Carbon, C	<= 0.0300 %	<= 0.0300 %
Chromium, Cr	<= 0.500 %	<= 0.500 %
Cobalt, Co	8.50 - 9.50 %	8.50 - 9.50 %
Copper, Cu	<= 0.500 %	<= 0.500 %
Iron, Fe	64.6 - 69.35 %	64.6 - 69.35 %	Balance
Manganese, Mn	<= 0.100 %	<= 0.100 %
Molybdenum, Mo	4.50 - 5.20 %	4.50 - 5.20 %
Nickel, Ni	17.0 - 19.0 %	17.0 - 19.0 %
Phosphorus, P	<= 0.100 %	<= 0.100 %
Silicon, Si	<= 0.100 %	<= 0.100 %
Sulfur, S	<= 0.0100 %	<= 0.0100 %
Titanium, Ti	0.600 - 0.800 %	0.600 - 0.800 %

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NPROTO801 / 322914

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