X3CrAlTi18-2 1.4736 BS-EN-10095-1999
Steel designation
Name:X3CrAlTi18-2
Number:1.4736
X3CrAlTi18-2 1.4736 Chemical composition
C:max.0.04
Si:max1.00
Mn(max):1.00
P(max):0.04
S(max):0.015
Cr:17~18
Al:1.70~2.10
N: 0.15~0.25
Others:0.2+4(C+N)≤Ti≤0.80
X3CrAlTi18-2 1.4736 Mechanical properties at room temperature
Form: rods and sections
Thickness a or diameter(d:mm): a ≤ 25
HB max.:200
Proof strength: Rp0,2N/mm2(min):280
Tensile strength (Rm N/mm²):500~650
A % min:
Long product:-
Flat products:(1)0,5≤a<3:(1,tr):25 (2)3 < a (1):25; (tr):25
Heat treatment
Symbol:+A (A = annealed)
Temperature(℃):870~930
Type of cooling: air,
Maximum application temperature Ta for air
Ta max(℃):1000
Creep properties
Estimated average value of the strength for 1 % elongation at elevated temperature (Strength in N/mm2)
Elongation 1 % in 1 000 h:
500℃:80
600℃:27.5
700℃:8.5
800℃:3.7
900℃:1.8
Elongation 1 % in 10 000 h:
500℃:50
600℃:17.5
700℃:4.7
800℃:2.1
900℃:1.0
Estimated average value of the strength for rupture at elevated temperature
(Strength in N/mm2)
Rupture in 1 000 h:
500℃:160
600℃:55
700℃:17
800℃:7.5
900℃:3.6
Rupture in 10 000 h:
500℃:100
600℃:35
700℃:9.5
800℃:4.3
900℃:1.9
Rupture in 100 000 h:
500℃:55
600℃:20
700℃:5
800℃:2.3
900℃:1.0
Physical properties for the steels and nickel alloys
Density(kg/dm2):7.7
Linear expansion coefficient (10⁻⁶K⁻¹): between 20℃ and
200℃:10.5
400℃:10.8
600℃:12.0
800℃:12.5
1000℃:13.0
Thermal conductivity
W/(m.K)
at 20℃: 21
at 500℃:23
Specific heat capacity
kJ(kg.k)
at 20℃:0.50
Electrical resistivity
Ω.mm²/m
at 20℃:0.60
Magnetizability:yes