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Grain boundary engineering for enhancing intergranular damage resistance of ferritic/martensitic steel P92
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作者 Lei Peng Shang-Ming Chen +6 位作者 Jing-Yi Shi Yong-Jie Sun Yi-Fei Liu Yin-Zhong Shen Hong-Ya He Hui-Juan Wang Jie Tian 《Nuclear Science and Techniques》 SCIE EI CAS CSCD 2024年第5期186-199,共14页
Ferritic/martensitic(F/M)steel is widely used as a structural material in thermal and nuclear power plants.However,it is susceptible to intergranular damage,which is a critical issue,under service conditions.In this s... Ferritic/martensitic(F/M)steel is widely used as a structural material in thermal and nuclear power plants.However,it is susceptible to intergranular damage,which is a critical issue,under service conditions.In this study,to improve the resistance to intergranular damage of F/M steel,a thermomechanical process(TMP)was employed to achieve a grain boundary engineering(GBE)microstructure in F/M steel P92.The TMP,including cold-rolling thickness reduction of 6%,9%,and 12%,followed by austenitization at 1323 K for 40 min and tempering at 1053 K for 45 min,was applied to the as-received(AR)P92 steel.The prior austenite grain(PAG)size,prior austenite grain boundary character distribution(GBCD),and connectivity of prior austenite grain boundaries(PAGBs)were investigated.Compared to the AR specimen,the PAG size did not change significantly.The fraction of coincident site lattice boundaries(CSLBs,3≤Σ≤29)and Σ3^(n) boundaries along PAGBs decreased with increasing reduction ratio because the recrystallization fraction increased with increasing reduction ratio.The PAGB connectivity of the 6%deformed specimen slightly deteriorated compared with that of the AR specimen.Moreover,potentiodynamic polarization studies revealed that the intergranular damage resistance of the studied steel could be improved by increasing the fraction of CSLBs along the PAGBs,indicating that the TMP,which involves low deformation,could enhance the intergranular damage resistance. 展开更多
关键词 grain boundary engineering ferritic/martensitic steel Prior austenite grain boundary character distribution grain boundary connectivity Intergranular damage resistance
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MODELING OF FERRITE GRAIN GROWTH OF LOW CARBON STEELS DURING HOT ROLLING 被引量:4
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作者 Y.T. Zhang, D.Z. Li and Y.Y. LiInstitute of Metal Research, The Chinese Academy of Sciences, Shenyang 110016, China Manuscript received 26 December 2001 in revised form 9 February 2002 《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2002年第3期267-271,共5页
For most commercial steels the prediction of the final properties depends on accurately calculating the room temperature ferrite grain size. A grain growth model is proposed for low carbon steels Q235B during hot roll... For most commercial steels the prediction of the final properties depends on accurately calculating the room temperature ferrite grain size. A grain growth model is proposed for low carbon steels Q235B during hot rolling. By using this model, the initial ferrite grain size after continuous cooling and ferrite grain growing in coiling procedure can be predicted. In-plant trials were performed in the hot strip mill of Ansteel. The calculated final ferrite grain sizes are in good agreement with the experimental ones. It is helpful both for simulation of microstructure evolution and prediction of mechanical properties. 展开更多
关键词 ferrite Forecasting grain growth Hot rolling Iron and steel plants Mathematical models Mechanical properties
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Observations on the Formation of Ultrafine Ferrite Grain Size in Steels by Physical Simulation Routes 被引量:1
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作者 L.X. Pan L.P. Karjalainen M. C. Somani 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2003年第z1期112-114,共3页
Some observations are reported on the simulation of two thermomechanical routes to produce ultrafine ferrite grainsize in steels. One C-Mn grade and Nb, Nb-Ti and Nb-high Ti bearing steels were used in the tests perfo... Some observations are reported on the simulation of two thermomechanical routes to produce ultrafine ferrite grainsize in steels. One C-Mn grade and Nb, Nb-Ti and Nb-high Ti bearing steels were used in the tests performed ona Gleeble simulator and a laboratory rolling mill. The routes included severe hot deformation of prior grain-refinedaustenite at the temperature close to Ar3 (DIF) and static recrystallization of fine-grained cold-rolled martensite(SRM). It was observed that the hot deformation induces the formation of ferrite above the Ar3 temperature of thesteel, but severe reductions are required for the complete transformation. Strain of 1.2 can result in about 70% offerrite with the grain size of about 1.4~2μm in all the studied steels. Similarly, in short annealing of cold-workedmartensite, the static recrystallization can also lead to a grain size of about 1.5 μm. The distribution of carbonvaries in the microstructures, carbon being in the second phase in the DIF route and in carbide particles in the SRMroute, which may have a significant influence on the mechanical properties and the thermal stability of ultrafine grainstructure. 展开更多
