• Title/Summary/Keyword: Galvanizing Bath

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Effects of Antimony and Lead in Galvanizing Bath on Spangle Formation in Galvanized Steel Sheet Coatings (용융아연도금강판의 스팡글 형성에 미치는 도금욕 중 안티몬 및 납의 영향)

  • 김상헌;김형민;정원섭;전선호
    • Journal of Surface Science and Engineering
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    • v.33 no.5
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    • pp.387-397
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    • 2000
  • Antimony in the galvanizing bath had greater effect on the growth of grains in the solidification of molten coating layer and on the decrease of its surface roughness than lead. Particularly 0.01 wt % antimony in the galvanizing bath showed much stronger effect than expected considering its low surface tension value. These effects were seemingly originated from the development of preferred orientation of (0002) plane parallel to steel surface. Antimony was found to be widely distributed in form of orderly arrangement throughout the coating layer unlike lead from the results of surface analyses on coating layers as received and on those as etched in chromating solution. In addition, supercooling in the 0.07 % antimony and the 0.2 % lead galvanizing bath was also measured to be in the range of$ 2~4^{\circ}C$ and $9~11^{\circ}C$ respectively, and it indicates that antimony forms fine dendrite expanded rapidly on the steel surface.

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Use of High Zinc Bath Entry Strip Temperature to Solve Coating Problems

  • Sippola, Pertti;Smith, David
    • Corrosion Science and Technology
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    • v.9 no.5
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    • pp.175-186
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    • 2010
  • The auto industry is demanding more ductile high-strength steel grades to build lighter and stronger car bodies. The hot-dip galvanizing problems of these new steel grades are creating a demand for an improved method to control zinc wettability. The simplest way to improve zinc wettability on industrial hot-dip galvanizing lines is to increase the strip immersion temperature at zinc bath entry for enhancing the aluminothermic reaction. However, this practice increases the reactivity due to overheating the zinc in the snout which induces the formation of brittle Fe-Zn compounds at the strip/coating interface with the formation of higher amounts of dross in the zinc bath and snout contamination. Thus, this simple practice can only be utilized for short production periods of one to two hours without deteriorating coating quality. This problem has been solved by employing a technique that allows the use of a higher and attuned strip immersion temperature at zinc bath entry while still maintaining a constantly low zinc bath temperature. This has been proven to provide the solution for both the improved wettability and a significant reduction in the amounts of dross in the zinc bath.

Effect of Bismuth Addition on the Zinc Consumption in Hot-Dip Galvanizing (용융아연도금에서 비스머스 첨가에 의한 아연 수율향상에 관한 연구)

  • Kim, S.K.;Yoo, J.S.
    • Journal of Surface Science and Engineering
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    • v.36 no.1
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    • pp.42-47
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    • 2003
  • Hot-dip galvanizing process is used widely in industry to achieve corrosion resistant coatings. Poor drainage during this process often leads to problems such as icicle formation and bridging In this work, mild steel specimens were hot-dip galvanized. Influence of the addition of bismuth, aluminum and both (bismuth and aluminum) to the zinc bath on the zinc drainage were determined. Bismuth additions improved the drainage significantly. Zinc bath containing 0.1 wt.% Bi and 0.025∼0.05 wt.% Al showed uniformity of coatings. Industrial trials with this bath composition showed reduction in zinc consumption, reduction of ash and dross, and good luster of workpiece.

Behavior of the Surface Precipitation of Manganese Oxides during Hot-dip Galvanizing (용융아연 도금욕에서 망간 산화물의 표면석출 거동)

  • Lee, Ho Jong;Kim, Myung Soo
    • Journal of Surface Science and Engineering
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    • v.48 no.1
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    • pp.27-32
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    • 2015
  • Advanced high strength steels undergo recrystallization annealing in reducing gas atmosphere before galvanizing to improve mechanical properties. The selective oxidations of elements such as Mn, Si, Cr and Al during annealing decrease wettability of liquid zinc, resulting in bare spots and other defects. In this work, Fe-3wt%Mn steel sheet was annealed at $780^{\circ}C$ for 1200 sec. in 5% $H_2-N_2$ atmosphere and then dipped into zinc bath held at $460^{\circ}C$, which contained 0.2wt% dissolved Al. MnO crystallines in the average size of 200 nm were formed on the surface after annealing. It is estimated that MnO has been detached into bath with the formation and growth of inhibition layer with longer immersion time during galvanizing. No evidence of aluminothermic reduction of MnO has been found in this study.

Effects of Ni Addition on the Precipitate Formation and Interfacial Reaction in Hot Dipped Galvanizing Bath (Ni 첨가된 용융아연 도금욕의 석출물과 계면반응)

  • Lee, K. K.;Choi, J.;Cho, K. Z.;Lee, D. J.
    • Journal of Surface Science and Engineering
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    • v.34 no.3
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    • pp.206-214
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    • 2001
  • The purpose of this study is to determine the effects of Ni on precipitate formation in a Ni added galvanizing bath, which has various Ni content from 0.03wt.% to 0.5wt.%. The addition of hi in the Ni containing galvanizing bath resulted in the formation of Al-Ni intermetallic compounds such as $Al_3$$Ni_2$ and $Al_2$Ni, which make up most of the top precipitates. At 0.07wt.%Ni, Al-Ni intermetallic compound formed sensitively with small amount of Al addition. By analysing the reaction thickness of galvanized steel, it was found that Ni addition in a Zn-0.18w1.%Al bath tended to suppress the formation of Fe-Zn intermetallic compounds but the formation of these compounds increased with increasing Ni concentration above 0.1wt.%.

