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Influence of isothermal aging onσprecipitation in super duplex stainless steel 被引量:3
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作者 Xiao-feng Wang Wei-qing Chen Hong-guang Zheng 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2010年第4期435-440,共6页
The time-temperature-transformation (TTT) curve of the 00Cr25Ni7Mo4N duplex stainless steel was obtained with a Formastor-digital thermal dilatometer, and the influence of isothermal aging on o precipitation was stu... The time-temperature-transformation (TTT) curve of the 00Cr25Ni7Mo4N duplex stainless steel was obtained with a Formastor-digital thermal dilatometer, and the influence of isothermal aging on o precipitation was studied by metallographic observation, X-ray diffraction (XRD), and transmission electron microscopy (TEM). The results show that the decomposition of ferrite phase is accompanied by the formation of σ phase at 750-1000℃, especially in the range of 800-900℃. The longer the aging time, the higher the amount of o precipi- tation. The area fxaction of various phases remains at a certain value upon the completion of ferrite deformation. The temperature of 850℃ is the most sensitive transaction temperature, the incubation time for the formation of o precipitation is less than 1 min, and aging for 20 min leads to the complete transformation of ferrite. The o phase is formed preferentially at the α/α/γjunction, and then grows along the α/α boundary in the matrix. 展开更多
关键词 super duplex stainless steel isothermal aging PRECIPITATION area fraction
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Sigma Phase Precipitation and Properties of Super-duplex Stainless Steel UNS S32750 Aged at the Nose Temperature 被引量:9
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作者 邹德宁 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2011年第2期183-186,共4页
The nose temperature for σ-phase precipitation in super-duplex stainless steel (SDSS) UNS S32750 was evaluated by hardness method.Color-optical microscopy,scanning electron microscopy,energy spectrum analysis,impac... The nose temperature for σ-phase precipitation in super-duplex stainless steel (SDSS) UNS S32750 was evaluated by hardness method.Color-optical microscopy,scanning electron microscopy,energy spectrum analysis,impact and corrosion testing were carried out to investigate characteristics of microstructure and properties of the SDSS aged at the nose temperature.The experimental results indicate that the nose temperature of precipitation is 920℃ and aging at this temperature tiny σ phases can precipitate at phase interfaces or ferrite grain boundaries within 2min.Prolonging aging duration the amount ofσ-phase increases and a dual structure with σ and γ is obtained when aging for 120min.The precipitation ofσ-phase leads to severe deterioration in impact toughness (longitudinal/transverse direction) and corrosion resistance of SDSS. 展开更多
关键词 super-duplex stainless steel AGING σ-phase impact toughness corrosion resistance
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Microstructural changes during heating of super duplex stainless steel and its thermal deformation behavior 被引量:2
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作者 ZHOU Candong AO Ying LIU Xiaorong 《Baosteel Technical Research》 CAS 2017年第4期22-33,共12页