关键词 ULTRAFINE grain size steels Physical simulation Strain-induced ferrite Cold ROLLING and ANNEALING
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Surface Ferrite Grain Refinement and Mechanical Properties of Low Carbon Steel Plates 被引量:4
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作者 FAN Jian-wen DAI Xiao-li +2 位作者 XIE Rui-ping ZHANG Wei-xu WANG Zu-bin 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2006年第4期35-39,共5页
Considering the specialities of the steel plate production, the TMCP study has been carried out with Gleeble 2000 tester to explore the possibility of fine grained ferrite in the low carbon steel plates with the chemi... Considering the specialities of the steel plate production, the TMCP study has been carried out with Gleeble 2000 tester to explore the possibility of fine grained ferrite in the low carbon steel plates with the chemical composition of C 0.13--0.18, Si 0.12-0.18, Mn 0.50-0. 65, P 0. 010-0. 025, and S 0. 005-0. 028. The plates with thickness of 8. 7 mm in which the ferrite grain size is smaller than 8μm have been produced by special de- formation process in the laboratory. Furthermore, the trial production of special plain carbon steel plates of 16-25 mm in thickness and 2 000- 2 800 mm in width with fine grained ferrite has been successfully carried out in the Shougang Steel Plate Rolling Plant. The ferrite grain size is 5.5-7μm in the surface layers and 9.5-15μm in the central layer respectively. The yield strength is 320- 360 MPa, tensile strength is 440-520 MPa and the elongation is 25%- 34 %. It is very important for the rolling plants to improve the low carbon steel plates' mechanical properties. The results show that the ferrite grains in the surface layer can be refined effectively by the appropriate rolling process, and the strength can be also increased. 展开更多
关键词 TMCP fine grained ferrite plain low carbon steel plate mechanical property
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Improving the Fatigue Performance of the Welded Joints of Ultra-Fine Grain Steel by Ultrasonic Peening 被引量:5
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作者 王东坡 王婷 +1 位作者 霍立兴 张玉凤 《Transactions of Tianjin University》 EI CAS 2004年第2期113-117,共5页
Contrast tests were carried out to study the fatigue performance of the butt joints treated by ultrasonic peening, aiming at the improvement of ultrasonic peening treatment(UPT) on welded joints of a new material. The... Contrast tests were carried out to study the fatigue performance of the butt joints treated by ultrasonic peening, aiming at the improvement of ultrasonic peening treatment(UPT) on welded joints of a new material. The material is a new generation of fine grain and high purity SS400 steel that has the same ingredients as the traditional low carbon steel. The specimens are in two different states:welded and ultrasonic peening conditions. The corresponding fatigue testing data were analyzed according to the regulation of the statistical method for fatigue life of the welded joints established by International Institute of Welding(IIW). Welding residual stress was considered in two different ways: the constant stress ratio R=0.5 and the Ohta method. The nominal stress-number (σ-N)curves were corrected because of the different plate thickness compared to the standard and because there was no mismatch or angular deformation. The results indicated that: 1) Compared with the welded specimens, when the stress range was 200 MPa, the fatigue life of the SS400 steel specimens treated by ultrasonic peening is prolonged by over 58 times, and the fatigue strength FAT corresponding to 106 cycles is increased by about 66%; 2) As for the SS400 butt joint (single side welding double sides molding), after being treated by UPT, the nominal S-N curve (m=10) of FAT 100 MPa(R=0.5) should be used for fatigue design. The standard S-N curves of FAT 100 MPa(R=0.5, m=10) could be used for fatigue design of the SS400 steel butt joints treated by ultrasonic peening. 展开更多
关键词 fatigue strength ultrasonic peening welded joints ultra-fine grain steel
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Isothermal Growth Kinetics of Ultra-fine Austenite Grains in a Nb-V-Ti Microalloyed Steel 被引量:4