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Minimizing Zinc Consumption In Hot-Dip Galvanizing Lines

  • Bright, Mark;Ellis, Suzanne
    • Corrosion Science and Technology
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    • v.10 no.2
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    • pp.43-46
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    • 2011
  • Zinc consumption in a continuous galvanizing line is one of the highest operating cost items in the facility and minimizing zinc waste is a key economic objective for any operation. One of the primary sources of excessive loss of zinc is through the formation of top dross and skimmings in the coating pot. It has been reported that the top skimmings, manually removed from the bath, typically consist of more than 80% metallic zinc with the remainder being entrained dross particles ($Fe_2Al_5$) along with some oxides. Depending on the drossing practices and bath management, the composition of the removed top skimmings may contain up to 2 wt% aluminum and 1 wt% iron. On-going research efforts have been aimed at in-house recovery of the metallic zinc from the discarded top skimmings prior to selling to zinc recycling brokers. However, attempting to recover the zinc entrapped in the skimmings is difficult due to the complex nature of the intermetallic dross particles and the quality and volume of the recycled zinc is highly susceptible to fluctuations in processing parameters. As such, an efficient method to extract metallic zinc from top skimmings has been optimized through the use of a specialized thermo-mechanical process enabling a continuous galvanizing facility to conserve zinc usage on-site. Also, through this work, it has been identified that filtration of discrete dross particles has been proven effective at maintaining the cleanliness of the zinc. Future efforts may progress towards expanded utilization of filters in continuous galvanizing.

Evaluation on the Corrosion Resistance of Three Types of Galvanizing Steels in 1% H2SO4 Solution

  • Moon, Kyung-Man;Lee, Sung-Yul;Lee, Myeong-Hoon;Jeong, Jae-Hyun;Baek, Tae-Sil
    • Journal of Surface Science and Engineering
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    • v.49 no.3
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    • pp.245-251
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    • 2016
  • Galvanizing method has been extensively used to the numerous constructional steels such as a guard rail of high way, various types of structural steel for ship building and various types of steels for the industrial fields etc.. However, the galvanized structures would be inevitably corroded rapidly with increasing exposed time because an acid rain due to environmental contamination has been much dropped more and more. Therefore, it has been made an effort to improve the corrosion resistance of the galvanizing film through various methods. In this study, comparison evaluation on the corrosion resistance of three types of the samples, that is, the hot dip galvanizing with pure zinc(GI), the hot dip galvanizing of alloy bath with zinc and aluminum(GL) and the pure zinc galvanizing steel immersed again to chromate treatment bath(Chro.)were investigated using electrochemical methods in 1% $H_2SO_4$ solution. The Chro. and GI samples exhibited the highest and lowest corrosion resistance respectively in 1% $H_2SO_4$ solution, however, the GI sample revealed the highest impedance at 0.01 Hz due to its high resistance polarization caused by corrosion products deposited on the surface, while Chro. sample exhibited the lowest impedance at 0.01 Hz because of little corrosion products on the surface. Consequently, it is suggested that the chromate treated steel has a better corrosion resistance in acid environment compared to pure galvanizing(GI) or galvalume(GL) steels.

Effect of Dynamic Flow on the Structure of Inhibition Layer in Hot-dip Galvanizing

  • Jin, Young Sool;Kim, Myung Soo;Kim, Su Young;Paik, Doo Jin
    • Corrosion Science and Technology
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    • v.10 no.1
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    • pp.30-36
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    • 2011
  • The effect of dynamic flow or forced convection were investigated and compared on the formation of inhibition layer, galvanizing and galvannealing reactions through the hot-dip galvanizing simulator with the oscillation of specimen in zinc bath, continuous galvanizing pilot plant with zinc pumping system through the snout and continuous galvanizing operation with Dynamic $Galvanizing^{TR}$ system. The interfacial Al pick-up was not consistent between the results of simulator, pilot plant and line operation, but the morphology of inhibition layer became compact and refined by the forced convection. The growth of Fe-Zn intermetallics at the interface was inhibited by the forced convection, whereas the galvannealing rate would be a little promoted.

Effect of Ni Addition Interfacial Reaction and Corrosion Resistance in Hot Dip Galvanizing (용융안연 도금욕의 Ni첨가가 도금강판의 게면반응 및 내식성에 미치는 영향)

  • 이경구;시희봉;이도재
    • Journal of Surface Science and Engineering
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    • v.31 no.6
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    • pp.379-388
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    • 1998
  • The iron-zinc interfacial reaction and corrosin properties in galvanizing bath containning Ni have been intestigated. The substrate steel plates were galvanized in Zn or Zn-0.018Al baths with various Ni contents. The corrosion resistance of galvanized specimens was also evaluated by $60^{\circ}$bending test for galvannealing speaaimens. The corrosion resistance was improved with Ni addition in pure Zn bath, while deteriorated with Ni addition in Zn-0.18Al bath. The anti-powdering property, on thhe otherhand, was improved with Ni addition in Zn-0.18Al bath, while deteriorated with Ni addition in pure Zn. It was found that the anti-powdering property was improved with increasing $\xi$ phase ratio in reaction layer.

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Computational Analysis of Fluid Flow and Temperature Distribution in a Galvanizing Bath Heated by Channel Inductors (Inductor 에 의해 가열된 용융 아연 도금욕 내의 유동과 온도 분포 계산)

  • Han, Kyung-A;Park, Hwa-Soo;Nam, Sung-Hyun
    • Proceedings of the KSME Conference
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    • 2007.05b
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    • pp.2654-2659
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    • 2007
  • Fluid flow and temperature distribution inside a molten zinc bath were investigated by computational fluid dynamics method. Modeling the channel inductor where alternating current of 60Hz was applied, Lorentz force and generated heat were obtained and later supplemented as source terms to momentum and heat equations. The present work validates CFD technique is effectively adopted when the inductor hardware modification or its configuration is considered for the optimum flows.

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