Difference between LR DH50 and LR DH69 steel plate

Mar 10, 2026 Leave a message

LR DH50 is an extra-high-strength marine steel plate certified by Lloyd's Register (LR) . The "DH" designation signifies it is a higher-strength grade with impact toughness tested at -20°C . It has a minimum yield strength of 500 MPa and tensile strength ranging from 610 to 770 MPa, with minimum elongation of 18% for thicknesses up to 100mm . Impact energy requirements are minimum 50J (longitudinal) or 33J (transverse) at -20°C . The chemical composition is strictly controlled with carbon ≤0.20% and manganese ≤1.70%, featuring microalloying elements including Nb, V, and Ti . This grade is typically supplied in normalized or controlled rolled conditions and is widely used for demanding structural components in shipbuilding and offshore platforms.

 

LR DH69 is an ultra-high-strength marine steel plate also certified by Lloyd's Register (LR) with impact toughness tested at -20°C . The "69" denotes a minimum yield strength of 690 MPa . It has a tensile strength ranging from 770 to 940 MPa and minimum elongation of 16% for thicknesses up to 100mm . Impact energy requirements are minimum 69J (longitudinal) or 46J (transverse) at -20°C . The chemical composition is similar to DH50 with carbon ≤0.20% and manganese ≤1.70%, along with microalloying elements . This grade is designed for the most demanding load-bearing applications in shipbuilding, ultra-large container vessels, and offshore structures requiring maximum strength-to-weight ratio.

 

Both LR DH50 and LR DH69 are LR-certified extra-high-strength marine steels with impact toughness tested at -20°C, ensuring reliable performance in cold marine environments . Their primary difference lies in strength level: DH50 offers a minimum yield strength of 500 MPa with tensile strength of 610-770 MPa, suitable for high-strength offshore structures , while DH69 provides a substantially higher minimum yield strength of 690 MPa with tensile strength reaching 770-940 MPa, offering approximately 38% greater strength for the most demanding applications requiring maximum weight reduction . Both grades feature similar controlled chemical composition with carbon ≤0.20% and manganese ≤1.70%, and require advanced processing like TMCP or quenching and tempering to achieve their superior mechanical properties while maintaining good weldability for critical marine service.

 

Chemical Composition

 

LR DH50 extra high Strength Chemical Composition

Grade

The Element Max (%)

C

Si

Mn

P

S

Al

N

LR DH50

0.20

0.55

1.70

0.030

0.030

0.015

0.020

Nb

V

Ti

Cu

Cr

Ni

Mo

0.02-0.05

0.03-0.10

0.02

 

 

 

 

 

LR DH69 extra high Strength Chemical Composition

Grade

The Element Max (%)

C

Si

Mn

P

S

Al

N

LR DH69

0.20

0.55

1.70

0.030

0.030

0.015

0.020

Nb

V

Ti

Cu

Cr

Ni

Mo

0.02-0.05

0.03-0.10

0.02

 

 

 

 

 

Mechanical Property

 

 

LR DH50 extra high strength property

Grade

 

Mechanical Property

Charpy V Impact Test

Thickness

Yield

Tensile

Elongation

Degree

Energy 1

Energy 2

LR DH50

mm

Min Mpa

Mpa

Min %

-20

J

J

t≤50

500

610-770

18%

33

50

50<t≤70

500

610-770

18%

33

50

70<t≤100

500

610-770

18%

33

50

Note: Energy 1 is transverse impact test, Energy 2 is longitudinal

 

LR DH69 extra high strength property

Grade

 

Mechanical Property

Charpy V Impact Test

Thickness

Yield

Tensile

Elongation

Degree

Energy 1

Energy 2

LR DH69

mm

Min Mpa

Mpa

Min %

-20

J

J

t≤50

690

770-940

16%

46

69

50<t≤70

690

770-940

16%

46

69

70<t≤100

690

770-940

16%

46

69

Note: Energy 1 is transverse impact test, Energy 2 is longitudinal