Effect of Microalloying,Principally With Vanadium,Processing Conditions and Microstructure on Resist

来源 :Journal of Iron and Steel Research(International) | 被引量 : 0次 | 上传用户:selene1988
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
One driver for steel development over recent decades has been the engineering requirements of improved strength and toughness,combined with weldability,for the safe and cost effective recovery and transmission of oil and gas.This has been achieved through refinement of grain size by microalloy precipitation and thermomechanical processing.However,little attention has been paid to these significant changes in steel chemistry and processing on corrosion resistance,despite the dominance of economic carbon steel for construction in the oil and gas industries.The more common forms of corrosion are associated with the presence of H 2 S or CO 2.CO 2 in aqueous solution forms a weak acid sufficient to promote significant localized corrosion in transmission gas/oil pipelines and in well-head applications (’down-hole’).Systematic study has identified the influence of a wide range of alloying elements and different processing conditions on the resistance of low-carbon steels to CO 2 corrosion;strong carbide-forming microalloying elements such as Ti,Nb and V,along with Cr additions,and different levels of Mn,Si,Cu,Mo and Ni,have been explored,along with treatments simulating different processing conditions.The present study also emphasizes the role of V and Ti microalloying in improving the resistance of Cr-containing carbon steel to corrosion in carbonic acid and how this is influenced by microstructure and the metallurgical condition of the microalloying addition,in particular,the extent of precipitation.It is noted that some commercially available corrosion inhibitors contain V as a vanadate compound to interfere with the corrosion process and so it is suggested that V microalloying may also be beneficial if present in an appropriate form in the steel.That Ti also seems to play a role in corrosion in the steels studied is judged to be compatible with the thermodynamics of transition metal anions in the Ti-V-Cr group. One driver for steel development over recent decades has been the engineering requirements of improved strength and toughness, combined with weldability, for the safe and cost effective recovery and transmission of oil and gas. This has been achieved through refinement of grain size by microalloy precipitation and little attention has been paid to these significant changes in steel chemistry and processing on corrosion resistance, despite the dominance of economic carbon steel for construction in the oil and gas industries. more common forms of corrosion are associated with the presence of H 2 S or CO 2.CO 2 in aqueous solution forms a weak acid sufficient to promote significant localized corrosion in transmission gas / oil pipelines and in well-head applications (’down-hole’). Systematic study has identified the influence of a wide range of alloying elements and different processing conditions on the resistance of low-carbon steels to CO 2 corrosion; str ong carbide-forming microalloying elements such as Ti, Nb and V, along with Cr additions, and different levels of Mn, Si, Cu, Mo and Ni, have been explored, along with treatments simulating different processing conditions. the present study also emphasizes the role of V and Ti microalloying in improving the resistance of Cr-containing carbon steel to corrosion in carbonic acid and how this is is affected by microstructure and the metallurgical condition of the microalloying addition, in particular, the extent of precipitation. some commercially available corrosion inhibitors contain V as a vanadate compound to interfere with the corrosion process and so it is suggested that V microalloying may also be beneficial if present in an appropriate form in the steel. If Ti also seems to play a role in corrosion in the steels studied is judged to be compatible with the thermodynamics of transition metal anions in the Ti-V-Cr group.
其他文献
为了明确真空微波干燥过程中脱水果蔬果胶性质变化对质构的影响,实验以南瓜为原料,采用不同微波强度进行处理,分析脱水南瓜硬脆度和微观结构,以及果胶含量、酯化度和单糖组成
文中采用实际运行中的电缆,制作了3种典型模型缺陷,利用脉冲电流法研究不同外施电压下3种典型缺陷的局部放电特性,根据不同外施电压下典型缺陷的局部放电相位分布图谱,提取3
以45个不同品种紫苏叶为原料,通过超声辅助水提法制备紫苏迷迭香酸,选取迷迭香酸含量高的三个品种利用XDA-8型大孔树脂和中压制备色谱分离纯化,采用体外抗氧化的方法研究紫苏
神经性耳鸣为耳科常见病,治疗方法颇多,但效果均欠佳.自1990年10月~1994年10月我们采用利多卡因配合中药治疗该病37例,取得满意疗效,报道如下:1 临床资料本组病例均为主观性耳
以蜡质玉米淀粉为原料,采用脉冲电场(PEF)协同酶解制备多孔淀粉,探究其对多孔淀粉制备效率及吸油率的影响.结果表明:通过PEF改性后,淀粉水解率达到24.28%时所需的酶解时间缩短
本文为“中西医结合治疗重症糖尿病足坏疽临床研究”课题的临床报告。本文首次提出了糖尿病足坏疽病情程度分度标准及辩证分型,在全身治疗与局部治疗上均有改进。在全身治疗上
本文以茉莉花为原料,通过比对水、乙醇和8种低共熔溶剂在内的10种溶剂,以及超声波和微波提取,旨在探索一种绿色、高效的茉莉花黄酮提取技术.通过单因素试验考察低共熔溶剂的
方以智是中国明末清初的著名学者,他的多方面贡献获得学术界的高度评价。但他在中西医汇通方面的倡导作用素来知之者甚少。本文的研究表明,在《物理小识》、《通雅》等著作中,方
本研究分离出完整芸豆子叶细胞作为全食品的模型,并以芸豆淀粉为对照,研究了常压蒸煮、高压蒸煮、高温焙烤和油炸这4种热处理方式对细胞的颗粒形貌,结晶结构及体外消化动力学
2010年年初,我采访了直向建筑的董功,他对建筑的执着和对设计细节的追求令我记忆尤深。这种热情体现在作品上是理性和沉稳,而不是浮躁和张扬。当时天津小学项目正在进行中,一