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作者 Shengjie Yao Linxiu Du Xianghua Liu Guodong Wang 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2009年第5期615-618,共4页
Ultra-fine austenite grains with size of i-3 μm were prepared in a Nb-V-Ti steel through repetitive treatment of rapid heating and quenching. A model for the growth kinetics of these ultra-fine austenite grains was s... Ultra-fine austenite grains with size of i-3 μm were prepared in a Nb-V-Ti steel through repetitive treatment of rapid heating and quenching. A model for the growth kinetics of these ultra-fine austenite grains was successfully created through successive 2 processes, and the activation energy Q for growth was estimated to be about 693.2 kJ/mol, which directly shows the inhibition effect of microalloy elements on the growth of ultra-fine austenite grains. 展开更多
关键词 ultra-fine austenite grain grain growth kinetics Microalloyed steel
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Development of grain boundary allotriomorphic ferrite/granular bainite duplex steel 被引量:5
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作者 PingguangXu BingzheBai +3 位作者 HongshengFang ZhenjiaWang JianpingWang YongkunPan 《Journal of University of Science and Technology Beijing》 CSCD 2003年第2期39-44,共6页
A new hot-rolled low alloy high strength steel with grain boundaryallotriomorphic ferrite/granular bainite duplex microstructure has been developed through novelmicrostructure and alloying designs without any noble me... A new hot-rolled low alloy high strength steel with grain boundaryallotriomorphic ferrite/granular bainite duplex microstructure has been developed through novelmicrostructure and alloying designs without any noble metal elements such as nickel and molybdenum.Its as-rolled microstructure and mechanical properties, fatigue crack propagation behavior comparedwith single granular bainitic steel as well as continuous cooling transformation, were investigatedin detail. The measured result of CCT (continuous cooling transformation) curve shows that suchduplex microstructure can be easily obtained within a wide air-cooling rate range. More importantly,this duplex microstructure has much better combination of toughness and strength than the singlegranular bainite microstructure. It is found that the grain boundary allotriomorphic ferrite in thisduplex microstructure can blunt the microcrack tip, cause fatigue crack propagation route branchingand curving, and thus it increases the resistance to fatigue crack propagation, improves steeltoughness. The mechanical properties of the above commercial duplex steel plates have achieved orexceeded 870 MPa ultimate tensile strength, 570 MPa yield strength, 18 percent elongation and 34 JCharpy V-notch impact energy at -40 deg C, showing good development potential. 展开更多
关键词 grain boundary allotriomorphic ferrite granular bainite duplexmicrostructure high strength steel
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Effect of welding heat input on HAZ character in ultra-fine grain steel welding 被引量:3
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作者 张富巨 许卫刚 +3 位作者 王玉涛 王燕 张学刚 廖永平 《China Welding》 EI CAS 2003年第2期122-127,共6页
In this essay, we studied how heat input affected the microstructure, hardness, grain size and heat-affected zone(HAZ) dimension of WCX355 ultra-fine grain steel which was welded respectively by the ultra narrow-gap w... In this essay, we studied how heat input affected the microstructure, hardness, grain size and heat-affected zone(HAZ) dimension of WCX355 ultra-fine grain steel which was welded respectively by the ultra narrow-gap welding (UNGW) process and the overlaying process with CO 2 as protective atmosphere and laser welding process. The experimental results show when the heat input changed from 1.65 kJ/cm to 5.93 kJ/cm, the width of its HAZ ranged from 0.6 mm to 2.1 mm.The average grain size grew up from 2~5 μm of base metal to 20~70 μm and found no obvious soften phenomenon in overheated zone. The width of normalized zone was generally wide as 2/3 as that of the whole HAZ, and the grain size in this zone is smaller than that in base metal. Under the circumstance of equal heat input, the HAZ width of UNGW is narrower than that of the laser welding. 展开更多
关键词 heat input heat-affected zone ultra-fine grain steel ultra narrow-gap welding
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Microstructural Features During Strain Induced Ferrite Transformation in 08 and 20Mn Steels 被引量:2
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作者 Ping Yang, Feng-e Cui, Fuming Wang (Materials Science and Engineering School, University of Science and Technology Beijing, Beijing 100083, China) (Metallurgy School, University of Science and Technology Beijing, Beijing 100083, China) 《Journal of University of Science and Technology Beijing》 CSCD 2001年第2期105-110,共6页