Microstructural changes during heating of highly alloyed Cr26Ni7 type super duplex stainless steel (SDSS2607) and its thermal deformation behavior were investigated. At different heating rates, the mechanism of phas... Microstructural changes during heating of highly alloyed Cr26Ni7 type super duplex stainless steel (SDSS2607) and its thermal deformation behavior were investigated. At different heating rates, the mechanism of phase transition from y phase to 6 phase and growth modes of ~ phase differed. Variations in microstructures for as- cast SDSS2607 during heat preservation at 1 220 ~C indicated two kinds of transformations from y phase to 6 phase. In-situ observations of microstructural changes during the tensile process at 1 050 showed a mutual coordination between y and 6 phases. When the true strain increased, the mutual coordination between 7 and 6 phases was damaged. Subsequently, cracks nucleated at the "y/g interface. With the increase in temperature, the strength of as- cast SDSS2607 decreased while its plasticity increased. Its thermoplasticity was poor, and the reduction in area of tensile specimens was less than 80%. When the deformation strain of hot compression increased, the stable deformation zone in the heat processing maps enlarged gradually. Moreover, the unstable deformation zones were extended. 展开更多
关键词 super duplex stainless steel microstructural changes thermal deformation behavior
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Influence of MIG/MAG Welding Process on Mechanical and Pitting Corrosion Behaviors on the Super-Duplex Stainless Steel SAF 2507 Welded Joints 被引量:2
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作者 Bruno Leonardy S. Lopes Samuel F. Rodrigues +4 位作者 Eden S. Silva Gedeon S. Reis Waldemir dos P. Martins Juvenilson Costa Damascena Valdemar S. Leal 《Materials Sciences and Applications》 2018年第2期228-245,共18页
The main objective of this research is to better understand the correlation between the constituent phases presented in the super-duplex steel SAF 2507 when it is under welding process by arc shielding gas MIG-MAG (Me... The main objective of this research is to better understand the correlation between the constituent phases presented in the super-duplex steel SAF 2507 when it is under welding process by arc shielding gas MIG-MAG (Metal Inert Gas-Metal Active Gas). Conventional short circuit transfer and derivative STT (Surface Tension Transfer) using the 2594 welding wire as a filler metal and the effects on welding power in hardness, toughness and pitting corrosion are considered here. The results showed that the welding energy (Ew) changed the α/γ-phase’s balance and occasionally formed σ-phase in ferrite grain boundaries which led to changes in hardness, toughness and pitting corrosion resistance in molten zone (MZ), heat activated zone (HAZ) and metal base regions (MB). Furthermore, the increased amount of γ-phase improved the pitting corrosion resistance index (PRENγ) mainly in the MZ. This is due to decrease of α-phase fraction and formation of coarser grains, for higher welding energy. The toughness in the MZ decreased with less formation of γ-phase, coalescence of ferritic grains and localized formation of σ-phase, raising the hardness in the HAZ when the welding energy was lower. 展开更多
