RINA D460 is an extra-high-strength marine steel plate certified by the Italian classification society RINA (Registro Italiano Navale) for shipbuilding and offshore applications. The "D" grade signifies it is impact tested at -20°C . It has a minimum yield strength of 460 MPa and tensile strength ranging from 570 to 720 MPa, with a minimum elongation of 17% . Impact energy requirements are minimum 31J (transverse) and 46J (longitudinal) at -20°C . The chemical composition is strictly controlled with carbon ≤0.21% and manganese ≤1.70% . This grade is typically supplied in normalized, quenched and tempered (QT), or TMCP conditions and is available in thicknesses up to 260mm . It is widely used for hull structures, offshore platforms, and critical marine engineering components .
RINA D500 is an ultra-high-strength marine steel plate also certified by RINA, with impact toughness tested at -20°C . The "500" denotes a minimum yield strength of 500 MPa and tensile strength ranging from 610 to 770 MPa, with a minimum elongation of 16% . Impact energy requirements are minimum 33J (longitudinal) at -20°C . The chemical composition features carbon ≤0.20%, manganese ≤1.70%, and includes elements such as nickel and copper to enhance corrosion resistance in marine environments . This grade is designed for the most demanding structural components in shipbuilding, offshore platforms, and FPSO vessels requiring superior strength-to-weight ratio .
Both RINA D460 and RINA D500 are RINA-certified extra-high-strength marine steels with excellent low-temperature toughness tested at -20°C, ensuring reliable performance in harsh marine environments . Their primary difference lies in strength level: D460 offers a minimum yield strength of 460 MPa with tensile strength of 570-720 MPa, suitable for high-strength offshore platforms and general shipbuilding , while D500 provides a higher minimum yield strength of 500 MPa with tensile strength reaching 610-770 MPa, designed for more demanding load-bearing applications requiring superior strength-to-weight ratio . Both grades feature controlled chemical composition with carbon ≤0.21% and maintain good weldability for critical marine service, with D500 offering enhanced corrosion resistance through nickel and copper additions .
RINA D460 extra high Strength Chemical Composition in Tempering and Quenching
|
Element |
RINA D460 Max % |
Element |
RINA D460 Max % |
|
C |
0.20 |
Ni |
0.40 |
|
Mn |
1.70 |
Mo |
0.08 |
|
Si |
0.10-0.55 |
Al |
0.020 min |
|
S |
0.030 |
Nb |
0.20-0.05 |
|
P |
0.030 |
V |
0.05-0.10 |
|
Cu |
0.35 |
Ti |
0.0007-0.05 |
|
Cr |
0.20 |
N |
|
RINA D500 extra high Strength Chemical Composition in Tempering and Quenching
|
Element |
RINA D500 Max % |
Element |
RINA D500 Max % |
|
C |
0.20 |
Ni |
0.40 |
|
Mn |
1.70 |
Mo |
0.08 |
|
Si |
0.10-0.55 |
Al |
0.020 min |
|
S |
0.030 |
Nb |
0.20-0.05 |
|
P |
0.030 |
V |
0.05-0.10 |
|
Cu |
0.35 |
Ti |
0.0007-0.05 |
|
Cr |
0.20 |
N |
|
RINA D460 extra high strength property in Tempering and Quenching
|
Grade |
Thickness |
Yield Strength |
Tensile Strength |
Elongation |
Impact Energy |
|
(mm) |
MPa (min) |
MPa |
% (min) |
(KV J) (min) |
|
|
|
|
|
|
-20 degree |
|
|
RINA D460 |
8-260 |
460 |
570-720 |
17 |
31J |
RINA D500 extra high strength property in Tempering and Quenching
|
Grade |
Thickness |
Yield Strength |
Tensile Strength |
Elongation |
Impact Energy |
|
|
(mm) |
MPa (min) |
MPa |
% (min) |
(KV J) (min) |
|
|
|
|
|
|
-20 degree |
|
RINA D500 |
8-260 |
500 |
610-770 |
16 |
33J |