The microstructure evolution during strain induced ferrite transformation was followed in thermal-simulation tests of clean 08 and 20Mn steels. The influences of carbon equivalence and initial austenite grain size on ... The microstructure evolution during strain induced ferrite transformation was followed in thermal-simulation tests of clean 08 and 20Mn steels. The influences of carbon equivalence and initial austenite grain size on ferrite grain refinement and the volume fraction of ferrite during straining were inspected. The results revealed that the accelerating effect of ferrite transformation by strain was increased as the carbon equivalence decreased. However, finer ferrite grains were obtained at higher carbon content. At strain of similar to1.5 ferrite grains less than 3 mum and 2 mum can be obtained in 08 and 20Mn steels respectively. Whereas the ferrite grain refinement in 08 steel was due to both effects of strain induced transformation and ferrite dynamic recrystallization, that in 20Mn was mainly due to strain induced transformation. Heavy strain can produce fine ferrite grains in coarse austenite grained 08 steel, but it would lead to band microstructure in coarse austenite grained 20Mn. 展开更多
关键词 clean carbon steel strain induced transformation grain refinement ferrite dynamic recrystallization
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Effects of C and Mn elements on deformation-enhanced ferrite transformation in low carbon (Mn) steels 被引量:1
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作者 Rongfeng Zhou Wangyue Yang +1 位作者 Rong Zhou Zuqing Sun 《Journal of University of Science and Technology Beijing》 CSCD 2005年第6期507-511,共5页
Effects of C and Mn contents on the deformation-enhanced ferrite transformation (DEFT) in low carbon (Mn) steels have been investigated by hot compression. The microstructures of 2-4μm ultra-fine equiaxed ferrite... Effects of C and Mn contents on the deformation-enhanced ferrite transformation (DEFT) in low carbon (Mn) steels have been investigated by hot compression. The microstructures of 2-4μm ultra-fine equiaxed ferrite grains with minors distributed homogeneously can be obtained by DEFT in all the tested steels. The more pronounced refinement is achieved as the C or Mn content increasing because of the higher-density nucleating sites and lower growth rate. The effectiveness of C on the level of refinement is more obvious than that of Mn. 展开更多
关键词 deformation-enhanced transformation ferrite grain refinement low carbon steel manganese steel
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Comparison of Ferrite Refinement Mechanisms by Different Processing Schedules in 08 and 20Mn Steels 被引量:1
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作者 Ping Yang Feng’e Gui, Shicai Ma Material Science and Engineering School, University of Science and Technology Beijing, Beijing 100083, China 《Journal of University of Science and Technology Beijing》 CSCD 2001年第3期218-223,共6页
The influence of deforming temperature on ferrite refinement was analyzed by comparing the microstructures obtained by deformation at above A(r3), in two-phase region of (alpha + gamma) and at below A(t) in clean 08 a... The influence of deforming temperature on ferrite refinement was analyzed by comparing the microstructures obtained by deformation at above A(r3), in two-phase region of (alpha + gamma) and at below A(t) in clean 08 and 20Mn steels. The results indicate that ferrite refinement through strain induced transformation by deformation at above A(r3) is more effective than that by deformation simply through ferrite dynamic recrystallization. The main problem of ferrite refinement by deformation at below A(r3) is the inhomogeneity of microstructure which is controlled by the orientations and sizes of ferrite grains and the distribution of second phases. Ferrite dynamic recrystallization after strain induced transformation can further effectively refine ferrite. 展开更多
关键词 clean carbon steel strain induced transformation grain refinement ferrite dynamic recrystallization
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Effect of upsetting force on microstructure of welds in resistance spot welding of 400 MPa ultra-fine grain steel 被引量:1
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作者 Deng Lipeng Ke Liming +1 位作者 Liu Jinhe Ji Chuntao 《China Welding》 EI CAS 2016年第2期76-82,共7页
