LR DH32 is a higher-strength structural steel plate certified by Lloyd's Register (LR) for shipbuilding and marine applications . The "D" grade signifies it is impact tested at -20°C . It has a minimum yield strength of 315 MPa (46 ksi) and tensile strength ranging from 440 to 590 MPa (64-83 ksi) . Minimum elongation is 22% . The chemical composition features carbon ≤0.18% and manganese 0.90-1.60%. It is typically supplied in normalized or controlled rolled conditions and is widely used for hull structures and general shipbuilding components.
LR DH46 is an extra-high-strength marine steel plate also certified by Lloyd's Register (LR) with impact toughness tested at -20°C . The "46" denotes a minimum yield strength of 460 MPa and tensile strength ranging from 570 to 720 MPa, with minimum elongation of 19% for thicknesses up to 100mm . Impact energy requirements are minimum 46J (longitudinal) or 31J (transverse) at -20°C . The chemical composition features carbon ≤0.20% and manganese ≤1.70%, with microalloying elements. This grade is supplied in normalized or controlled rolled conditions and is designed for demanding structural components in shipbuilding and offshore platforms.
Both LR DH32 and LR DH46 are LR-certified 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: DH32 offers a minimum yield strength of 315 MPa with tensile strength of 440-590 MPa, suitable for general high-strength hull construction and secondary structures , while DH46 provides a substantially higher minimum yield strength of 460 MPa with tensile strength reaching 570-720 MPa, designed for more demanding load-bearing applications requiring superior strength. Both grades feature controlled chemical composition and maintain good weldability for critical marine service, with DH46 requiring stricter alloying to achieve its enhanced mechanical properties.
Chemical Composition
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LR DH32 high Strength Chemical Composition |
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|
Grade |
The Element Max (%) |
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|
C |
Si |
Mn |
P |
S |
Al |
N |
|
|
LR DH32 |
0.18 |
0.05 |
0.9-1.6 |
0.035 |
0.035 |
0.015 |
|
|
Nb |
V |
Ti |
Cu |
Cr |
Ni |
Mo |
|
|
0.02-0.05 |
0.03-0.10 |
0.02 |
0.35 |
0.20 |
0.40 |
0.08 |
|
|
LR DH46 extra high Strength Chemical Composition |
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|
Grade |
The Element Max (%) |
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|
C |
Si |
Mn |
P |
S |
Al |
N |
|
|
LR DH46 |
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
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LR DH32 high strength property |
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|
Grade |
|
Mechanical Property |
Charpy V Impact Test |
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|
Thickness |
Yield |
Tensile |
Elongation |
Degree |
Energy 1 |
Energy 2 |
|
|
LR DH32 |
mm |
Min Mpa |
Mpa |
Min % |
-20 |
J |
J |
|
t≤50 |
315 |
440-590 |
22% |
20 |
31 |
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|
50<t≤70 |
315 |
440-590 |
22% |
26 |
38 |
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|
70<t≤100 |
315 |
440-590 |
22% |
31 |
46 |
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|
Note: Energy 1 is transverse impact test, Energy 2 is longitudinal |
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|
LR DH46 extra high strength property |
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|
Grade |
|
Mechanical Property |
Charpy V Impact Test |
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|
Thickness |
Yield |
Tensile |
Elongation |
Degree |
Energy 1 |
Energy 2 |
|
|
LR DH46 |
mm |
Min Mpa |
Mpa |
Min % |
-20 |
J |
J |
|
t≤50 |
460 |
570-720 |
19% |
31 |
46 |
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|
50<t≤70 |
460 |
570-720 |
19% |
31 |
46 |
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|
70<t≤100 |
460 |
570-720 |
19% |
31 |
46 |
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|
Note: Energy 1 is transverse impact test, Energy 2 is longitudinal |
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