EN 10216-5 X6CrNiTi18-10 Solution-Annealed – Titanium‑Stabilized Stainless Steel with Superior Corrosion Resistance & Weldability

Material X6CrNiTi18-10, comparable to X 6 CrNiTi 18 10 acc. to DIN 17440: 1985-07 is the variant of 1.4301 (X5CrNi18-10), stabilized by Ti. It is therefore after welding resistant to intercrystalline corrosion also at material thicknesses of > 6 mm. Large-scale application for welded parts in chemical apparatus engineering as well as in food, luxury food, fat and soap industry, in film and photo industrie, in leather and sugar factories and for household articles. Application up to 550 deg. if there are no media causing intercrystalline attack. the steel is owing to the Ti-addition unsuitable for mirror finishing. Permitted for load-bearing components in construction trade. The brand may be used as heat resistant steel acc. to DIN EN 10095 : 1999-05.

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Properties

General

Property	Temperature	Value
Density	20.0 °C	7.9 - 7.93 g/cm³

Mechanical

Property	Temperature	Value
Elastic modulus	-100.0 °C	206 GPa
	20.0 °C	196 - 200 GPa
	95.0 °C	193.05 GPa
	100.0 °C	190 - 194 GPa
	150.0 °C	188.23 GPa
	200.0 °C	182 - 186 GPa
	205.0 °C	182.71 GPa
	260.0 °C	177.88 GPa
	300.0 °C	174 - 179 GPa
	315.0 °C	174.44 GPa
	370.0 °C	168.92 GPa
	400.0 °C	166 - 172 GPa
	425.0 °C	164.1 GPa
	485.0 °C	159.96 GPa
	500.0 °C	158 - 165 GPa
	540.0 °C	155.13 GPa
	595.0 °C	151 GPa
	600.0 °C	150 GPa
	650.0 °C	146.17 GPa
	700.0 °C	142 GPa
	705.0 °C	140.65 GPa
	760.0 °C	135.83 GPa
	800.0 °C	134 GPa
	815.0 °C	131.69 GPa
	900.0 °C	127 GPa
	1000.0 °C	120 GPa

Elongation	20.0 °C	35 %
Elongation, transverse	20.0 °C	30 %
Poisson's ratio	20.0 °C	0.29 [-]
	95.0 °C	0.3 [-]
	150.0 °C	0.29 [-]
	205.0 °C	0.29 [-]
	260.0 °C	0.3 [-]
	315.0 °C	0.3 [-]
	370.0 °C	0.3 [-]
	425.0 °C	0.31 [-]
	485.0 °C	0.32 [-]
	540.0 °C	0.32 [-]
	595.0 °C	0.34 [-]
	650.0 °C	0.34 [-]
	705.0 °C	0.33 [-]
	760.0 °C	0.33 [-]
	815.0 °C	0.35 [-]

Shear modulus	20.0 °C	77.22 GPa
	95.0 °C	74.46 GPa
	150.0 °C	73.08 GPa
	205.0 °C	71.02 GPa
	260.0 °C	68.26 GPa
	315.0 °C	66.88 GPa
	370.0 °C	64.81 GPa
	425.0 °C	62.74 GPa
	485.0 °C	60.67 GPa
	540.0 °C	58.61 GPa
	595.0 °C	56.54 GPa
	650.0 °C	54.47 GPa
	705.0 °C	53.09 GPa
	760.0 °C	51.02 GPa
	815.0 °C	48.95 GPa

Tensile strength	20.0 °C	460 - 730 MPa
Tensile strength, transverse	20.0 °C	460 - 730 MPa
Yield strength Rp0.2	20.0 °C	180 - 200 MPa
	50.0 °C	162 - 190 MPa
	100.0 °C	147 - 176 MPa
	150.0 °C	132 - 167 MPa
	200.0 °C	118 - 157 MPa
	250.0 °C	108 - 147 MPa
	300.0 °C	100 - 136 MPa
	350.0 °C	94 - 130 MPa
	400.0 °C	89 - 125 MPa
	450.0 °C	85 - 121 MPa
	500.0 °C	81 - 119 MPa
	550.0 °C	80 - 118 MPa

