Effective Microstructure Unit in Control of Impact Toughness in CGHAZ for High Strength Bridge Steel

The high strength bridge steel was processed with the simulated coarse grain heat affected zone(CGHAZ) thermal cycle with heat input varying from 30 to 60 kJ/cm, the microstructures were investigated by means of optical microscope(OM), scanning electron microscope(SEM), electron backscattering diffraction(EBSD) and transmission electron microscope(TEM), and the impact properties were evaluated from the welding thermal cycle treated samples. The results indicate that the microstructure is primarily composed of lath bainite. With decreasing heat input, both bainite packet and block are significantly refined, and the toughness has an increasing tendency due to the grain refinement. The fracture surfaces all present cleavage or fracture for the samples with different heat inputs. Moreover, the average cleavage facet size for the CGHAZ is nearly equal to the average bainite packet size and the bainitic packet boundary can strongly impede the crack propagation, indicating that the bainitic packet is the most effective unit in control of impact toughness in the simulated CGHAZ of high strength bridge steel.     

Sintering products molded by injecting ceramic and metal powders

The injection molding products with different volume ratios of ZrO2 ceramic powder to 316L stainless steel powder were prepared. Properties and structure of the products were characterized by X-ray diffraction(XRD), scanning electron microscope(SEM) and transmission electron microscope (TEM). The results show that the compressive stress exists in the products and the bend strength reaches 300 MPa. ZrO2 phase and stainless steel phase are uniform in samples. The toughness of ceramic increases with the increasing the content of stainless steel. Through TEM study of the interface, some crystalline orientation relationships are determined.     

低合金耐磨钢的组织与性能

低成本、高性能耐磨钢的需求增长及其开发都在进行中．本研究根据对耐磨钢性能的要求,试制了三种不同合金化方式的低合金耐磨钢,利用金相显微镜、透射电子显微镜、洛氏硬度计、万能材料试验机、夏氏冲击试验机和磨粒磨损实验机研究了其组织和性能,讨论了它们问的关系．结果表明：0．25C钢经不同工艺热处理后均获得了马氏体组织,并发生不同程度的自回火现象,硬度均大于45HRC,屈服强度大于1000MPa,抗拉强度大于1500MPa,并具有一定的塑性和韧性;在860℃淬火或920℃淬火并250℃回火后,实验钢的硬度、强度、塑性和韧性有最佳的配合,耐磨性最佳;V微合金化对钢的组织和性能没有明显影响．0．33C钢860℃或920℃奥氏体化后以等于或大于2．0％／s的冷速连续冷却或风冷至室温,回火或不回火即可得到由贝氏体与马氏体组成的混合组织,硬度超过50HRC,屈服强度大于900MPa,抗拉强度大于1500MPa,有一定的塑性和韧性,耐磨性良好,与商用淬火一回火耐磨钢类似;但由于具有高的加工硬化能力和良好的冲击韧性,在冲击条件下的耐磨性会优于商用钢．不同工艺热处理后的试验钢的磨损率随砂纸粒度和载荷增大而增大,载荷的影响较大,而磨粒的影响较小．     

ODS HT9钢的制备及其性能研究

用氮气雾化的HT9粉末和Y₂O₃粉末为原料,通过机械球磨的方法制备ODS(oxide dispersion strengthened, 即氧化物弥散强化)合金钢粉末,采用SPS(spark plasma sintering, 即放电等离子烧结)的方法制备不同烧结温度下的ODS HT9钢,通过光学显微镜、XRD、SEM、维氏硬度计和拉伸试验机等试验设备,研究不同球磨工艺(球磨时间及球料比)和烧结温度分别对ODS合金钢粉末特性和性能的影响。结果表明:球磨时间30 h以及球料比为10:1时,粉末颗粒大小均匀且晶粒尺寸趋于稳定,在烧结温度1 000 ℃和1 050 ℃;ODS HT9钢中只有铁素体-马氏体相,在烧结温度为1 000 ℃时,其抗拉强度、致密度和硬度分别达到了955 MPa、98.6%和460 HV1;其抗拉强度和硬度比普通类似成分的316不锈钢分别提高了48%和52%,获得了较好的性能。     

High performance low cost steels with ultrafine grained and multi-phased microstructure

Ultrafine grained ferrite was obtained through tempering cold rolled martensite with an average grain size of 200―400 nm in a low carbon and a microalloyed steel. Thermal and mechanical stability of the two steels was studied. Due to the pinning effect of microalloyed precipitates on the movement of dislocations and grain boundaries, the recrystallization and grain growth rate were retarded, and the thermal stability of ultrafine grained microstructure was improved. The ultrafine grained ferritic steel was ...     

