BV D500 is an extra-high-strength marine steel plate certified by Bureau Veritas (BV) . The "D" grade signifies it is impact tested at -20°C, requiring minimum impact energy of 33J (transverse) or 50J (longitudinal) . It has a minimum yield strength of 500 MPa and tensile strength ranging from 610 to 770 MPa, with minimum elongation of 16% . The chemical composition is strictly controlled with carbon ≤0.20%, manganese ≤1.70%, and silicon ≤0.55% . This grade is typically supplied in quenched and tempered (QT) or thermomechanical controlled processed (TMCP) conditions . It is widely used for hull construction, decks, and structural components of ships and offshore structures.
BV D690 is an ultra-high-strength marine steel also certified by Bureau Veritas (BV) with impact toughness tested at -20°C, requiring minimum impact energy of 46J (transverse) or 69J (longitudinal) . The "690" denotes a minimum yield strength of 690 MPa . It has a tensile strength ranging from 770 to 940 MPa and minimum elongation of 14% . The chemical composition features carbon ≤0.20%, manganese ≤1.70%, with strict control of phosphorus and sulfur . This grade requires advanced processing and is exclusively supplied in quenched and tempered (QT) or TMCP conditions . It is designed for the most demanding structural components in shipbuilding, ultra-deepwater offshore platforms, and marine structures requiring maximum strength-to-weight ratio.
Both BV D500 and BV D690 are BV-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: D500 offers a minimum yield strength of 500 MPa with tensile strength of 610-770 MPa, suitable for high-strength offshore structures , while D690 provides a substantially higher minimum yield strength of 690 MPa with tensile strength reaching 770-940 MPa, designed for the most demanding load-bearing applications requiring maximum strength-to-weight ratio . Both grades feature controlled chemical composition with carbon ≤0.20% and manganese ≤1.70% , and require advanced processing like QT or TMCP to achieve their superior mechanical properties while maintaining good weldability for critical marine service.
Chemical Composition
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BV D500 extra High Strength Chemical Composition Tempering and Quenching |
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Grade |
The Element Max (%) |
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|
C |
Si |
Mn |
P |
S |
Al(min) |
N |
|
|
BV D500 |
0.20 |
0.55 |
1.70 |
0.030 |
0.030 |
0.015 |
0.020 |
|
BV D690 extra High Strength Chemical Composition Tempering and Quenching |
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Grade |
The Element Max (%) |
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|
C |
Si |
Mn |
P |
S |
Al(min) |
N |
|
|
BV D690 |
0.20 |
0.55 |
1.70 |
0.030 |
0.030 |
0.015 |
0.020 |
Mechanical Property
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BV D500 extra High strength property in Tempering and Quenching |
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Grade |
Mechanical Property |
Charpy V Impact Test |
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Yield |
Tensile |
Elongation |
Degree |
Energy 1 |
Energy 2 |
|
|
BV D500 |
Min Mpa |
Mpa |
Min % |
-20 |
J |
J |
|
500 |
610-770 |
16% |
33 |
50 |
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Note: Energy 1 is transverse impact test, Energy 2 is longitudinal |
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BV D690 extra High strength property in Tempering and Quenching |
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|
Grade |
Mechanical Property |
Charpy V Impact Test |
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|
Yield |
Tensile |
Elongation |
Degree |
Energy 1 |
Energy 2 |
|
|
BV D690 |
Min Mpa |
Mpa |
Min % |
-20 |
J |
J |
|
690 |
770-940 |
14% |
46 |
69 |
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Note: Energy 1 is transverse impact test, Energy 2 is longitudinal |
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