The ultra-fine grain (UFG) steel is welded by using resistance spot welding technique with or without requirement of upsetting force. Metallographic inspection shows that the grain size of weld nugget is larger than... The ultra-fine grain (UFG) steel is welded by using resistance spot welding technique with or without requirement of upsetting force. Metallographic inspection shows that the grain size of weld nugget is larger than that of the base metal and the microstructure is altered significantly. In addition, contracting defects such as air holes can be found in the nugget center. The experiments show that the defects can be effectively avoided by the technique of adding upsetting force during the nugget cooling and crystallizing processes. In tensile shear tests, the welding joint starts to crack from the inner edge of the corona bond. The results of micro-hardness tests show that the newly born martensite structure dramatically improves the hardness of the joint. Under the interactions between residual stresses and regenerated fine grains, the micro-hardness of the heat-affected zone ( HAZ ) is lower than that of the nugget, but evidently higher than that of the base metal. 展开更多
关键词 ultra-fine grain steel resistance spot welding MICROSTRUCTURE mechanical property
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Investigation on fracture behavior of the welded joint HAZ of ultra-fine grain steel SS400
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作者 朱政强 陈立功 +3 位作者 荆洪阳 葛景国 倪纯珍 饶德林 《China Welding》 EI CAS 2003年第2期142-145,共4页
The critical crack dimensions of both base-metal specimen and HAZ specimen are measured via wide-plate tensile tests. Based on the “fitness for purpose” principle, the fracture behavior of the ultra-fine grain steel... The critical crack dimensions of both base-metal specimen and HAZ specimen are measured via wide-plate tensile tests. Based on the “fitness for purpose” principle, the fracture behavior of the ultra-fine grain steel SS400 welded joint HAZ is assessed. The test results indicate that overmatching is benefit for the whole capability’s improvement of ultra-fine grain steel SS400. The test results are confirmed by using finite element method (FEM). 展开更多
关键词 ultra-fine grain steel fitness for purpose general yielding FEM
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Grain refinement in the coarse-grained region of the heat-affected zone in low-carbon high-strength microalloyed steels 被引量:10
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作者 Ran Wei Cheng-jia Shang Kai-ming Wu 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2010年第6期737-741,共5页
The microstructural features and grain refinement in the coarse-grained region of the heat-affected zone in low-carbon high-strength microalloyed steels were investigated using optical microscopy, scanning electron mi... The microstructural features and grain refinement in the coarse-grained region of the heat-affected zone in low-carbon high-strength microalloyed steels were investigated using optical microscopy, scanning electron microscopy, and electron backscattering dif- fraction. The coarse-grained region of the heat-affected zone consists of predominantly bainite and a small proportion of acicular ferrite. Bainite packets are separated by high angle boundaries. Acicular ferrite laths or plates in the coarse-grained region of the heat-affected zone formed prior to bainite packets partition austenite grains into many smaller and separate areas, resulting in fine-grained mixed microstruc- tures. Electron backscattefing diffraction analysis indicates that the average crystallographic grain size of the coarse-grained region of the heat-affected zone reaches 6-9 μm, much smaller than that of anstanite grains. 展开更多
关键词 microalloyed steels WELDING grain refinement BAINITE acicular ferrite
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Effects of TiC on the microstructure and formation of acicular ferrite in ferritic stainless steel 被引量:5
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作者 Yang Li Peng-fei Du +7 位作者 Zhou-hua Jiang Cong-lin Yao Lu Bai Qi Wang Guang Xu Chang-yong Chen Lei Zhang Hua-bing Li 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2019年第11期1385-1395,共11页
The formation mechanism of acicular ferrite and its microstructural characteristics in 430 ferrite stainless steel with TiC additions were studied by theory and experiment.Using an"edge?to?edge matching"mode... The formation mechanism of acicular ferrite and its microstructural characteristics in 430 ferrite stainless steel with TiC additions were studied by theory and experiment.Using an"edge?to?edge matching"model,a 5.25 mismatch between TiC(FCC structure)and ferritic stainless steel(BCC structure)was identified,which met the mismatch requirement for the heterogeneous nucleation of 430 ferritic stainless steel.TiC was found to be an effective nucleation site for the formation of acicular ferrite in a smelting experiment,as analyzed by metallographic examination,Image-Pro Plus 6.0 analysis software,and SEM–EDS.Furthermore,small inclusions in the size of 2–4?m increased the probability of acicular ferrite nucleation,and the secondary acicular ferrite would grow sympathetically from the initial acicular ferrite to produce multi-dimensional acicular ferrites.Moreover,the addition of Ti C can increase the average microstrain and dislocation density of 430 ferrite stainless steel,as calculated by Williamson-Hall(WH)method,which could play some role in strengthening the dislocation. 展开更多
