at present,data security has become the most urgent and primary issue in the era of digital economy.Marine scientific data security is the most urgent core issue of marine data resource management and sharing service....at present,data security has become the most urgent and primary issue in the era of digital economy.Marine scientific data security is the most urgent core issue of marine data resource management and sharing service.This paper focuses on the analysis of the needs of marine scientific data security governance,in-depth development of marine scientific data security governance approaches and methods,and practical application in the national marine scientific data center,optimizing the existing data management model,ensuring the safety of marine scientific data,and fully releasing the data value.展开更多
A series of Sn microalloying high-strength low-alloy(HSLA)steels were prepared through vacuum melting and hot rolling.Their stress corrosion cracking(SCC)behavior under high Cl^(−)environments was investigated using U...A series of Sn microalloying high-strength low-alloy(HSLA)steels were prepared through vacuum melting and hot rolling.Their stress corrosion cracking(SCC)behavior under high Cl^(−)environments was investigated using U-bend immersion,slow strain rate testing,electrochemical methods,and novel SCC sensor.Results revealed that HSLA steel microalloying with 0.1 wt.%Sn demonstrated superior SCC resistance,primarily attributed to the effective inhibition of the anodic dissolution mechanism.Fracture morphology revealed a transformation in fracture mode from brittle to a mixture of brittle-ductile characteristics,accompanied by the formation of a protective SnO_(2)oxide film on the steel surface.However,excessive Sn content exacerbated SCC susceptibility due to the increased hydrolysis of Sn^(2+),leading to localized pitting and crack initiation.The critical role of optimal Sn content was highlighted in balancing mechanical properties and corrosion resistance,suggesting potential applications in industries where materials face harsh chloride environments.展开更多
Grain refinement can strengthen the mechanical properties of materials according to the classical Hall-Petch relationship but does not always result in better corrosion resistance.During the past few decades,various t...Grain refinement can strengthen the mechanical properties of materials according to the classical Hall-Petch relationship but does not always result in better corrosion resistance.During the past few decades,various techniques have been dedicated to refining grain,along with relevant studies on corrosion behavior,including general corrosion,pitting corrosion,and stress corrosion cracking.However,the funda-mental consensus on how grain size influences corrosion behavior has not been reached.This paper reviews existing literature on the beneficial and detrimental effects of grain refinement on corrosion behavior.Moreover,the effects of microstructural changes(i.e.,grain boundary,dislo-cation,texture,residual stress,impurities,and second phase)resulting from grain refinement on corrosion behavior are discussed.The grain re-finement not only has an impact on the corrosion performance,but also results in microstructural changes that have a non-negligible effect on corrosion behavior or even outweigh that of grain refinement.Grain size is not the only factor affecting the corrosion behavior of metallic ma-terials;thus,the overall influence of microstructures on corrosion behavior should be understood.展开更多
In the past decade, the sudden rise of high-entropy alloys(HEAs) has become a research hotspot in the domain of metal materials. HEAs break through the design concept of traditional single-principal element alloys, an...In the past decade, the sudden rise of high-entropy alloys(HEAs) has become a research hotspot in the domain of metal materials. HEAs break through the design concept of traditional single-principal element alloys, and the four core effects, especially the high entropy and cocktail effects, make HEAs exhibit much better corrosion resistance than traditional corrosion-resistant metal materials, e.g., stainless steels, copper-nickel alloys, and high-nickel alloys. Currently, the corrosion resistance of HEAs causes great concern in the field of corrosion research. This article reviews the corrosion behavior and mechanism of HEAs in various aqueous solutions, revealing the correlation among the composition, microstructure and corrosion resistance of HEAs, and elaborates the influence of heat treatment, anodizing treatment and preparation methods on the corrosion behavior of HEAs. This knowledge will benefit the on-demand design of corrosion-resistant HEAs, which is an important trend of future development. Finally, perspectives regarding the corrosion research of HEAs are outlined to guide future studies.展开更多
