TAGS: Ocean engineering steel plate | high-strength low-alloy structural steel | steel plate | grade | AH36 | DH36 | EH36 | FH36 | AH40 | DH40 | EH40 |

The main steel grades for marine engineering are AH36, DH36, EH36, FH36, AH40, DH40, EH40. These marine engineering steel plate grades are different in terms of chemical composition, mechanical properties, and compliance with specific national/regional standards. Different grades of steel plates have different hardness, strength, toughness and corrosion resistance to meet various engineering needs

TAGS: Nickel alloys | nickel | alloy | grade |

Due to its good mechanical strength, ductility and high chemical stability, nickel is widely used in stainless steel, electroplating, batteries, chemical industry and other fields, basically covering various industries from civil products to aerospace, missiles, submarines, nuclear reactors, etc.

TAGS: Ship plate | Coatings | Environment | Pollution | Eco-friendly |

while the coating of ship plates is necessary for their protection, the materials and methods used can have negative impacts on the environment. It is important to continue to develop and implement eco-friendly solutions to reduce pollution and protect our planet.

TAGS: Ship plate | Weldability | Material | Shipbuilding industry | Strength |

Weldability refers to the ability of a material to be welded, meaning to be brought together by heating or melting and then allowing the parts to solidify into a single, strong joint. In the shipbuilding industry, welding is an essential method of joining various components of the hull, such as plates, frames, and stiffeners, to create a structurally sound and watertight vessel.

TAGS: fatigue | plate | testing |

Ship plates undergo constant cyclic loading during their service life at sea, which can lead to fatigue failure if not properly tested and assessed. To ensure the safety and reliability of ships, it is essential to determine the fatigue life of ship plates through rigorous testing. Fatigue testing involves applying cycles of loading and unloading

TAGS: impact | plates | ship |

Ship plates are a crucial component in shipbuilding as they form the structural framework of the vessel. They are subjected to numerous stresses and environmental factors, including impact forces. Therefore, the impact resistance performance of ship plates is a critical consideration in ship design.

TAGS: surface | roughness | can |

The surface roughness of ship plates is an important factor that affects the performance and safety of ships in navigation. The roughness of the plate can cause drag resistance and turbulence, resulting in a reduction in speed, an increase in fuel consumption, and even loss of control or accidents. Therefore, it is crucial to understand the impact

TAGS: toughness | hardness | materials |

Ship plates are essential components of ships, providing structural support and protection against external impact. As such, ship plate materials must possess a delicate balance between hardness and toughness to withstand the harsh environment of oceans and resist damage from waves, rocks, and icebergs. In the steel industry, hardness and toughne

TAGS: plates | ship | steel |

Ship plates are critical components in the construction of marine vessels, and their durability is essential for ensuring the safety and longevity of these vessels. To achieve superior durability, ship plates are typically made from high-strength steels with excellent resistance to corrosion, abrasion, and fatigue. The steel industry plays a cruc

TAGS: ship | corrosion | plates |

Ship plates are commonly subjected to wear and corrosion due to the harsh marine environment. In order to ensure the safety and longevity of a vessel, it is important to prevent such damages. This article will discuss the methods to prevent surface wear and corrosion of ship plates.