关键词 super-duplex steels Welding Toughness PITTING Corrosion MICROHARDNESS
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An EBSD study of the micro structural development during annealing of a folded super duplex stainless steel sheet sample
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作者 H S UBHI J R SAITHALA 《Baosteel Technical Research》 CAS 2010年第S1期123-,共1页
Super duplex stainless steels(SDSS) show complex precipitation and transformation behavior during heat treatment processes,which affects both mechanical and corrosion properties. This report presents some data on the ... Super duplex stainless steels(SDSS) show complex precipitation and transformation behavior during heat treatment processes,which affects both mechanical and corrosion properties. This report presents some data on the microstructures that develop after folding and subsequent precipitation during heat treatment of UNS S32750 SDSS sheet samples.The microstructural and textural changes have been followed using SEM/EBSD techniques.Upon folding,both a texture and strain gradient form in the folded/bent region,subsequent heat treatment at 845℃results in the ferrite phase to transform to sigma,austenite and chi phases.Transformation was found to be accelerated by strain.Complete transformation of the ferrite phase occurred within half the annealing time required in the unstrained regions.The local mis-orientations in the ferrite and austenite phases reduced during annealing,however,the reduction in the austenite was not very high and a significant amount remained even after the longest annealing time.The texture components that developed during the folding process remained unchanged even after one hour annealing at 845℃.The implication of these findings could have a bearing on the formation of sigma phase during welding of SDSS that may have residual stresses introduced during final processing. 展开更多
关键词 EBSD super duplex stainless steel(SDSS) folded strain gradient phase transformations
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Research on the properties and microstructures of 27Cr-7Ni-4Mo super duplex stainless steel
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作者 PENG Shidan LIU Xiaorong ZHOU Candong 《Baosteel Technical Research》 CAS 2016年第3期35-41,共7页
In this study, metallographic analysis and nanoindentation characterization were used to analyze the properties and microstructures of as-cast nitrogen alloyed 27Cr-7Ni-4Mo super duplex stainless steel (super-DSS). ... In this study, metallographic analysis and nanoindentation characterization were used to analyze the properties and microstructures of as-cast nitrogen alloyed 27Cr-7Ni-4Mo super duplex stainless steel (super-DSS). The as-cast microstructure of the super-DSS was characterized by its ferrite and island-like austenite phases. During the solution annealing process, the austenite volume percentage of the steel decreased gradually with increased annealing temperature. As a main element, the chromium content in the ferritic and austenitic phases elevated slightly at first then decreased with increased annealing temperature. The chromium partition coefficient in the steel varied by around 1.0. The contents of nickel, another main alloy element, also increased in the ferritic and austenitic phases