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Ni80A合金阀在富氨环境下船用发动机中的腐蚀行为

Corrosion Behaviors of Ni80A Alloy Valve in Marine Engine Within Ammonia-Rich Environment.

作者信息

Liu Ying-Ying, Quan Guo-Zheng, Yu Yan-Ze, Ran Wen-Jing, Xiong Wei

机构信息

Chongqing Key Laboratory of Advanced Mold Intelligent Manufacturing, School of Material Science and Engineering, Chongqing University, Chongqing 400044, China.

Jiangsu Yutaida Industrial Technology Co., Ltd., Taizhou 225300, China.

出版信息

Materials (Basel). 2025 Jun 25;18(13):3006. doi: 10.3390/ma18133006.

DOI:10.3390/ma18133006
PMID:40649494
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12251521/
Abstract

Ammonia fuel is regarded as a promising zero-carbon alternative to diesel in next-generation marine engines. However, the high-temperature ammonia-rich environment poses significant corrosion challenges to hot-end components such as valves. This study investigates the corrosion behavior of Ni80A alloy marine valves under the coupled effects of a high temperature and ammonia atmosphere. Using computational fluid dynamics (CFD), the service temperature of the valve and the ammonia concentration distribution inside the engine cylinder were identified. High-temperature corrosion experiments were conducted with a custom-designed setup. Results show that corrosion kinetics accelerated markedly with temperature: the initial corrosion rate at 800 °C was four times that at 500 °C, and the maximum corrosion layer thickness reached 37 μm-double that at lower temperatures. Microstructural analysis revealed a transition from a dense, defect-free corrosion layer at 500 °C to a non-uniform layer with coarse CrN particles and aggregated nitrides at 800 °C. Notably, surface hardness increased at both temperatures, peaking at 590 HV at 500 °C, while matrix hardness at 800 °C declined due to γ' phase coarsening and grain growth. This work provides detailed insight into the temperature-dependent ammonia corrosion mechanisms of marine Ni-based alloy valves, offering essential data for material design and durability assessment in ammonia-fueled marine engines.

摘要

氨燃料被视为下一代船用发动机中柴油的一种有前景的零碳替代品。然而,高温富氨环境对诸如阀门等热端部件构成了重大的腐蚀挑战。本研究调查了Ni80A合金船用阀门在高温和氨气氛耦合作用下的腐蚀行为。使用计算流体动力学(CFD)确定了阀门的服役温度以及发动机气缸内的氨浓度分布。采用定制设计的装置进行了高温腐蚀实验。结果表明,腐蚀动力学随温度显著加速:800℃时的初始腐蚀速率是500℃时的四倍,最大腐蚀层厚度达到37μm,是较低温度下的两倍。微观结构分析表明,从500℃时致密、无缺陷的腐蚀层转变为800℃时具有粗大CrN颗粒和聚集氮化物的不均匀层。值得注意的是,两个温度下表面硬度均增加,在500℃时达到590 HV的峰值,而800℃时基体硬度由于γ'相粗化和晶粒长大而下降。这项工作详细深入地了解了船用镍基合金阀门与温度相关的氨腐蚀机制,为氨燃料船用发动机的材料设计和耐久性评估提供了重要数据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6fa0/12251521/433965baa945/materials-18-03006-g014.jpg
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