700MPa级超低碳高强度贝氏体厚钢板的晶粒细化机制研究

根据超低碳微合金化的成分设计意图,采用控制轧制和控制冷却工艺得到细化的贝氏体组织,利用光学显微镜、FE-SEM和TEM对各类微观组织和析出物进行了研究和分析。结果表明,700MPa级超低碳贝氏体厚钢板为细小均匀的粒状贝氏体和少量针状铁素体与多边形铁素体的复合组织,其屈服强度不小于580MPa,抗拉强度不小于700MPa,低温冲击韧性为-20℃,Akv不小于150J。钢板具有强度高、韧性好和焊接性能良好的特点,其强度和韧性的良好匹配主要是由于在粒状贝氏体相变前形成了少量的针状铁素体分割奥氏体晶粒,从而细化了最终的复合组织。     

焊接工艺对316 J1L 不锈钢焊缝耐海水腐蚀性能的影响

通过提高焊接速度,减小焊接电流等手段改进316J1L的焊接工艺,提高了焊缝的耐海水腐蚀性能。利用金相显微镜、扫描电镜及X射线衍射技术对原失效焊件及改进工艺焊件三区的微观组织形貌、元素分布、物相组成等进行测定,测量2种工艺下焊件三区的动电位极化曲线,并对电化学特性进行了比较分析。结果表明:改进工艺后焊件三区平均晶粒度较大,元素分布更加均匀,腐蚀电流密度更小,腐蚀电位更高,腐蚀速率显著降低。     

激光强化对40Cr钢表面组织的影响

采用聚焦激光镜和宽带激光镜对40Cr钢进行表面强化处理,用扫描电镜对其断面组织进行了分析,并且显微硬度计测量了硬化区显微硬度,分析激光各参数对40Cr钢组织变化及显微硬度的影响。     

Microstructure and mechanical properties of Nb-B bearing low carbon steel plate: Ultrafast cooling <Emphasis Type="Italic">versus</Emphasis> accelerated cooling

The microstructure and mechanical properties of low carbon bainite high strength steel plate were studied via different cooling paths at the pilot scale. There was a significant increase in mechanical properties, and notably, the yield strength, tensile strength, and toughness at -40 °C for the tested steel processed by ultra-fast cooling were 126 MPa, 98 MPa and 69 J, respectively, in relation to steel processed by accelerated cooling. The ultra-fast cooling rate not only refined the microstructure, precipitates, and martensiteaustenite (M/A) islands, but also contributed to the refinement of microstructure in thick plates. The large size M/A constituents formed at lower cooling rate experienced stress concentration and were potential sites for crack initiation, which led to deterioration of low-temperature impact toughness. In contrast, the acicular ferrite and lath bainite with high fraction of high-angle grain boundaries were formed in steel processed by ultra-fast cooling, which retarded cleavage crack propagation.     

600MPa级钛微合金化高强钢的组织与性能研究

采用光学显微镜、透射电镜以及能谱分析等对转炉CSP流程600 MPa级钛微合金化高强钢的组织及性能进行研究。结果表明,试验钢具有良好的综合力学性能,其典型组织为多边形铁素体加粒状贝氏体;位错和位错胞的强化作用成为钛微合金钢的主要强化机制之一;钢中M/A岛在增加试验钢强度的同时并未明显降低其韧性和塑性;试验钢中存在TiN、TiC和TiS等析出物,为钢的细晶强化和析出强化提供了保证;试验钢中存在大量纳米级铁碳析出物,其沉淀强化作用不容忽视。     

含W的Cr15型超级马氏体不锈钢组织性能分析

采用全自动热膨胀相变仪、光学显微镜、透射电镜、高分辨电镜及能谱分析和力学万能试验机等手段,研究含W的Cr15型超级马氏体不锈钢经淬火+回火后的微观组织和力学性能.结果表明,淬火+回火后的微观组织为回火马氏体及分布在马氏体基体中的逆变奥氏体两相组织,形成的逆变奥氏体与马氏体板条符合K-S关系.在基体上弥散析出的纳米级金属化合物Laves相以及富铜相ε-Cu起到强化作用.该钢具有优良的力学性能,洛氏硬度为26～36,抗拉强度为895～1 009 MPa,延伸率为17%～21%.     

Influence of some rock strength properties on jaw crusher performance in granite quarry

The influence of rock strength properties on Jaw Crusher performance was carried out to determine the effect of rock strength on crushing time and grain size distribution of the rocks.Investigation was conducted on four different rock samples namely marble,dolomite,limestone and granite which were representatively selected from fragmented lumps in quarries.Unconfined compressive strength and Point load tests were carried out on each rock sample as well as crushing time and size analysis.The results of the strength parameters of each sample were correlated with the crushing time and the grain size distribution of the rock types.The results of the strength tests show that granite has the highest mean value of 101.67 MPa for Unconfined Compressive Strength (UCS) test,6.43 MPa for Point Load test while dolomite has the least mean value of 30.56 MPa for UCS test and 0.95 MPa for Point Load test.According to the International Society for Rock Mechanic (ISRM) standard,the granite rock sample may be classified as having very high strength and dolomite rock sample,low strength.Also,the granite rock has the highest crushing time (21.0 s) and dolomite rock has the least value (5.0 s).Based on the results of the investigation,it was found out that there is a great influence of strength properties on crushing time of rock types.     