In this work,the beneficial effect of Sn addition on the corrosion resistance mechanism of Cr-Mo low alloy steel was studied.Results demonstrated that Sn improves the corrosion resistance of the steel matrix mainly by...In this work,the beneficial effect of Sn addition on the corrosion resistance mechanism of Cr-Mo low alloy steel was studied.Results demonstrated that Sn improves the corrosion resistance of the steel matrix mainly by influencing the microstructural transformation.Sn addition and the synergistic effect of Sn,Cr,and Mo promote the formation of α-FeOOH,SnO_(2),SnO,Cr(OH)_(3),and molybdates,lead to the improved protection and stability of the rust layer.This synergistic effect also endows the inner rust layer with cation selectivity,preventing the further penetration of Cl-and inhibiting the localized corrosion of steel.展开更多
The thermostability of three sulfur oxygenase reductases (SORs) was investigated from thermoacidophilic achaea Acidianus tengchongensis (SORAT) and Sulfolobus tokodaii (SORsT) as well as the moderately thermophi...The thermostability of three sulfur oxygenase reductases (SORs) was investigated from thermoacidophilic achaea Acidianus tengchongensis (SORAT) and Sulfolobus tokodaii (SORsT) as well as the moderately thermophilic bacterium Acidithiobacillus sp. SM-1 (SORsB). The optimal temperatures for catalyzing sulfur oxidation were 80 ℃ (SORAT), 85 ℃ (SORsT), and 70 ℃ (SORsB), respectively. The half-lives of the three SORs at their optimal catalytic conditions were 100 min (SORAT), 58 min (SORsT), and 37 min (SORsB). In order to reveal the structural basis of the thermostability of these SORs, three-dimensional structural models of them were generated by homology modeling using the previously reported high-resolution X-ray structure of SORAA (from Acidianus ambivalens) as a template. The results suggest that thermostability was dependent on: (a) high number of the charged amino acid glutamic acid and the flexible amino acid proline, (b) low number of the therraolabile amino acid glutamine, (c) increased number of ion pairs, (d) decreased ratio of hydrophobie accessible solvent surface area (ASA) to charged ASA, and (e) increased volumes of the cavity. The number of cavities and the number of hydrogen bonds did not signifieantly affect the thermostability of SORs, whereas the cavity volumes increased as the thermal stability increased.展开更多
Erratum to:International Journal of Minerals, Metallurgy and MaterialsVolume 28, Number 7, July 2021, Page 1112 The original version of this article unfortunately contained mistakes. Symbols in Table 2 are used incorr...Erratum to:International Journal of Minerals, Metallurgy and MaterialsVolume 28, Number 7, July 2021, Page 1112 The original version of this article unfortunately contained mistakes. Symbols in Table 2 are used incorrectly.展开更多
Numerous tests have demonstrated the impact of microbiologically influenced stress corrosion(MISC)on oil and gas pipelines,but the dynamic corrosion process and its influencing variables remain unclear.In this paper,t...Numerous tests have demonstrated the impact of microbiologically influenced stress corrosion(MISC)on oil and gas pipelines,but the dynamic corrosion process and its influencing variables remain unclear.In this paper,through material and environment data collection,we analyzed the important factors to MISC based on the random forest model,which were quantity of bacteria,kernel average misorientation and prior austenite grain boundary of the material.Based on this,theoretical explanation of stress and nitrate-reducing bacteria promoting stress corrosion cracking was provided.Results of this study will serve to gain further knowledge of MISC and guide future protection efforts.展开更多
Background:Leptospirosis morbidity and mortality rates in China have decreased since the 2000s.Further analyses of the spatiotemporal and demographic changes occurring in the last decade and its implication on estimat...Background:Leptospirosis morbidity and mortality rates in China have decreased since the 2000s.Further analyses of the spatiotemporal and demographic changes occurring in the last decade and its implication on estimates of disease burden are required to inform intervention strategies.In this study,we quantified the epidemiological shift and geographical heterogeneity in the burden of leptospirosis during 2005-2015 in China.Methods:We used reported leptospirosis case data from 1st January 2005 to 31st of December 2015 that routinely collected by the China Information System for Disease Control and