Yield strength Rp0.2, transverse	20.0 °C	180 - 200 MPa
Yield strength Rp1.0	20.0 °C	215 - 235 MPa
	50.0 °C	201 - 222 MPa
	100.0 °C	181 - 208 MPa
	150.0 °C	162 - 195 MPa
	200.0 °C	147 - 185 MPa
	250.0 °C	137 - 175 MPa
	300.0 °C	127 - 167 MPa
	350.0 °C	121 - 161 MPa
	400.0 °C	116 - 156 MPa
	450.0 °C	112 - 152 MPa
	500.0 °C	109 - 149 MPa
	550.0 °C	108 - 147 MPa

Yield strength Rp1.0, transverse	20.0 °C	215 - 235 MPa

Thermal

Property	Temperature	Value	Comment
Coefficient of thermal expansion	-100.0 °C	1.49E-5 1/K
	20.0 °C	1.61E-5 1/K
	100.0 °C	1.6E-5 - 1.67E-5 1/K
	200.0 °C	1.65E-5 - 1.72E-5 1/K
	300.0 °C	1.7E-5 - 1.77E-5 1/K
	400.0 °C	1.75E-5 - 1.81E-5 1/K
	500.0 °C	1.8E-5 - 1.84E-5 1/K
	600.0 °C	1.88E-5 1/K
	700.0 °C	1.91E-5 1/K
	800.0 °C	1.94E-5 1/K
	900.0 °C	1.97E-5 1/K
	1000.0 °C	2E-5 1/K

Melting point		1230 - 1480 °C	Typical for Austenitic Stainless Steel
Specific heat capacity	-100.0 °C	440 J/(kg·K)
	20.0 °C	472 - 500 J/(kg·K)
	100.0 °C	487 J/(kg·K)
	200.0 °C	503 J/(kg·K)
	300.0 °C	512 J/(kg·K)
	400.0 °C	520 J/(kg·K)
	500.0 °C	530 J/(kg·K)
	600.0 °C	541 J/(kg·K)
	700.0 °C	551 J/(kg·K)
	800.0 °C	559 J/(kg·K)
	900.0 °C	565 J/(kg·K)
	1000.0 °C	571 J/(kg·K)

Thermal conductivity	20.0 °C	14.3 - 15 W/(m·K)
	100.0 °C	15.8 W/(m·K)
	200.0 °C	17.5 W/(m·K)
	300.0 °C	19 W/(m·K)
	400.0 °C	20.5 W/(m·K)
	500.0 °C	21.9 W/(m·K)
	600.0 °C	23.3 W/(m·K)
	700.0 °C	24.6 W/(m·K)
	800.0 °C	26 W/(m·K)
	900.0 °C	27.4 W/(m·K)
	1000.0 °C	28.8 W/(m·K)

Thermal diffusivity	20.0 °C	3.8 mm²/s
	100.0 °C	4 mm²/s
	200.0 °C	4.2 mm²/s
	300.0 °C	4.6 mm²/s
	400.0 °C	4.8 mm²/s
	500.0 °C	4.9 mm²/s
	600.0 °C	5 mm²/s
	700.0 °C	5.3 mm²/s
	800.0 °C	5.6 mm²/s
	900.0 °C	5.9 mm²/s
	1000.0 °C	6 mm²/s

Electrical

Property	Temperature	Value
Electrical resistivity	20.0 °C	7.1E-7 - 7.3E-7 Ω·m
	100.0 °C	7.76E-7 Ω·m
	200.0 °C	8.49E-7 Ω·m
	300.0 °C	9.14E-7 Ω·m
	400.0 °C	9.71E-7 Ω·m
	500.0 °C	1.02E-6 Ω·m
	600.0 °C	1.07E-6 Ω·m
	700.0 °C	1.1E-6 Ω·m
	800.0 °C	1.14E-6 Ω·m
	900.0 °C	1.17E-6 Ω·m
	1000.0 °C	1.19E-6 Ω·m

Chemical properties

Property	Value
Carbon	0.08 %
Chromium	17 - 19 %
Manganese	2 %
Nickel	9 - 12 %
Phosphorus	0.04 %
Silicon	1 %
Sulfur	0.015 %
Titanium	0.7 %

EN 10216-5 X6CrNiNb18-10 Solution Annealed Steel (+AT) – Superior Corrosion Resistance & Weldability EN 10217-2 Grade 16Mo3 Normalized Steel Tubes – Ideal for High-Temperature, High-Pressure Applications

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