【摘 要】
:
Hot corrosion has been extensively observed in various high temperature applications,which might cause large economic losses.To deepen the insight and understanding of hot corrosion,herein,we provide a de-tailed discussion on hot corrosion induced by molt
【机 构】
:
Mechanical & Aerospace Engineering Department,Benjamin M.Statler College of Engineering & Mineral Re
论文部分内容阅读
Hot corrosion has been extensively observed in various high temperature applications,which might cause large economic losses.To deepen the insight and understanding of hot corrosion,herein,we provide a de-tailed discussion on hot corrosion induced by molten sulfate salt,in which Na2SO4 is the main chemical reactant.The hot corrosion is triggered and sustained by the negative solubility gradient of protective oxide from the oxide/salt interface to salt/gas interface.In this work,we reviewed several key factors,including temperature,gas composition,molten salt composition,alloy element and external stress,in-fluencing the hot corrosion of alloy beneath the molten salt.The application of anti-corrosion coating seems to be the most effective and commercial mothed to mitigate hot corrosion.Therefore,the progress of the development of effective coatings,e.g.,Ni-Cr coatings,aluminide coatings,silicide coatings and MCrAlY(X) coatings,has also been summarized.
其他文献
In this work,we used the selective laser melting (SLM) fabricated Co-Cr alloy with prominent residual strain,extremely non-equilibrium microstructures,and low stacking fault energy as a precursor to fab-ricate materials with the optimal grain boundary cha
The excellent properties of the multi-principal element alloys (e.g.,the CoCrNi medium-entropy alloy)make them a perfect candidate for structure materials.Their low strength and poor wear-resistance,however,limit considerably their applications.In this st
水资源滋养万物,让生命得以生生不息。但水火无情,溺水事故的发生让无数家庭陷入失去亲人的痛苦。世卫组织发布数据中提到,每年溺水身亡人数高达37万。本文通过调研溺水事故发生原因、溺水者心理感受,溺水事故典型情境分析,提出帮助溺水者有效自救和快速得到救援的防溺水装备设计方案。本文以溺水事故为线索,以防止溺水死亡事故发生为设计目标。首先,运用情境法对溺水事故进行情境片段分析。从溺水者角度、施救者角度对用户
青龙峡景区位于山西壶关县太行山南段的主脊地带,为国家级4A级景区,年接待游客约45万人次,旅游业是当地居民致富增收的支柱产业。同时,峡谷景区内山体陡峻,断层发育,岩体破碎,为地质灾害高发区,影响旅游业的经营和发展。本文将青龙峡景区划分为4个地质灾害风险等级区,旨在为景区防灾减灾提供技术依据,保护景区游客和居民安全,保障景区的安全运营。本论文依托“壶关太行山大峡谷旅游资源及地质环境评价”项目,以壶关
Bismuth-telluride (Bi2Te3) is considered to have the best thermoelectric properties at room temperature(ca.300 K).Thus,synthesis and improvement of Bi2Te3 and its derivatives quickly and cost-effectively at favorite temperatures are of interests.Recently,
The solidification of Sn-Ni peritectic alloys in which both the primary Ni3Sn2 and peritectic Ni3Sn4 phases were intermetallic compound phases (IMCs) with narrow solubility ranges was investigated through con-focal laser scanning microscope.Analysis on th
国家“十四五”规划纲要明确指出:要求平衡好各种交通运输方式的规模、结构、功能、布局和建设时序等,力求提高整体效率、避免资源浪费。普通水泥混凝土路面有不可重复利用以及开放通车时间较长的缺点,造成了工程资源的浪费,导致了效率的降低。而装配式水泥混凝土路面具有建设周期短、可重复利用等优点,是一种既经济又高效的路面结构形式,因此对装配式水泥路面的研究具有重要的理论与实际意义。本文全面梳理国内外装配式水泥混
Microstructure evolution and dynamic restoration mechanism of solution-treated Mg-4Y-2Nd-1Sm-0.5Zr alloy have been studied under three TMP parameters consisting of deformation temperatures (350-500 ℃),strain rates (0.01-5 s-1),and strains (0.2,0.4,and 0.8
秦岭和合南北,泽被天下,是中国的中央水塔,也是中华民族的祖脉和中华文化的重要象征。作为中国地理上重要的南北分界线,秦岭发挥着调节气候、保持水土、涵养水源和维护生物多样性等诸多功能。近年来随着城市化的快速发展和工业化规模扩大,人类活动严重影响秦岭生态系统的健康,一定程度上导致了生态退化和人地矛盾突出等社会问题,威胁到社会经济的可持续发展。本研究基于2000、2010和2020年秦岭三期土地利用数据,
NiCo-phosphates can deliver high specific capacitances and high electrochemical activities as pseudoca-pacitive electrode material for supercapacitors.In this study,The NiCo-phosphates@reduced graphene oxide (NCPO@rGO) composite is directly loaded on Ni f