Prevention(CISDCP)to analyze the epidemiological trend and estimate the burden in terms of disability-adjusted life-years(DALYs)over space,time,and demographical groups.Results:A total of 7763 cases were reported during 2005-2015.Of which,2403(31%)cases were the laboratoryconfirmed case.Since 2005,the notified incidence rate was gradually decreased(P<0.05)and it was relatively stable during 2011-2015(P>0.05).During 2005-2015,we estimated a total of 10313 DALYs were lost due to leptospirosis comprising a total of 1804 years-lived with disability(YLDs)and 8509 years-life lost(YLLs).Males had the highest burden of disease(7149 DALYs)compared to females(3164 DALYs).The highest burden estimate was attributed to younger individuals aged 10-19 years who lived in southern provinces of China.During 2005-2015,this age group contributed to approximately 3078 DALYs corresponding to 30%of the total DALYs lost in China.Yet,our analysis indicated a declining trend in burden estimates(P<0.001)since 2005 and remained relatively low during 2011-2015.Low burden estimates have been identified in the endemic regions where infections principally distributed.Most of the changes in DALY estimates were driven by changes in YLLs.Conclusions:In the last 11-years,the burden estimates of leptospirosis have shown a declining trend across the country;however,leptospirosis should not be neglected as it remains an important zoonotic disease and potentially affecting the young and productive population in economically less-developed provinces in southern of China.In addition,while in the last five years the incidence has been reported at very low-level,this might not reflect the true incidence of leptospirosis.Strengthened surveillance in the endemic regions is,hence,substantially required to capture the actual prevalence to better control leptospirosis in China.展开更多
Extracellular vesicles(EVs)generated from mesenchymal stem cells(MSCs)play an essential role in modulating cell–cell communication and tissue regeneration.The clinical translation of EVs is constrained by the poor yi...Extracellular vesicles(EVs)generated from mesenchymal stem cells(MSCs)play an essential role in modulating cell–cell communication and tissue regeneration.The clinical translation of EVs is constrained by the poor yield of EVs.Extrusion has recently become an effective technique for producing a large scale of nanovesicles(NVs).In this study,we systematically compared MSC NVs(from extrusion)and EVs(from natural secretion).Proteomics and RNA sequencing data revealed that NVs resemble MSCs more closely than EVs.Additionally,microRNAs in NVs are related to cardiac repair,fibrosis repression,angiogenesis.Lastly,intravenous delivery of MSC NVs improved heart repair and cardiac function in a mouse model of myocardial infarction.展开更多
文摘at present,data security has become the most urgent and primary issue in the era of digital economy.Marine scientific data security is the most urgent core issue of marine data resource management and sharing service.This paper focuses on the analysis of the needs of marine scientific data security governance,in-depth development of marine scientific data security governance approaches and methods,and practical application in the national marine scientific data center,optimizing the existing data management model,ensuring the safety of marine scientific data,and fully releasing the data value.
基金support of the National Natural Science Foundation of China(No.52171063).
文摘A series of Sn microalloying high-strength low-alloy(HSLA)steels were prepared through vacuum melting and hot rolling.Their stress corrosion cracking(SCC)behavior under high Cl^(−)environments was investigated using U-bend immersion,slow strain rate testing,electrochemical methods,and novel SCC sensor.Results revealed that HSLA steel microalloying with 0.1 wt.%Sn demonstrated superior SCC resistance,primarily attributed to the effective inhibition of the anodic dissolution mechanism.Fracture morphology revealed a transformation in fracture mode from brittle to a mixture of brittle-ductile characteristics,accompanied by the formation of a protective SnO_(2)oxide film on the steel surface.However,excessive Sn content exacerbated SCC susceptibility due to the increased hydrolysis of Sn^(2+),leading to localized pitting and crack initiation.The critical role of optimal Sn content was highlighted in balancing mechanical properties and corrosion resistance,suggesting potential applications in industries where materials face harsh chloride environments.
基金This work was fianancially supported by the National Natural Science Foundation of China(No.51871024)the Fundamental Research Funds for the Central Universities(No.FRF-NP-20-07).
