Al、Ti处理对低合金钢焊接粗晶区组织的影响

研究了Al、Ti处理对低合金钢焊接粗晶区组织的影响.研究发现:用Al处理时,钢中形成的夹杂物为Al的氧化物和细小的TiN.Al的氧化物和TiN不能促进晶内铁素体的形成,焊接粗晶区主要由粗大的晶界铁素体和平行排列的侧板条铁素体组成.用Ti处理时,钢中形成大量的Al、Ti、Mg、Ca复合氧化物夹杂,其颗粒大小为0.5～3.0 μm,同时还有一定量细小的Ti的氮化物.复合Ti的氧化物具有促进晶内针状铁素体形核的能力,焊接粗晶区主要由晶界铁素体、少量的侧板条铁素体和大量的晶内针状铁素体组成.随焊接热循环高温保温时间增长,晶界铁素体粗大,侧板条铁素体数量减少.相变区的冷却速度减慢,晶界铁素体数量增多,针状铁素体的尺寸显著增大.     

钒氮钢中晶粒细化研究

 采用Gleeble 3500热模拟试验机，在相同工艺条件下，对比研究了钒氮钢、钒钢以及碳锰钢的晶粒细化效果。结果表明，钒氮钢的晶粒细化效果最显著，铁素体的晶粒尺寸可达61 μm，这主要与在奥氏体区中析出的V(C，N)有关。奥氏体区析出的V(C，N)，不但可抑制奥氏体晶粒长大，同时还可以作为铁素体的形核核心，诱导晶内铁素体形成，大大增加铁素体形核率，从而提高了相变细化的比率。     

微合金钢中氧化物夹杂对焊接热影响区组织、性能的影响

研究了一种微合金钢中夹杂物与模拟焊接热影响区微观组织以及低温冲击韧性的关系.结果发现:实验钢夹杂物以类球状Ti₂O₃-Al₂O₃-MnS型复合夹杂为主,分布较为均匀且尺寸小于3μm;在相变冷却时间较短(T_8/5=40s)时,试样微观组织以针状铁素体和沿晶铁素体为主,板条贝氏体束较少,原奥氏体晶粒尺寸在50μm左右,低温冲击性能优良;随着相变冷却时间的延长(T_8/5=60,80s),原奥氏体晶粒尺寸也随之增大,相变温度的提高和相变区域的变宽使得位于原奥氏体晶界附近的夹杂物对晶界处多边形铁素体的诱导促进作用更加明显,沿晶铁素体长大剧烈,一定程度上消耗了晶内针状铁素体对组织的分割细化作用,使得低温冲击韧性有所降低.     

钛稀土复合处理对C-Mn钢粗晶热影响区组织及韧性的影响

利用Gleeble-1500D热模拟机进行焊接热影响区热循环模拟实验,研究了在焊接热输入为65 kJ·cm^-1时稀土单独处理和钛稀土复合处理对C-Mn钢粗晶热影响区组织及冲击韧性的影响,并利用扫描电镜观察和分析了实验钢中的夹杂物和冲击断口形貌,利用光镜观察了热循环模拟后实验钢中的微观组织.实验结果表明:稀土单独处理和钛稀土复合处理的试样微观组织分别主要是晶界铁素体+块状铁素体+针状铁素体和晶界铁素体+晶内针状铁素体.经稀土单独处理的试样中夹杂物为La₂O₂S+锰铝硅酸盐+MnS复合夹杂;钛稀土复合处理的试样中的夹杂主要是La₂O₂S+TiO_x+锰铝硅酸盐+MnS复合夹杂.钛稀土复合处理钢中的复合夹杂更细小,有利于形成细小的晶内针状铁素体.钛稀土复合处理极大地改善了实验钢的焊接热影响区低温冲击韧性,比稀土单独处理对试样的冲击性能提升效果更好.     