T4处理后AZ91镁合金焊接接头组织演变规律

为了明确固溶(T4)处理工艺参数对AZ91镁合金焊接接头组织演变规律的影响,需要进行T4处理优化设计,确定最佳热处理工艺.热处理后分别采用光学显微镜、扫描电子显微镜和拉伸试验机对焊接接头的显微组织和力学性能进行分析.结果表明,T4处理可以改变接头的组织形态,影响第二相β-Mg17Al12的位置,增大晶粒尺寸,特别是粗晶区;较为合理的T4参数可以提高抗拉强度,提高塑性,降低硬度;AZ91镁合金固溶处理的最佳工艺条件为420℃×15 h,抗拉强度为274.28 MPa.     

Mechanical properties of fine-grained dual phase low-carbon steels based on dynamic transformation

The fine grained dual phase (FG-DP) steel with ferrite grains of 2-4.5 μm and martensite islands smaller than 3 μm was obtained through the mechanism of deformation-enhanced ferrite transformation (DEFT). Mechanical properties of the steel were tested at room temperature. The results indicated that with a similar volume fraction of martensite (about 20vol%),FG-DP steel ex-hibited a superior combination of higher strength and more rapid strain hardening at low strains compared with the coarse-grained dual ph...     

低合金高强度双相耐磨钢热处理工艺研究

采用光学显微镜、电子显微镜和万能力学试验机对热处理后的低合金高强度双相耐磨钢试样进行组织观察和力学性能测试。结果表明,水淬后的试样微观组织为贝氏体-马氏体双相组织;250℃回火后的试样微观组织为回火马氏体和贝氏体;450℃和600℃回火后的试样微观组织分别为回火马氏体和贝氏体。水淬250℃回火后的试样具有最佳强度和塑性配比,其抗拉强度和屈服强度分别为1491.4 MPa和1264.6 MPa,HRC硬度为43,延伸率为9.42%。     

卷取温度对热轧TRIP钢残奥及力学性能的影响

为了研究卷取温度对热轧TRIP钢的残余奥氏体和力学性能的影响,使用金相显微镜、扫描电镜、x-射线衍射、拉伸实验等方法对三种卷取温度下制备的热轧TRIP钢进行分析.结果显示,随着卷取温度的降低,残余奥氏体晶粒尺寸变小,残奥体积分数和碳的质量分数也变小.450 ℃和400 ℃卷取温度下制备的热轧TRIP钢的残奥形貌的圆整性相差不大,而350 ℃卷取温度下制备的热轧TRIP钢的残奥形貌较圆整.热轧TRIP钢的力学性能随着卷取温度的降低表现为高的屈服强度和低伸长率,450 ℃卷取温度下制备的热轧TRIP钢的综合力学性能最优.     

Bulk nanocrystalline Al prepared by cryomilling

Bulk nanocrystalline Al was fabricated by mechanically milling at cryogenic temperature (cryomilling) and then by hot pressing in vacuum. By using X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM), the microstructure evolution of the material during cryomilling and consolidation was investigated. With increasing the mill- ing time, the grain size decreased sharply and reduced to 42 nm when cryomilled for 12 h. The grains had grown up, and the colum- nar grain was formed under the hot pressing and extrusion compared with the cryomilled powders. The grain size of as-extruded specimen was approximately 300-500 nm. The reason of high thermal stability of this bulk was attributed primarily to the Zener pin- ning from the grain boundary of the AlN arising from cryomilling and the solute drag of the impurity. Tensile tests show that the strength of nanocrystalline Al is enhanced with decreasing grain size. The ultimate tensile strength and tensile elongation were 173 MPa and 17.5%, respectively. It appears that the measured high strength in the cryomilled Al is related to a grain-size effect, disper- sion strengthening, and dislocation strengthening.     

Microstructure and mechanical properties of FGBA/BG air cooling bainitic steels containing niobium

The effect of different Nb additions on the mechanical properties and microstructure evolution of grain boundary allotriomorphic ferrite(F_(GBA)) / granular bainite(B_G) air cooling bainitic steels was investigated.The results indicate that the tensile strength and yield strength increase by 157 and 97 MPa,respectively with the addition of 0.02wt%Nb.The steel acquires superior strength and toughness with the addition of 0.06wt%Nb.The results of scanning electron microscopy and transmission electron micro...