Effect of Slurry Impact Angle on Erosion Behavior of Cr30AHigh Chromium Cast Iron

HE Jianjun; ZHOU Chengwei; YU Renqiang; LI Wei; REN Yanjie; BAO Jiangyong

doi:10.11973/jxgccl202102004

Materials and Mechanical Engineering > 2021 > 45(2): 20-24. > DOI: 10.11973/jxgccl202102004

HE Jianjun, ZHOU Chengwei, YU Renqiang, LI Wei, REN Yanjie, BAO Jiangyong. Effect of Slurry Impact Angle on Erosion Behavior of Cr30AHigh Chromium Cast Iron[J]. Materials and Mechanical Engineering, 2021, 45(2): 20-24. DOI: 10.11973/jxgccl202102004

Citation:

PDF (3864 KB)

Effect of Slurry Impact Angle on Erosion Behavior of Cr30AHigh Chromium Cast Iron

School of Energy and Power Engineering, Changsha University of Science and Technology, Changsha 410114, China

More Information

Received Date: March 10, 2020
Revised Date: November 11, 2020

Graphical Abstract

Abstract

Abstract

In simulated wet desulfurization slurry flow environment, the effect of impact angle of NaCl solution+quartz sand acid slurry with sample impact surface on the erosion behavior of Cr30A high chromium cast iron was studied. The results show that the mass loss of the cast iron was relatively large under the interaction of corrosion and abrasion after the slurry impacted the cast iron at angles of 60° and 30°. The mass loss of the cast iron was relatively small after the slurry impacted the cast iron vertically, and the main cause of the mass loss was impact abrasion. The mass loss of the cast iron was the smallest after the slurry impacted cast iron parallelly, and the main cause of the mass loss was pitting. When the cast iron was subjected to the paralled impact of the slurry, its erosion mechanism was mainly micro-cutting. When subjected to the 30° angle impact of the slurry, the erosion mechanism was mainly cutting and plowing, and extrusion edges, impact pits and shallow flaky fatigue peeling existed on the cast iron surface. When subjected to the 60° angle impact of the slurry, the erosion mechanism was mainly deep material layer peeling and severe corrosion abrasion. When subjected to the vertical impact of the slurry, the erosion mechanism was mainly the shedding of surface material, accompanied by slight corrosion abrasion.
- Cr30A cast iron,
- impact angle,
- erosion behavior,
- corrosion,
- abrasion

FullText(HTML)

References (17)