Effect of Aluminum and Titanium Treatment on Non-Metallic Inclusions and Microstructures of CGHAZ in HSLA Steel

The Effect of A1 and Ti treatment on non-metallic inclusions and microstructures of coarse-grain HAZ in HSLA stee1 was investigated in this paper based on experiments and thermodynamic calculations.The results showed that the inclusions in A1 treated steel were mainly aluminum oxides and titanium nitrides which could not promote the formation of acicular ferrite microstructures.Microstructure of coarse-grain HAZ in A1 treated steels consists of heavy grain boundary ferrite and ferrite side plate.The inclusions in Ti treated steel were A1,Ti,Mg,Ca composite oxides with size in the range of 0.5-3μm and titanium nitrides with size less than 0.3μm.Ti composite oxide could promote the formation of acicular ferrite and microstructures of coarse-grain HAZ in Ti treated steel consists of grain boundary ferrite,small amounts of ferrite side plate and large amounts of intragranular acicular ferrite.The size of grain boundaries ferrite was increased and the amount of ferrite side plate was decreased with the increase of soaking time at the peak temperature.The amount of grain boundary ferrite and the size of acicular ferrite were also increased with the increase of cooling rate during ferrite phase formation.     

稀土和Ca、Mg元素对高强度钢焊接热影响区组织和韧性的影响

研究了低合金高强度非调质中厚板钢中添加稀土(REM)和Ca、Mg微量元素对大线高能焊接热影响区(HAZ)显微组织微细化和晶内针状铁素体(IAF)形成的影响.结果表明,添加REM和Ca、Mg元素可在钢的HAZ中形成弥散稳定的氧硫化物(CeCa)2O2S和(CeMg)2O2,热轧奥氏体化(1450℃)和焊接热输入10 kJ/mm时都十分稳定,比传统采用TiN强化的钢具有更优良的低温韧性.有效地控制细小弥散的氧硫化合物,能获得适中的奥氏体有效晶粒尺寸和提供HAZ中形成晶内针状铁素体及稳定活性的形核位置.促进晶内铁素体协同形核生长,有效地使得HAZ组织微细化.     

含钛低合金高强钢焊接热影响区晶内铁素体形核机制研究

利用透射电子显微 地含钛低合金高强钢的焊接热影响区（HAZ）晶内铁素体（IGF）的形核机理进行了试验研究。对IGF精细组织的研究表明，IGF非均匀形核核心主要为外部析出了一层Mn硫化物并富含Si元素的Ti氧化物复合粒子；对该复合夹杂物粒子的EDX谱分析表明，该粒子对Si的吸附能力大于Mn；IGF的形核长大与Mn硫化物的热膨胀相关系数、复合夹杂物粒子周围存在的小范围贫Mn区以及该粒子中的富Si有关。     

Effect of magnesium addition in low carbon steel part 2: toughness and microstructure of the simulated coarse-grained heat-affected zone

A critical investigation into the role of Mg on the toughness and microstructure of coarse grain heat-affected zone (CGHAZ) in low carbon steel has been investigated. In this research, the specimens (Mg-free and Mg-added) underwent weld thermal cycle with heat input of 54, 80, and 100?kJ?cm^?1 at 1350°C peak temperature using a thermal simulator. The typical inclusions characteristics were characterised by means of scanning electron microscopy and equilibrium calculations. The precipitates were characterised by transmission electron microscopy and energy-dispersive spectroscopy. It is revealed that the occurrence of Mg in steel mostly exists in the form of Mg-Al-O oxide inclusions, but a few in the form of solid solution state and (Nb,Ti)(C,N)+MgO precipitates when the concentration of Mg is 0.0026%. The improvement of CGHAZ toughness is obtained when the heat input is 80 and 100?kJ?cm^?1. The possible reasons about the effects of Mg on the toughness of CGHAZ, including Mg-Al-O inclusions, precipitates, and soluble Mg, are discussed in detail.     

Low Cost High Performance Steel Plate With Superior HAZ Toughness for Large Heat Input Welding

In this paper, a laboratory study has been made to develop low cost high performance steel plates with superior HAZ toughness for large heat input welding. Simulated results show that the absorbed impact energy of heat-affected zone (HAZ) at -20℃reaches above 200J when large heat inputs of 100 to 400kJ/cm were applied, suggestive of superior HAZ toughness for large heat input welding of developed steel plate. The microstructures in HAZ are transformed from mainly fine ferrite and bainite at 100kJ/cm, through an intermediate stage of ferrite, bainite and pearlite at 200 and 300kJ/cm, to nearly fine ferrite and pearlite at 400kJ/cm. The prior austenite grain size and ferrite grain size in HAZ are controlled to ～50 and ～20μm, respectively. The high HAZ toughness is due to the inhibition of prior austenite grain size at high temperatures and the formation of beneficial microstructures to HAZ toughness during continuous cooling.     