with increased annealing temperature, as did the nickel partition coefficient in the steel, which tended to be close to 1.0. The nanoindentation characterization results indicate that the hardness of the austenite phase is slightly greater than that of the ferrite phase. They were similar to each other within a certain temperature range from 1 050 ℃ to 1 100℃. This temperature range was consistent with the temperature range in which the content ratio of the two phases was close to 1: 1. We found the Young' s modulus of the ferrite phase to be greater than that of the austenite phase. With increased annealing temperature, the Young' s modulus of the ferrite phase decreased while that of the austenite phase remained almost unchanged. 展开更多
关键词 super duplex stainless steel nanoindentation characterization metallographic analysis
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Mechanical Properties for Circumferential Welding Applied to UNS S32750 Super Duplex Stainless Steel Using the GMAW Process with CMT Control
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作者 Bruno Pizol Invernizzi Leandro Gusmã +1 位作者 o Silva Maurício David Martins das Neves 《Engineering(科研)》 2019年第9期576-591,共16页
Super Duplex Stainless Steel has been studied for oil and gas industry applications since the 90 s, but their welding always is a technical issue. Then different methods were developed to meet all requirements present... Super Duplex Stainless Steel has been studied for oil and gas industry applications since the 90 s, but their welding always is a technical issue. Then different methods were developed to meet all requirements presents in ASME standards, where most of are applied for lower production, when compared to other materials such carbon steel. This study accomplished circumferential welding experiments in base material (BM)—UNS S32750 Super Duplex Stainless Steel with a thickness of 3.68 mm. Welding was performed using GMAW (Gas Metal Arc Welding) process with CMT (Cold Metal Transfer) control and the aid of a Motoman robot and a turntable device, which were used to ensure the accurate positioning of the torch and that the welding has been fully implemented in the 1 G position, respectively. This process achieves higher production in relation other welding process usually applied for this material class. The joints which presented adequate dimensional results were, then, subjected to tensile and hardness Vickers tests. To avoid the lack of penetration problem, the welding was performed using the CMT process combined with pulsed arc, thus, resulting in full penetration and improved surface finish. The results have shown that the CMT procedure, combined with pulsed arc, led to an adequate superficial finishing, mechanical properties and corrosion resistance in accomplishment with the requirements presented in applicable standards. 展开更多
关键词 GMAW-Welding CMT Automated WELDING STAINLESS steel super duplex Mechanical Properties Vickershardness
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水下超双部件氢致开裂数值评估与实验
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作者 曹永 姜瑛 +1 位作者 徐祥娟 钱思成 《海洋工程装备与技术》 2024年第1期49-53,共5页
