In the modern marine and offshore industries, selecting the right structural steel grade is crucial for ensuring vessel safety, performance, and long-term durability. Among the most widely used high-strength shipbuilding steels are AH36, DH36, and EH36. These grades are essential for hull structures, decks, offshore platforms, and high-stress marine applications. Although they share many similarities, each grade features different toughness requirements, making them suitable for specific environments and project conditions.
As global shipbuilding standards continue to evolve and classification societies tighten their regulations, shipyards require materials that can provide reliable performance under varying temperatures and high-impact conditions. Leading suppliers such as sakysteel support shipbuilders worldwide by offering AH36, DH36, and EH36 steel plates with full traceability, classification approval, and high consistency.
This article provides a comprehensive comparison of AH36 vs DH36 vs EH36, analyzing mechanical properties, toughness performance, application scenarios, and guidance on which grade is best for different shipbuilding projects.
AH36, DH36, and EH36 are higher-strength shipbuilding steels classified under ASTM A131 and certified by ABS, LR, DNV, BV, CCS, and other societies. They share the same minimum yield strength of 355 MPa, making them suitable for demanding structural applications.
The key difference between these grades is impact toughness at different test temperatures:
AH36: Tested at 0°C
DH36: Tested at -20°C
EH36: Tested at -40°C
Lower test temperatures indicate higher toughness and greater resistance to brittle fracture, essential for cold or extreme environments.
| Grade | Yield Strength | Tensile Strength | Impact Test Temp | Typical Use |
|---|---|---|---|---|
| AH36 | ≥ 355 MPa | 490 to 620 MPa | 0°C | Mild and moderate climates |
| DH36 | ≥ 355 MPa | 490 to 620 MPa | -20°C | Cold regions and heavy-duty structures |
| EH36 | ≥ 355 MPa | 490 to 620 MPa | -40°C | Arctic regions, ice-class vessels |
Although all three grades deliver similar strength, EH36 offers the highest toughness performance, followed by DH36, then AH36.
Chemical composition influences weldability, corrosion resistance, and toughness. All three grades generally include:
Controlled carbon content
Manganese for strength
Silicon for stability
Micro-alloy elements such as Nb, Ti, or V for grain refinement
However, EH36 and DH36 tend to have tighter controls and may use additional alloying to meet low-temperature impact standards.
Ships and offshore structures experience:
Wave impact
Temperature fluctuations
Hull deformation
Vibration
Dynamic loading
Toughness at low temperatures ensures the steel does not become brittle. This is part of why classification societies strictly regulate AH36, DH36, and EH36 requirements in key structural zones.
AH36 is widely used in:
Deck structures
Superstructures
Light to moderate climate vessels
Cargo holds
Ship sections above waterline
It provides excellent weldability and strength, making it suitable for general shipbuilding.
DH36 is ideal for:
Vessels operating in colder regions
Structural components requiring high toughness
Upper decks and bulkheads in mid-latitude climates
Offshore support vessels
Heavily loaded foundations
DH36 is often specified in classification society drawings for critical zones.
EH36 is chosen for the most demanding marine environments:
Icebreakers
Arctic and polar class ships
Offshore platforms in freezing climates
Dynamic positioning vessels
FPSO and subsea systems
High-impact structural areas near the bow
EH36 provides superior performance under extreme cold and high stress.
The best steel grade depends on operating environment, structural requirements, and classification society rules.
The vessel operates in mild or warm waters
Structural parts are not exposed to extreme cold
Project focuses on cost-effective construction
The application is non-critical in terms of low-temperature toughness
The vessel may operate in moderately cold climates
Components require higher toughness than AH36
You are constructing mid-latitude or mixed-environment vessels
Structural loads are higher or located in sensitive areas
The vessel will operate in Arctic waters
The project requires extreme low-temperature performance
You are building ice-class, offshore, or deep-sea vessels
Classification society drawings specify E-grade material
EH36 provides the maximum safety margin in cold-weather marine engineering.
All grades must be certified by societies such as:
ABS
LR
DNV
BV
CCS
Typical requirements include:
Chemical analysis
Tensile tests
Charpy impact tests
Ultrasonic testing
Heat treatment verification
Traceability and stamping
EH36 receives the most scrutiny because of its demanding low-temperature performance.
Marine-grade plates may be supplied as:
As-rolled
Normalized
Controlled-rolled
TMCP thermo-mechanically controlled processed
TMCP is widely used for DH36 and EH36 because it enhances strength and toughness while maintaining weldability and reducing the need for thick sections.
All three grades offer good weldability, but EH36 requires more careful control of:
Heat input
Preheat conditions
Interpass temperatures
This is due to tighter alloy composition and higher toughness requirements.
In general:
AH36 is most economical
DH36 is moderately priced
EH36 is the most expensive due to enhanced toughness requirements And stricter certification demands
Selecting the correct grade can help optimize project cost without compromising safety.
Some drawings require E-grade, but shipyards mistakenly purchase A-grade materials.
Solution: Double-check classification society rules before ordering.
Replacing EH36 with AH36 is not allowed in cold regions.
Solution: Follow toughness classification strictly.
Missing MTC or testing records leads to rejection.
Solution: Purchase from reliable suppliers like sakysteel with full traceability and certification.
Some mills skip -20°C or -40°C tests unless specified.
Solution: Ensure impact temperature requirements are clearly stated.
| Feature | AH36 | DH36 | EH36 |
|---|---|---|---|
| Impact Resistance | Medium | High | Very High |
| Test Temperature | 0°C | -20°C | -40°C |
| Cost | Low | Medium | Higher |
| Arctic Use | Not suitable | Limited | Excellent |
| Offshore Use | Moderate | Strong | Best |
| Classification Requirements | Standard | Higher | Strictest |
AH36, DH36, and EH36 steel plates are essential materials for shipbuilding and offshore structures, each offering different levels of toughness and performance. AH36 is suitable for general marine construction, DH36 provides higher toughness for cooler conditions, and EH36 delivers exceptional performance for Arctic and extreme offshore environments.
Choosing the correct grade ensures reliability, safety, and long-term durability of marine assets. With global shipbuilding moving toward higher safety standards and more challenging operational environments, steel selection plays a critical role in project success. Supported by reliable suppliers such as sakysteel, shipyards can confidently source certified AH36, DH36, and EH36 plates with full documentation, strong traceability, and consistent quality.