References

[1]	赵汶, 陈武. 石灰石-石膏湿法脱硫过程中浆液液滴及细颗粒物迁移转化特性研究[J]. 动力工程学报, 2019, 39(3):242-247. ZHAO W,CHEN W.Study on migration and transformation characteristics of slurry droplets and fine particles in limestone gypsum wet desulfurization[J]. Journal of Chinese Society of Power Engineering,2019, 39, (3):242-247.
[2]	VENCL A,BOBI AC'G I,BOBI AC'G B,et al.Erosive wear properties of ZA-27 alloy-based nanocomposites:Influence of type,amount,and size of nanoparticle reinforcements[J].Friction, 2019,7(4):340-350.
[3]	王光存,李剑峰,贾秀杰,等.离心压缩机叶轮材料FV520B冲蚀规律和机理的研究[J].机械工程学报,2014,50(19):182-190. WANG G Y,LI J F,JIAN X J,et al.Study on the erosion law and mechanism of fv520b material for centrifugal compressor impeller[J]. Journal of Mechanical Engineering, 2014,50(19):182-190.
[4]	金浩哲,易玉微,刘旭,等.液固两相流冲洗油管道的冲蚀磨损特性数值模拟及分析[J].摩擦学学报,2016,36(6):695-702. JIN H Z,YI Y W,LIU X,et al.Numerical simulation and analysis of erosion and wear characteristics of liquid-solid two-phase flow flushing oil pipeline[J]. Tribology, 2016,36(6):695-702.
[5]	刘嘉宇, 刘亚明, 郝雅洁.湿法脱硫塔内脱硫浆液运动特性[J]. 中南大学学报(自然科学版), 2016, 47(1):330-337. LIU J Y,LIU Y M,HAO Y J.Kinetic characteristics of desulfurization slurry in wet desulfurization tower[J]. Journal of Central South University (Natural Science Edition), 2016, 47(1):330-337.
[6]	闫钊,梁杰,贺博.FGD系统中浆液循环泵失效说明及改进[J].机械工程师,2016(8):222-224. LI Z,LIANG J,HE B.Failure description and improvement of slurry circulating pump in FGD system[J]. Mechanical Engineer, 2016, (8):222-224.
[7]	GONG Y,YANG Z G.Corrosion evaluation of one wet desulfurization equipment-Flue gas desulfurization unit[J].Fuel Processing Technology, 2018,181:279-293.
[8]	CHEN F J,YAO C,YANG Z G.Failure analysis on abnormal wall thinning of heat-transfer titanium tubes of condensers in nuclear power plant Part I:Corrosion and wear[J].Engineering Failure Analysis, 2014,37:29-41.
[9]	ZHU Z W,ZHUO Y Q,FAN Y M,et al.Mechanism of mercury vapor release from flue gas desulfurization gypsum[J].Fuel Processing Technology, 2017,156:485-490.
[10]	余仁强,何建军,李微.火电厂循环泵叶轮材料Cr30A在脱硫浆液腐蚀环境中的交互损伤失效行为研究[J].中国腐蚀与防护学报,2019,39(4):353-358. YU R Q,HE J J,LI W.Study on the interaction damage failure behavior of Cr30A in the corrosion environment of desulfurized slurry[J]. Journal of Chinese Society for Corrosion and Protection, 2019,39(04):353-358.
[11]	STACK M M,ABD EL BADIA T M.On the construction of erosion-corrosion maps for WC/Co-Cr-based coatings in aqueous conditions[J].Wear, 2006,261(11/12):1181-1190.
[12]	TIAN H H,ADDIE G R,VISINTAINER R J.Erosion-corrosion performance of high-Cr cast iron alloys in flowing liquid-solid slurries[J].Wear, 2009,267(11):2039-2047.
[13]	CHUNG R J,TANG X,LI D Y,et al.Microstructure refinement of hypereutectic high Cr cast irons using hard carbide-forming elements for improved wear resistance[J].Wear, 2013,301(1/2):695-706.
[14]	王阳阳,贾晨,杨建锋.高铬铸铁的冲蚀磨损性能研究[J].热加工工艺,2019,48(4):64-66. WANG Y Y,JIA C,YANG J F.Erosion Wear Performance of High-Cr White Casting Iron[J].Hot Working Technology,2019,48(4):64-66.
[15]	李秀兰,谢文玲,郭翠霞.高铬铸铁在液-固两相流中的冲蚀磨损行为[J].特种铸造及有色合金,2016,36(10):1027-1030. LI X L,XIE W L,GUO C X.Erosion wear behavior of high chromium cast iron in fluid-solid two-phase flow[J].Special Casting & Nonferrous Alloys,2016,36(10):1027-1030.
[16]	王莹,李萍,张洛平.超高铬铸铁的显微组织和腐蚀磨损性能[J].热加工工艺,2015,44(16):81-82. WANG Y,LI P,ZHANG L P.Microstructure and corrosion wear properties of ultrahigh chromium cast iron[J]. Hot Working Technology, 2015,44(16):81-82.
[17]	LI Y C,LI P,WANG K,et al.Microstructure and mechanical properties of a Mo alloyed high chromium cast iron after different heat treatments[J].Vacuum, 2018,156:59-67.

Cited By

Get Citation

PDF

XML

Article views PDF downloads

Turn off MathJax

Article Contents

Abstract

References

Effect of Slurry Impact Angle on Erosion Behavior of Cr30AHigh Chromium Cast Iron

Abstract

References

Catalog

Export File

Citation

Format

Content