文摘Grain refinement can strengthen the mechanical properties of materials according to the classical Hall-Petch relationship but does not always result in better corrosion resistance.During the past few decades,various techniques have been dedicated to refining grain,along with relevant studies on corrosion behavior,including general corrosion,pitting corrosion,and stress corrosion cracking.However,the funda-mental consensus on how grain size influences corrosion behavior has not been reached.This paper reviews existing literature on the beneficial and detrimental effects of grain refinement on corrosion behavior.Moreover,the effects of microstructural changes(i.e.,grain boundary,dislo-cation,texture,residual stress,impurities,and second phase)resulting from grain refinement on corrosion behavior are discussed.The grain re-finement not only has an impact on the corrosion performance,but also results in microstructural changes that have a non-negligible effect on corrosion behavior or even outweigh that of grain refinement.Grain size is not the only factor affecting the corrosion behavior of metallic ma-terials;thus,the overall influence of microstructures on corrosion behavior should be understood.
基金the financial support from the National Key Research and Development Program of China(No.2017YFB0702100)the National Natural Science Foundation of China(No.52071014)。
文摘In the past decade, the sudden rise of high-entropy alloys(HEAs) has become a research hotspot in the domain of metal materials. HEAs break through the design concept of traditional single-principal element alloys, and the four core effects, especially the high entropy and cocktail effects, make HEAs exhibit much better corrosion resistance than traditional corrosion-resistant metal materials, e.g., stainless steels, copper-nickel alloys, and high-nickel alloys. Currently, the corrosion resistance of HEAs causes great concern in the field of corrosion research. This article reviews the corrosion behavior and mechanism of HEAs in various aqueous solutions, revealing the correlation among the composition, microstructure and corrosion resistance of HEAs, and elaborates the influence of heat treatment, anodizing treatment and preparation methods on the corrosion behavior of HEAs. This knowledge will benefit the on-demand design of corrosion-resistant HEAs, which is an important trend of future development. Finally, perspectives regarding the corrosion research of HEAs are outlined to guide future studies.
基金This work was supported by National Key R&D Program of China(2017YFB0702100)the Fundamental Research Funds for the Central Universities(No.FRF-MP-18-002)。
文摘In this work,the beneficial effect of Sn addition on the corrosion resistance mechanism of Cr-Mo low alloy steel was studied.Results demonstrated that Sn improves the corrosion resistance of the steel matrix mainly by influencing the microstructural transformation.Sn addition and the synergistic effect of Sn,Cr,and Mo promote the formation of α-FeOOH,SnO_(2),SnO,Cr(OH)_(3),and molybdates,lead to the improved protection and stability of the rust layer.This synergistic effect also endows the inner rust layer with cation selectivity,preventing the further penetration of Cl-and inhibiting the localized corrosion of steel.
基金Supported by the National Natural Science Foundation of China (31070042,30870039,30921065)partially by Open Funding Project of the National Key Laboratory of Biochemical Engineering,China (2010KF-2)
文摘The thermostability of three sulfur oxygenase reductases (SORs) was investigated from thermoacidophilic achaea Acidianus tengchongensis (SORAT) and Sulfolobus tokodaii (SORsT) as well as the moderately thermophilic bacterium Acidithiobacillus sp. SM-1 (SORsB). The optimal temperatures for catalyzing sulfur oxidation were 80 ℃ (SORAT), 85 ℃ (SORsT), and 70 ℃ (SORsB), respectively. The half-lives of the three SORs at their optimal catalytic conditions were 100 min (SORAT), 58 min (SORsT), and 37 min (SORsB). In order to reveal the structural basis of the thermostability of these SORs, three-dimensional structural models of them were generated by homology modeling using the previously reported high-resolution X-ray structure of SORAA (from Acidianus ambivalens) as a template. The results suggest that thermostability was dependent on: (a) high number of the charged amino acid glutamic acid and the flexible amino acid proline, (b) low number of the therraolabile amino acid glutamine, (c) increased number of ion pairs, (d) decreased ratio of hydrophobie accessible solvent surface area (ASA) to charged ASA, and (e) increased volumes of the cavity. The number of cavities and the number of hydrogen bonds did not signifieantly affect the thermostability of SORs, whereas the cavity volumes increased as the thermal stability increased.
文摘Erratum to:International Journal of Minerals, Metallurgy and MaterialsVolume 28, Number 7, July 2021, Page 1112 The original version of this article unfortunately contained mistakes. Symbols in Table 2 are used incorrectly.