STE355钢模拟焊接热影响区的组织与性能

采用模拟焊接热循环的方法，研究了单次热循环和多次热循环时，Ｔｍａｘ和ｔ８／５对ＳＴＥ３５５钢热影响区组织和性能的影响，为制定最佳焊接工艺参数提供依据。     

VN微合金钢中Ti脱氧夹杂物诱导晶内铁素体析出行为

通过热力学计算及热态实验,研究了Ti脱氧VN微合金钢中,含Ti夹杂物析出行为及其诱导晶内铁素体析出行为.结果发现,夹杂物与铁素体、珠光体之间的相对位置关系存在六种形式,通过赋予这些形式不同的诱导能力系数,定量比较夹杂物类型、尺寸与诱导能力的关系.Ti的复合氧化物诱导能力最强,Al₂O₃最弱.Ti的复合氧化物诱导最佳尺寸4～6μm,其他夹杂物最佳尺寸为2～4μm.通过控制夹杂物种类、尺寸促进晶内铁素体析出,能够细化晶粒.     

Ti-Mg复合脱氧对钢热影响区组织和冲击性能的影响

利用Gleeble-1500热模拟试验机进行焊接热模拟实验,研究16Mn钢经微Ti和Ti-Mg处理后焊接热影响区组织及冲击性能的变化,并利用扫描电镜和能谱分析法观察和分析实验钢的夹杂与冲击断口形貌.Ti和Ti-Mg复合处理试样的热影响区显微组织分别主要是晶界块状铁素体+晶界侧板条铁素体和晶内针状铁素体+晶界块状铁素体.经Ti处理后钢中夹杂物主要为5μm左右的TiO_x+MnS复合夹杂,经Ti-Mg复合脱氧后钢中夹杂物主要为2μm左右Ti-Mg-O+MnS组成的复合夹杂,且后者明显细化了钢中夹杂物尺寸.Ti-Mg复合脱氧试样中存在大量细小夹杂颗粒,一方面可钉扎裂纹,另一方面诱导形成了使大量针状铁素体,大焊接热输入条件下Ti-Mg复合脱氧试样热影响区冲击韧性明显强于单独Ti处理的试样.     

低合金钢焊接粗晶区连续冷却铁素体相变规律

 利用焊接粗晶区连续冷却淬火方法,对比分析了钛处理钢和普通C Mn钢焊接粗晶区连续冷却不同阶段的相变组织,研究了铁素体相变规律。结果表明,C Mn钢焊接粗晶区主要为晶界铁素体+魏氏组织铁素体;钛处理钢焊接粗晶区主要为晶界铁素体+魏氏组织铁素体+晶内铁素体组织。在钛处理钢中,晶界铁素体、魏氏组织铁素体和晶内铁素体的相变开始温度相同,但各自长大的动力学条件不同。当晶内铁素体和魏氏组织铁素体竞争发生相变时,晶内铁素体在晶内弥散分布氧化物夹杂上的非均质形核抑制了魏氏组织铁素体向晶内的长大。     

变形温度与冷却速率对含Nb中碳钢晶粒细化的影响

 利用Gleeble 1500热模拟试验机,以含Nb中碳钢为研究对象,研究了不同变形温度与冷却速率对再加热淬火后奥氏体晶粒细化的影响及其晶粒细化的机制。结果表明：经热变形后直接淬火+再加热淬火工艺得到的奥氏体晶粒尺寸均小于10 μm, 且随热变形温度的降低,原奥氏体晶粒由等轴晶粒变成扁平化晶粒,经再加热淬火后,得到的奥氏体晶粒逐渐细化;与变形后以5 ℃/s冷速缓冷的工艺相比,变形后直接淬火经再加热淬火后的奥氏体晶粒细化更明显。     

