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Effect of Treatment Temperature on Iron Nitride Foils Irradiated with Nitrogen Plasma 被引量:1
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作者 K.Niizuma and Y. Utsushiforwa (College of Industrial Technology, Nihon University, Narashino, Chiba 275-8575, Japan) 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2000年第2期143-144,共2页
We investigated the effect of treatment temperature on the magnetic property of iron nitride foils irradiated with nitrogen plasma. The iron nitride foils irradiated with nitrogen plasma were composed of ε-Fe2/3N, γ... We investigated the effect of treatment temperature on the magnetic property of iron nitride foils irradiated with nitrogen plasma. The iron nitride foils irradiated with nitrogen plasma were composed of ε-Fe2/3N, γ'-Fe4N and γ nitrogen austenite in α-Fe of the matrix. The saturation magnetization of the iron nitride foils decreased with increasing the surface temperature. The coercive force of the iron nitride foils increased with increasing the surface temperature. 展开更多
关键词 Effect of treatment Temperature on Iron Nitride Foils Irradiated with Nitrogen Plasma
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Calculation of carbon content of austenite during heat treatment of cast irons
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作者 Gong Wenbang Chen Guodong Xiang Gangyu 《China Foundry》 SCIE CAS 2010年第1期30-32,共3页
The austenitizing temperature controls the carbon content of the austenite which,in turn,influences the structure and properties of cast irons after subsequent cooling to room temperature.In this paper,for a cast iron... The austenitizing temperature controls the carbon content of the austenite which,in turn,influences the structure and properties of cast irons after subsequent cooling to room temperature.In this paper,for a cast iron with known silicon content,a formula of calculating austenite carbon content at a certain austenitizing temperature was developed.This relationship can be used to more accurately select carbon content of austenite or austenitizing temperature to produce desired properties after subsequent cooling to room temperature. 展开更多
关键词 cast iron heat treatment AUSTENITIZING AUSTENITE carbon content of austenite
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Optimization of flotation variables for the recovery of hematite particles from BHQ ore 被引量:8
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作者 Swagat S. Rath Hrushikesh Sahoo B. Das 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2013年第7期605-611,共7页
The technology for beneficiation of banded iron ores containing low iron value is a challenging task due to increasing demand of quality iron ore in India. A flotation process has been developed to treat one such ore,... The technology for beneficiation of banded iron ores containing low iron value is a challenging task due to increasing demand of quality iron ore in India. A flotation process has been developed to treat one such ore, namely banded hematite quartzite (BHQ) containing 41.8wt% Fe and 41.5wt% SiO2,by using oleic acid, methyl isobutyl carbinol (MIBC), and sodium silicate as the collector, frother, and dispersant, respectively. The relative effects of these variables have been evaluated in half-normal plots and Pareto charts using central composite rotatable design. A quadratic response model has been developed for both Fe grade and recovery and optimized within the experimental range. The optimum reagent dosages are found to be as follows: collector concentration of 243.58 g/t, dispersant concentration of 195.67 g/t, pH 8.69, and conditioning time of 4.8 min to achieve the maximum Fe grade of 64.25% with 67.33% recovery. The predictions of the model with regard to iron grade and recovery are in good agreement with the experimental results. 展开更多
关键词 HEMATITE iron ore treatment FLOTATION metal recovery design of experiments mathematical models opti-mization
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Research progress on iron homeostasis regulation and heart-related diseases
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作者 Yang Yang Qi Feng +3 位作者 Huang Sun Yi Zhao Hui-Jie Hao Xing Chen 《Life Research》 2022年第4期19-26,共8页
Iron is an indispensable trace element in mammals and performs several important physiological functions in the body.Dynamic equilibrium in iron metabolism exists.Iron uptake,storage,and output are in equilibrium as w... Iron is an indispensable trace element in mammals and performs several important physiological functions in the body.Dynamic equilibrium in iron metabolism exists.Iron uptake,storage,and output are in equilibrium as well.Several laboratory animal models have shown that iron deficiency and deposition can lead to a variety of functional disorders.Cardiac diseases caused by iron deposition in laboratory animal models are caused by abnormal oxidative stress,electrophysiological changes,iron metabolism-related gene defects,myocardial cell apoptosis,fibrosis,ferroptosis,and other causes.This review discusses the causes of heart disease related to iron deposition in laboratory animal models to illustrate further the impact of effective iron removal therapy on cardiac disease associated with iron deposition.In addition,this review demonstrates the possibility of elucidating the precise molecular mechanism of iron abnormality in heart diseases in experimental animal models and the feasibility of using iron abnormality as a target for developing new therapeutic drugs for the treatment of heart disease. 展开更多
关键词 IRON heart-related diseases experimental animal model iron removal treatment
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Microstructure and abrasive wear resistance of an alloyed ductile iron subjected to deep cryogenic and austempering treatments 被引量:3
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作者 Junjun Cui Liqing Chen 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2017年第12期1549-1554,共6页