基金financially supported by the National Natural Science Foundation of China(52401111)Natural Science Basic Research Program of Shaanxi(2024JC-YBQN-0457)Xi'an Science and Technology Plan Project(24GXFW0075)
文摘Numerous tests have demonstrated the impact of microbiologically influenced stress corrosion(MISC)on oil and gas pipelines,but the dynamic corrosion process and its influencing variables remain unclear.In this paper,through material and environment data collection,we analyzed the important factors to MISC based on the random forest model,which were quantity of bacteria,kernel average misorientation and prior austenite grain boundary of the material.Based on this,theoretical explanation of stress and nitrate-reducing bacteria promoting stress corrosion cracking was provided.Results of this study will serve to gain further knowledge of MISC and guide future protection efforts.
基金PWD received support from Australia Awards Scholarships–Department of Foreign Affairs and Trade.WYZ received support from National Natural Science Foundation of China(No.11501339)The funder had no role in the study design,data collection or analysis,the decision to publish,and the preparation of this manuscriptThe findings and conclusions of this study are those of the authors and do not necessarily represent the views of the funding agency。
文摘Background:Leptospirosis morbidity and mortality rates in China have decreased since the 2000s.Further analyses of the spatiotemporal and demographic changes occurring in the last decade and its implication on estimates of disease burden are required to inform intervention strategies.In this study,we quantified the epidemiological shift and geographical heterogeneity in the burden of leptospirosis during 2005-2015 in China.Methods:We used reported leptospirosis case data from 1st January 2005 to 31st of December 2015 that routinely collected by the China Information System for Disease Control and Prevention(CISDCP)to analyze the epidemiological trend and estimate the burden in terms of disability-adjusted life-years(DALYs)over space,time,and demographical groups.Results:A total of 7763 cases were reported during 2005-2015.Of which,2403(31%)cases were the laboratoryconfirmed case.Since 2005,the notified incidence rate was gradually decreased(P<0.05)and it was relatively stable during 2011-2015(P>0.05).During 2005-2015,we estimated a total of 10313 DALYs were lost due to leptospirosis comprising a total of 1804 years-lived with disability(YLDs)and 8509 years-life lost(YLLs).Males had the highest burden of disease(7149 DALYs)compared to females(3164 DALYs).The highest burden estimate was attributed to younger individuals aged 10-19 years who lived in southern provinces of China.During 2005-2015,this age group contributed to approximately 3078 DALYs corresponding to 30%of the total DALYs lost in China.Yet,our analysis indicated a declining trend in burden estimates(P<0.001)since 2005 and remained relatively low during 2011-2015.Low burden estimates have been identified in the endemic regions where infections principally distributed.Most of the changes in DALY estimates were driven by changes in YLLs.Conclusions:In the last 11-years,the burden estimates of leptospirosis have shown a declining trend across the country;however,leptospirosis should not be neglected as it remains an important zoonotic disease and potentially affecting the young and productive population in economically less-developed provinces in southern of China.In addition,while in the last five years the incidence has been reported at very low-level,this might not reflect the true incidence of leptospirosis.Strengthened surveillance in the endemic regions is,hence,substantially required to capture the actual prevalence to better control leptospirosis in China.
基金NC State University,the National Natural Science Foundation of China(No.82200276)the Grant of Key Research and Development Program of Hebei Province(No.203777117D)+1 种基金the Key Project of Hebei Provincial Health Commission(Nos.20201159 and 20180224)the Natural Science Foundation of Hebei Province(Nos.H2021206399 and H2022206295)。
文摘Extracellular vesicles(EVs)generated from mesenchymal stem cells(MSCs)play an essential role in modulating cell–cell communication and tissue regeneration.The clinical translation of EVs is constrained by the poor yield of EVs.Extrusion has recently become an effective technique for producing a large scale of nanovesicles(NVs).In this study,we systematically compared MSC NVs(from extrusion)and EVs(from natural secretion).Proteomics and RNA sequencing data revealed that NVs resemble MSCs more closely than EVs.Additionally,microRNAs in NVs are related to cardiac repair,fibrosis repression,angiogenesis.Lastly,intravenous delivery of MSC NVs improved heart repair and cardiac function in a mouse model of myocardial infarction.