Al对稀土处理C-Mn钢连续冷却组织转变的影响

研究Al预脱氧对Ce处理钢夹杂物和显微组织的影响,利用热力学计算、带能谱的扫描电镜和DIL805A热膨胀仪检测进行了对比研究。得到如下结论:Ce处理后钢中的主要夹杂物从MnS转变为Ce2O2S+MnS,Al脱氧能使Ce处理钢中夹杂物转变为CeAlO3+Ce2S3+MnS。Ce处理C-Mn钢连续冷却过程有利于获得晶内铁素体的冷速为2~8℃/s。Al脱氧能改变诱导晶内铁素体形核的核心夹杂物种类,诱导铁素体形核的能力降低,且Al能够使Ce处理钢连续冷却组织转变(CCT)曲线向左上方移动,促进铁素体在晶界形核,不利于Ce处理后晶内铁素体的形成。Al脱氧Ce处理C-Mn钢在冷速为2~5℃/s时,由于夹杂物核心成分的改变与Al合金化作用导致晶内铁素体含量较未用Al脱氧Ce处理钢少。     

Effect of Magnesium on Inclusion Formation in Ti-Killed Steels and Microstructurai Evolution in Welding Induced Coarse-Grained Heat Affected Zone

Effects of Mg on the chemical component and size distribution of Ti-bearing inclusions favored grain refinement of the welding induced coarse-grained heat affected zone (CGHAZ),with enhanced impact toughness in Ti-killed steels,which were examined based on experimental observations and thermodynamic calculations.The results indicated that the chemical constituents of the inclusions gradually varied from the Ti-O+Ti-Mg-O compound oxide to the Ti-Mg-O+ MgO compound oxide and the single-phase MgO,as the Mg content increased from 0.002 3% to 0.006%.A trace addition of Mg (approximately 0.002 %) led to the refinement of Ti-bearing inclusions by creating the Ti-Mg-O compound oxide and provided favorable size distribution of the inclusions for acicular ferrite transformation with a high nucleation rate in the CGHAZ,and a high volume fraction of acicular ferrite was obtained in the CGHAZ with enhanced impact toughness.Otherwise,a high content of Mg (approximately 0.006%) produced a single-phase MgO,which was impotent to nucleate an acicular ferrite,and a microstructure comprised of a ferrite side plate and a grain boundary ferrite developed in the CGHAZ.The experimental results were confirmed by thermodynamic calculations.     

低合金钢焊接热影响区的微观组织和韧性研究进展

对钢结构而言,诸如海洋平台、船舶、桥梁、建筑和油气管线等,焊接后的性能直接决定了其服役寿命和安全性,重要性不言而喻.在针对焊接相关问题的研究中,焊接热影响区的韧性提升一直是重点和难点.焊接热影响区会经历高达1400℃的高温,从而形成粗大的奥氏体晶粒,如果焊接参数控制不当,不能通过后续冷却过程中的相变细化组织,就会造成韧性的降低.而多道次焊接的情况更为复杂,前一道次形成的粗晶区还会在后续焊接过程中经历二次热循环,从而形成链状M-A,造成韧性的急剧下降.本文旨在对一些现有焊接热影响区的相关研究结果进行总结,探讨母材的成分、第二相及焊接工艺等因素对热影响区微观组织和性能的影响,为低温环境服役的大型钢结构的焊接性能改善提供一些设计思路.     

汽车桥壳用热连轧微合金高强钢板的研究

测试了一种微合金钢（０．０８％Ｃ,１．６４％Ｍｎ,０．０３３％Ｎｂ,０．０１９％Ｔｉ）经１２００℃加热,奥氏体分别在未经变形、８５０℃经５０％压缩变形条件下的ＣＣＴ曲线和暧时加热到１３３０℃的ＣＣＴ曲线。在二辊实验轧机和控冷设备上模拟热轧和控冷工艺。结果表明,实验钢经控轧控冷中温卷取可获得针状铁素体组织,抗拉强度达到５７０ＭＰａ,总伸长率大于２５％,冷弯成形性能优良。