水下生产系统在我国海洋石油开发中应用越来越广泛。通常使用复合电液的方式对水下设备进行远程控制,控制管线采用超级双相不锈钢材质。但该材质在水下阴极保护系统下存在氢致开裂的风险。本文依据国外规范,建立了水下超双材料的氢致开... 水下生产系统在我国海洋石油开发中应用越来越广泛。通常使用复合电液的方式对水下设备进行远程控制,控制管线采用超级双相不锈钢材质。但该材质在水下阴极保护系统下存在氢致开裂的风险。本文依据国外规范,建立了水下超双材料的氢致开裂评估流程,详细阐述了水下超双部件氢致开裂的有限元评估过程,给出了建模方法、结果提取和处理的方法,以及结果校核的标准;结合实际工程项目实例计算分析,将分析结果线性化处理;控制部件的应力应变水平,可以有效避免部件在水下同阴极保护系统作用下的氢致开裂风险;研究和阐述了双相钢的适用环境参数条件和氢致开裂试验评估。 展开更多
关键词 氢致开裂 超双部件 HISC
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海洋平台换热器橇海水系统超级双相钢耐蚀分析
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作者 刘羽 吴旭维 +2 位作者 于本水 郭海 张柏青 《科技和产业》 2024年第9期266-270,共5页
集合国外行业标准和国内使用经验,对海洋石油平台管壳式换热器橇内海水系统超级双相钢管线频繁泄漏进行研究,探析冶金状态、海水温度、焊接特性、材料污染为超级双相钢在海水系统中腐蚀泄漏的主要原因。从系统工艺、冶金、焊接、运行等... 集合国外行业标准和国内使用经验,对海洋石油平台管壳式换热器橇内海水系统超级双相钢管线频繁泄漏进行研究,探析冶金状态、海水温度、焊接特性、材料污染为超级双相钢在海水系统中腐蚀泄漏的主要原因。从系统工艺、冶金、焊接、运行等方面分别提出减少泄漏风险的方法,并在后续设备改造中得到良好的应用。 展开更多
关键词 管壳式换热器 海水系统 超级双相钢 点蚀
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超级双相不锈钢S32750深熔TIG焊接工艺研究
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作者 陈晶 徐成 +3 位作者 金彦枫 王颖博 魏君睿 魏业奇 《石油化工设备》 CAS 2024年第4期65-69,共5页
为提高薄壁、大直径压力容器产品的焊接效率,研究了5 mm厚超级双相不锈钢S32750的深熔非熔化极惰性气体保护电弧焊(TIG)焊接工艺。通过焊接试验和工艺评定确定了S32750的焊接工艺参数,对焊接接头进行了力学性能试验和腐蚀试验。试验结... 为提高薄壁、大直径压力容器产品的焊接效率,研究了5 mm厚超级双相不锈钢S32750的深熔非熔化极惰性气体保护电弧焊(TIG)焊接工艺。通过焊接试验和工艺评定确定了S32750的焊接工艺参数,对焊接接头进行了力学性能试验和腐蚀试验。试验结果表明,对厚度5 mm的S32750不开坡口进行焊接,深熔TIG焊接可实现一次熔透,并获得质量可靠的焊接接头,可大幅提高薄壁、大直径超级双相不锈钢压力容器的生产效率。 展开更多
关键词 超级双相不锈钢 非熔化极惰性气体保护电弧焊 薄壁 焊接工艺 性能
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固溶处理对电弧增材制造超级双相不锈钢微观组织及摩擦磨损性能的影响
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作者 李科 林义民 +4 位作者 王飞 易江龙 邹晓东 潘琳琳 牛犇 《摩擦学学报(中英文)》 EI CAS CSCD 北大核心 2024年第7期893-902,共10页
采用直径为1.2 mm的ER2594-超级双相不锈钢焊丝进行了多层单道墙体电弧增材试验,对增材件分别进行1050、1150和1250℃的固溶处理,并在固溶处理后对各试样进行了往复式摩擦磨损试验.试验结果表明:随着固溶温度的升高,双相比中的铁素体含... 采用直径为1.2 mm的ER2594-超级双相不锈钢焊丝进行了多层单道墙体电弧增材试验,对增材件分别进行1050、1150和1250℃的固溶处理,并在固溶处理后对各试样进行了往复式摩擦磨损试验.试验结果表明:随着固溶温度的升高,双相比中的铁素体含量增加,其显微硬度也相应提高.此外,固溶处理可降低增材件的内应力,最终基于较高硬度和较低内应力的协同作用,在1250℃时获得耐磨性能较优的试样,有效地提升了热处理后增材件试样的摩擦磨损性能. 展开更多
关键词 超级双相不锈钢 增材制造 固溶处理 内应力 摩擦磨损
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超级双相不锈钢S32750压力容器封头成形工艺
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作者 卜繁煜 刘宇飞 +2 位作者 刘玉婷 黄思琪 刘成洋 《电焊机》 2024年第3期118-127,共10页
系统探讨了S32750超级双相不锈钢压力容器封头的成形工艺。通过对S32750超级双相不锈钢的化学成分、金相组织、力学性能和耐腐蚀性能的分析,确定了该材料具有高强度、良好的焊接性能和耐腐蚀性能。基于材料特性和相关标准规定,制定封头... 系统探讨了S32750超级双相不锈钢压力容器封头的成形工艺。通过对S32750超级双相不锈钢的化学成分、金相组织、力学性能和耐腐蚀性能的分析,确定了该材料具有高强度、良好的焊接性能和耐腐蚀性能。基于材料特性和相关标准规定,制定封头的成形工艺,采用两步法成形:冷冲压预成形和热冲压终成形。成形过程的关键控制点包括原材料验收、划线下料、边缘准备、冷热冲压成形、恢复性能热处理等。成形后,对封头的形状尺寸、厚度、硬度及铁素体含量等进行检测,验证了成形工艺的有效性。在封头母材上进行拉伸、冲击、晶间腐蚀等试验,结果表明封头的力学性能和耐腐蚀性能得到了良好恢复。 展开更多
关键词 超级双相不锈钢 压力容器封头 热成形 恢复性能热处理 力学性能 耐腐蚀性能
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铸造超级双相不锈钢5A焊接性能研究
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作者 栾天红 宁尚锋 +3 位作者 张磊磊 任振伟 寇成 韩亚斌 《金属加工(热加工)》 2024年第11期28-35,共8页
结合母材与焊接材料化学成分、焊接参数控制,通过对Cr25系列铸造超级双相不锈钢5A(UNS J93404)焊接接头的微观组织、相比例、力学性能及腐蚀性能等进行研究。结果表明:想控制母材相比例,获得优异的焊接接头,不仅需要控制母材的Si含量、... 结合母材与焊接材料化学成分、焊接参数控制,通过对Cr25系列铸造超级双相不锈钢5A(UNS J93404)焊接接头的微观组织、相比例、力学性能及腐蚀性能等进行研究。结果表明:想控制母材相比例,获得优异的焊接接头,不仅需要控制母材的Si含量、选择匹配的焊接材料,而且还要严格控制焊接过程的热输入。 展开更多
关键词 铸造超级双相不锈钢5A 焊接接头 热输入
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超级双相不锈钢UNS S32760焊接工艺研究及应用
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作者 王雪骄 晏君文 《中国重型装备》 2024年第3期47-51,共5页