关键词 acicular ferrite DISLOCATION density STAINLESS steel TIC grain REFINER oxide METALLURGY
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Strengthening mechanisms of reduced activation ferritic/martensitic steels:A review 被引量:6
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作者 Jin-hua Zhou Yong-feng Shen Nan Jia 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2021年第3期335-348,共14页
This review summarizes the strengthening mechanisms of reduced activation ferritic/martensitic(RAFM)steels.High-angle grain boundaries,subgrain boundaries,nano-sized M_(23)C_(6),and MX carbide precipitates effectively... This review summarizes the strengthening mechanisms of reduced activation ferritic/martensitic(RAFM)steels.High-angle grain boundaries,subgrain boundaries,nano-sized M_(23)C_(6),and MX carbide precipitates effectively hinder dislocation motion and increase high-temperature strength.M23C6 carbides are easily coarsened under high temperatures,thereby weakening their ability to block dislocations.Creep properties are improved through the reduction of M23C6 carbides.Thus,the loss of strength must be compensated by other strengthening mechanisms.This review also outlines the recent progress in the development of RAFM steels.Oxide dispersion-strengthened steels prevent M23C6 precipitation by reducing C content to increase creep life and introduce a high density of nano-sized oxide precipitates to offset the reduced strength.Severe plastic deformation methods can substantially refine subgrains and MX carbides in the steel.The thermal deformation strengthening of RAFM steels mainly relies on thermo-mechanical treatment to increase the MX carbide and subgrain boundaries.This procedure increases the creep life of TMT(thermo-mechanical treatment)9Cr-1W-0.06Ta steel by~20 times compared with those of F82H and Eurofer 97 steels under 550℃/260 MPa. 展开更多
关键词 reduced activation ferritic/martensitic steel strengthening mechanism high-angle grain boundary subgrain boundary PRECIPITATE
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Influence of rapid heating process on the microstructure and tensile properties of high-strength ferrite–martensite dual-phase steel 被引量:2
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作者 Pei Li Jun Li +2 位作者 Qing-ge Meng Wen-bin Hu Chun-fu Kuang 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2015年第9期933-941,共9页
Three low-carbon dual-phase (DP) steels with almost constant martensite contents of 20vo1% were produced by intercritical annealing at different heating rates and soaking temperatures. Microstructures prepared at lo... Three low-carbon dual-phase (DP) steels with almost constant martensite contents of 20vo1% were produced by intercritical annealing at different heating rates and soaking temperatures. Microstructures prepared at low temperature (1043 K, FH1) with fast-heating (300 K/s) show banded ferrite/martensite structure, whereas those soaked at high temperature (1103 K, FH2) with fast heating reveal blocky martensite uniformly distributed in the fine-grained ferrite matrix. Their mechanical properties were tested under tensile conditions and compared to a slow-heated (5 K/s) reference material (SH0). The tensile tests indicate that for a given martensite volume fraction, the yield strength and total elongation values are noticeably affected by the refinement of ferrite grains and the martensite morphology. Metallographic observations reveal the formation of microvoids at the ferrite/martensite interface in the SH0 and FH2 samples, whereas microvoids nucleate via the fracture of banded martensite particles in the FH1 specimen. In addition, analyses of the work-hardening behaviors of the DP microstructures using the differential Crussard-Jaoul technique demonstrate two stages of work hardening for all samples. 展开更多
关键词 high-strength steel MARTENSITE ferrite HEATING MICROSTRUCTURE tensile properties grain refinement
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Atomistic study on the microscopic mechanism of grain boundary embrittlement induced by small dense helium bubbles in iron
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作者 Lei Peng Yong-Jie Sun +3 位作者 Jing-Yi Shi Yi-Fei Liu Shang-Ming Chen Liu-Liu Li 《Nuclear Science and Techniques》 SCIE EI CAS CSCD 2024年第3期84-95,共12页