To further improve the mechanical performance of a new alloyed austempered ductile iron(ADI), deep cryogenic treatment(DCT) has been adopted to investigate the effect of DCT time on the microstructure and mechanic... To further improve the mechanical performance of a new alloyed austempered ductile iron(ADI), deep cryogenic treatment(DCT) has been adopted to investigate the effect of DCT time on the microstructure and mechanical behaviors of the alloyed ADI Fe-3.55 C-1.97 Si-3.79 Ni-0.71 Cu-0.92 Mo-0.64 Cr-0.36 Mn-0.30 V(in wt.%). With increasing the DCT time, more austenite transformed to martensite and very fine carbides precipitated in martensite in the extended period of DCT. The amount of austenite decreased in alloyed ductile irons, while that of martensite and carbide precipitation increased. The alloyed ADI after DCT for 6 h had the highest hardness and compressive strength, which can be attributed to the formation of more plate-like martensite and the finely precipitated carbides. There was a gradual decrease in hardness and compressive strength with increasing the DCT time to 12 h because of the dissolution of M3 C carbide. After tempering, there was a decrease in mechanical properties compared to the direct DCT sample, which was caused by the occurrence of Ostwald ripening of precipitated carbides. The optimum wear resistance was achieved for the alloyed ADI after DCT for 6 h. The wear mechanism of the alloyed ADI in associating with DCT is mainly consisted of micro-cutting wear and some plastic deformation wear. 展开更多
关键词 Alloyed ductile iron Austempering Deep cryogenic treatment (DCT) Microstructure Mechanical properties
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Cementites decomposition of a pearlitic ductile cast iron during graphitization annealing heat treatment 被引量:5
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作者 Min-qiang Gao Ying-dong Qu +2 位作者 Guang-long Li Jun-hua You Rong-de Li 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2017年第8期838-843,共6页
Cementites decomposition of a pearlitic ductile cast iron during graphitization annealing heat treatment was investigated.Fractographies and microstructures of heat treated samples were observed using a scanning elect... Cementites decomposition of a pearlitic ductile cast iron during graphitization annealing heat treatment was investigated.Fractographies and microstructures of heat treated samples were observed using a scanning electron microscope and mechanical properties were measured by a universal tensile test machine.The results indicated that during isothermal annealing at 750°C,the tensile strength of pearlitic ductile cast iron was increased to a peak value at 0.5h,and decreased gradually thereafter but the elongation was enhanced with the increase of annealing time.Moreover,the diffusion coefficient of carbon atoms could be approximately calculated as 0.56μm2/s that could be regarded as the shortrange diffusion.As the holding time was short(0.5h),diffusion of carbon atoms was incomplete and mainly occurred around the graphites where the morphology of cementites changed from fragmentized shape to granular shape.In addition,the ductile cast iron with tensile strength of 740MPa and elongation of 7% could be achieved after graphitization annealing heat treatment for 0.5h.Two principal factors should be taken into account.First,the decomposition of a small amount of cementites was beneficial for increasing the ductility up to elongation of 7%.Second,the diffusion of carbon atoms from cementites to graphites could improve the binding force between graphites and matrix,enhancing the tensile strength to 740 MPa. 展开更多
关键词 Pearlitic ductile cast iron Cementite decomposition Diffusion Carbon atom Graphitization annealing heat treatment
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Influence of Surface Nanocrystallization on Ti Ion Implantation of Pure Iron 被引量:2
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作者 Xu Li Yanli An +5 位作者 Yinghui Wei Huayun Du Lifeng Hou Chunli Guo Hongbo Qu Yide Wang 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2015年第3期305-310,共6页
In order to increase the depth or concentration of Ti ion implantation of pure iron, the surface mechanical attrition treatment(SMAT), which can fabricate a nanometer-grained surface layer without porosity and contami... In order to increase the depth or concentration of Ti ion implantation of pure iron, the surface mechanical attrition treatment(SMAT), which can fabricate a nanometer-grained surface layer without porosity and contamination in a pure iron plate, was used before ion implantation. Ti ion was implanted into the SMA treated sample and coarse-grained counterpart by using a metal vapor vacuum arc source implanter. The changing of depth and concentration of Ti was studied in a function of implantation time.By optical microscopy, transmission electron microscopy and X-ray diffraction, the grain size of the nano structured surface was studied. Micro-hardness, friction and wear behavior of nano surface layers were studied. By energy dispersive X-ray spectroscopy and Auger electron spectroscopy, the chemical composition and concentration of Ti ion in the surface implantation layer were studied. Experimental results showed that the concentration of Ti increased dramatically compared with untreated coarsegrained samples, which is attributed to the existence of higher density of defects(supersaturated vacancies, dislocations, non-equilibrium grain boundaries etc.) and compression stress field in the SMA treated nanocrystallined surface layer. The interaction between the defects and the implanted solute atoms leads to the increment of solid solubility. But the implantation depth showed inconspicuous change. It is shown that the ion range is just relevant to the energy and mass of the ion, dose of injection,the mass and density of target material. 展开更多
关键词 Pure iron Surface mechanical attrition treatment I
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