UNS S32760超级双相不锈钢作为一种优良的高合金化材料,以其出色的耐腐蚀性和高强度特性,在石油、化工和船舶等强腐蚀环境中得到了广泛应用。然而,超级双相不锈钢在工程实践应用中存在成型和焊接等一些关键制造问题,需要重点研究和解决... UNS S32760超级双相不锈钢作为一种优良的高合金化材料,以其出色的耐腐蚀性和高强度特性,在石油、化工和船舶等强腐蚀环境中得到了广泛应用。然而,超级双相不锈钢在工程实践应用中存在成型和焊接等一些关键制造问题,需要重点研究和解决,以保证产品尺寸、材料和焊接接头性能满足制造要求。本文旨在通过对UNS S32760超级双相不锈钢的焊接工艺研究及应用案例,为该材料的工程应用提供数据支持和实践指导。 展开更多
关键词 超级双相不锈钢 UNS S32760 焊接 成型 应用
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脱硫洗涤塔双相不锈钢焊接特性研究
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作者 胡兴雷 李晓波 +1 位作者 李珂 申博涵 《绿色科技》 2024年第18期209-213,共5页
针对脱硫洗涤塔的超级双相不锈钢的焊接工艺进行了深入研究,通过实验研究焊接热输入及焊接速率等对焊缝金属的宏观和微观构造、力学性能以及抗腐蚀能力有关的研究,优选最佳的合金材料。试验表明:当采用钨极氩弧焊的焊接方式,并且保证热... 针对脱硫洗涤塔的超级双相不锈钢的焊接工艺进行了深入研究,通过实验研究焊接热输入及焊接速率等对焊缝金属的宏观和微观构造、力学性能以及抗腐蚀能力有关的研究,优选最佳的合金材料。试验表明:当采用钨极氩弧焊的焊接方式,并且保证热输入在0.3~1.5 kJ/mm,层间温度控制在150℃以内,焊接所采用的材料为实心TIG焊丝25.10.4 L以及焊条25.10.4 LR,保护气体选用由98%的氩粒子密度和2%的氮粒子密度构成的混合气体时,焊接接头的表观状况优秀,无明显的缺点。焊缝的微观结构表明母材是轧制形态,而奥氏体以条纹的形式规则分布在铁素体基底上。焊缝的硬度大约是300,特别是热影响区域(HAZ)的硬度最高可以达到330。焊缝的冲击韧度在110~140 J/cm2,表面没有形成点蚀蚀坑,而且其腐蚀速度小于10 mdd。在含有氯和硫酸根离子的40℃环境中,焊接接头依旧表现出一定的抗点蚀性能。 展开更多
关键词 脱硫洗涤塔 超级双相不锈钢 焊接 热力学性能 点蚀
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超级双向不锈钢管道焊接质量控制
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作者 王泽涛 《全面腐蚀控制》 2024年第11期170-172,共3页
本文针对超级双相不锈钢管道焊接质量控制的关键问题进行了系统分析。通过分析双相不锈钢管道焊接过程中的影响因素,提出了一套完整的质量控制体系和措施。研究表明,采用合理的焊接工艺参数、严格的无损检测手段以及过程监控,能够有效... 本文针对超级双相不锈钢管道焊接质量控制的关键问题进行了系统分析。通过分析双相不锈钢管道焊接过程中的影响因素,提出了一套完整的质量控制体系和措施。研究表明,采用合理的焊接工艺参数、严格的无损检测手段以及过程监控,能够有效提高超级双相不锈钢管道的焊接质量,确保管道系统安全可靠运行。本文的研究成果对指导实际工程具有重要意义。 展开更多
关键词 超级双相不锈钢管道 焊接 质量控制 无损检测 过程监控
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UNS S32750超级双相不锈钢焊接工艺研究
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作者 葛华 王杰 《金属加工(热加工)》 2024年第6期96-100,共5页
为了保证UNS S32750超级双相不锈钢无缝钢管焊接质量,充分考虑管材焊接特点,搭配使用合理的焊接工艺,同时开展工艺评定。试验结果显示:通过选用合理的焊接材料、合适的焊接参数,UNS S32750超级双相不锈钢无缝钢管试样的各项力学性能、... 为了保证UNS S32750超级双相不锈钢无缝钢管焊接质量,充分考虑管材焊接特点,搭配使用合理的焊接工艺,同时开展工艺评定。试验结果显示:通过选用合理的焊接材料、合适的焊接参数,UNS S32750超级双相不锈钢无缝钢管试样的各项力学性能、抗腐蚀性能、铁素体含量均与评估标准相匹配,在试验焊接工艺上符合规范要求,能满足苛刻标准、现场施工情况等多方面的需要。 展开更多
关键词 S32750超级双相不锈钢 无缝钢 焊接工艺
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超级双相不锈钢内部化学清洗关键施工工艺研究
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作者 吴黎明 《工程技术研究》 2024年第18期109-111,共3页
阿联酋乌姆盖万150MIGD海水淡化项目是全球第二大膜法海水淡化项目,拥有数量巨大的反渗透膜壳(ROPV)。反渗透膜壳的渗透侧与盐水侧均离不开超级双相不锈钢管,长期运营后污垢附着在不锈钢管表面,会影响淡化效率。基于此,文章提出了一种... 阿联酋乌姆盖万150MIGD海水淡化项目是全球第二大膜法海水淡化项目,拥有数量巨大的反渗透膜壳(ROPV)。反渗透膜壳的渗透侧与盐水侧均离不开超级双相不锈钢管,长期运营后污垢附着在不锈钢管表面,会影响淡化效率。基于此,文章提出了一种安全方便、环境友好的化学清洗方案,并创新性地提出了两大关键技术。研究成果可供相关专业研究人员参考。 展开更多
关键词 海水淡化 化学清洗 超级双相不锈钢 反渗透膜壳
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超级双相不锈钢(S32750)管焊接工艺的研究
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作者 孙公震 于彩霞 《中国修船》 2024年第S01期16-19,共4页
文章根据某修理改装项目要求,针对超级双向不锈钢(S32750)的特点,结合其力学性能、化学成分等,进行焊接工艺设计,并通过超级双向不锈钢的焊接试验验证,试验数据表明,该工艺能够获得符合工程规格和要求的高质量焊接接头。
关键词 超级双向不锈钢(S32750)管 焊接工艺 焊接性
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超级双相不锈钢焊接接头组织与冲击性能研究 被引量:1
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作者 苗华军 柳阳 《热加工工艺》 北大核心 2023年第13期15-18,23,共5页
S32750超级双相不锈钢具有优良的耐蚀性能和力学强度,被广泛应用于恶劣的腐蚀环境中。其焊接热输入一般推荐在1.5 kJ/mm以下,但未说明原因。本文对S32750超级双相不锈钢开展不同焊接热输入的焊接试验,观察焊接热影响区的金相组织与金属... S32750超级双相不锈钢具有优良的耐蚀性能和力学强度,被广泛应用于恶劣的腐蚀环境中。其焊接热输入一般推荐在1.5 kJ/mm以下,但未说明原因。本文对S32750超级双相不锈钢开展不同焊接热输入的焊接试验,观察焊接热影响区的金相组织与金属间析出相,分析冲击断口,讨论焊接热影响区冲击性能与组织的关系。结果表明,S32750焊接热影响区的冲击性能在焊接热输入大于1.5 kJ/mm后显著下降,但在焊接热影响区组织中并未发现金属间析出相,其冲击韧性的下降是由于焊接热影响区中铁素体晶粒的粗化及焊接热影响区的宽化所致。 展开更多
关键词 超级双相不锈钢 焊接 热影响区 冲击性能
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