The helium bubbles induced by 14 MeV neutron irradiation can cause intergranular fractures in reduced activation ferritic martensitic steel,which is a candidate structural material for fusion reactors.In order to eluc... The helium bubbles induced by 14 MeV neutron irradiation can cause intergranular fractures in reduced activation ferritic martensitic steel,which is a candidate structural material for fusion reactors.In order to elucidate the susceptibility of different grain boundaries(GBs)to helium-induced embrittlement,the tensile fracture processes of 10 types of GBs with and without helium bubbles in body-centered cubic(bcc)iron at the relevant service temperature of 600 K were investigated via molecular dynamics methods.The results indicate that in the absence of helium bubbles,the GBs studied here can be classified into two distinct categories:brittle GBs and ductile GBs.The atomic scale analysis shows that the plastic deformation of ductile GB at high temperatures originates from complex plastic deformation mechanisms,including the Bain/Burgers path phase transition and deformation twinning,in which the Bain path phase transition is the most dominant plastic deformation mechanism.However,the presence of helium bubbles severely inhibits the plastic deformation channels of the GBs,resulting in a significant decrease in elongation at fractures.For bubble-decorated GBs,the ultimate tensile strength increases with the increase in the misorientation angle.Interestingly,the coherent twin boundary∑3{112}was found to maintain relatively high fracture strength and maximum failure strain under the influence of helium bubbles. 展开更多
关键词 Helium bubble grain boundary EMBRITTLEMENT Reduced activation ferritic martensitic steel Molecular dynamics Bain path
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Characteristics of Strain-Induced Ferrite in Low Carbon Steel
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作者 LIWei-juan LIUCui-qin +1 位作者 WANGGuo-dong LIUXiang-hua 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2003年第4期54-58,共5页
The strain-induced ferrite formed under different conditions was observed with SEM and optical microscope.The nucleation sites of strain-induced ferrite include grain boundary,grain inside,deformed band and annealing ... The strain-induced ferrite formed under different conditions was observed with SEM and optical microscope.The nucleation sites of strain-induced ferrite include grain boundary,grain inside,deformed band and annealing twin boundary.The shapes of the ferrite accordingly are equiaxed irregular polygonal,strip-shaped and acicular. 展开更多
关键词 low carbon steel strain-induced ferrite grain boundary formed band annealing twin boundary
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Boron metallurgy of advanced ferritic power plant steels and welded joints
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作者 Fujio ABE 《Baosteel Technical Research》 CAS 2010年第S1期84-,共1页
This paper describes the alloy design philosophy for the improvement of long-term creep strength of tempered martensitic 9Cr steel,including welded joints.The creep life t_r is inversely proportional to the minimum cr... This paper describes the alloy design philosophy for the improvement of long-term creep strength of tempered martensitic 9Cr steel,including welded joints.The creep life t_r is inversely proportional to the minimum creep rateε_(min) times the increase in creep rate by strain dlnε/dεin the acceleration region as t_r = 1.5/[(ε_(min)) (dlnε/dε)].The parametersε_(min) and dlnε/dεare closely correlated with the time to minimum creep rate t_m and the strain to minimum creep rateε_m,which characterize the creep deformation behavior in the transient region.The boundary and sub-boundary hardening is shown to be the most important strengthening mechanism in creep of 9Cr steel and is enhanced by fine dispersions of precipitates along boundaries.The addition of boron reduces the coarsening rate of M_(23)C_6 carbides along boundaries near prior austenite grain boundaries during creep.The enhancement of boundary and sub-boundary hardening increases the t_m and decreases theε_(min),which improves the creep life.The boundary and sub-boundary hardening is significantly reduced in fine-grained region of heataffected -zone(HAZ) of conventional steel P92 welded joints,promoting TypeⅣfracture.In NIMS 9Cr boron steel welded joints,the distribution of carbonitrides along boundaries are substantially the same between the HAZ and base metal,suppressing the TypeⅣfracture. 展开更多
关键词 ferritic steel creep strength BORON welded joint grain boundary hardening
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