English العربية کوردی

ئەز   Haval Bashar Mohammed Ali

Lecturer

Specialties

Metallurgy and Materials Science

haval.balatay@uoz.edu.krd
07504284746
Iraq , Zakho
0
Awards
9
Published Journal Articles
2
Thesis
0
Training Course

0
Book Chapter
8
Conference
0
Presentation
0
Workshop

Education

PhD in Metallurgy and Materials

University of Birmingham لە University of Birmingham

2016

MSc in Materials Science

University of Mosul لە University of Mosul

2006

BSc in Physics

University of Duhok لە University of Duhok

2002

Academic Title

Lecturer

2016-12-09

Assistant lecturer

2006-06-20

Published Journal Articles

ARO-The Scientific Journal of Koya University (Issue : 2) (Volume : 13)
Influence of Microstructure and Droplet Volume on Atmospheric Pitting Corrosion of 304L Austenitic Stainless Steel

Abstract—This research investigates the atmospheric pittingcorrosion behavior of 304L austenitic stainless steel subjected toMgCl2droplets, emphasizing... See more

Abstract—This research investigates the atmospheric pittingcorrosion behavior of 304L austenitic stainless steel subjected toMgCl2droplets, emphasizing the effects of microstructure anddroplet volume. X-ray diffraction and scanning electron microscopy(SEM) show that both austenite and ferrite are present, and it isobserved that the ferrite bands dissolved more in the direction thesteel is rolled. SEM-energy-dispersive X-ray spectroscopy analysisidentified mixed oxides and MnS inclusions. The shape of the pitschanged depending on the direction of the plate: Layered pits mostlyoccurred on the longitudinal–transverse side, while striped pitsare seen on the longitudinal–short transverse and short transversesides, indicating variations in the material’s structure. An increasein droplet volume from 0.5µL to 2.5µL led to a linear rise in totalpit area and a measurable increase in pit depth. These findingsshow that the direction of the microstructure and the size of thedroplets significantly affect how likely pitting is to occur, which isimportant for designing and using stainless steels in environmentswith a lot of chlorid

 2025-09
CORROSION
Atmospheric Pitting Corrosion of TIG Welded Type 316L Austenitic Stainless Steel Under MgCl2 droplets

A pitting corrosion study of Tungsten Inert Gas (TIG) welded Type 316L austenitic stainless steels... See more

A pitting corrosion study of Tungsten Inert Gas (TIG) welded Type 316L austenitic stainless steels (SS) has been addressed. The findings were associated with the microstructural features of the alloy. The testing microstructure illustrated that samples comprise mainly ferrite and austenite microstructure. The vibrating sample magnetometer (VSM) revealed the existence of a higher ratio of ferrite in the weld metal (WM) than in the base metal (BM). The probability of pitting corrosion between WM and BM was the same. An interdendritic pit morphology formed at WM, while a layered morphology pit developed at BM. The applied solution annealing treatment reduced the ferrite content for both the WM and BM. The solution annealing treatment also changed the morphology of the atmospheric pits to crystallographic attack with Cr-rich particles inside square features at WM and faceted crystallographic attack with no trace of parallel layers at the BM. The microhardness measurements varied quite significantly across different regions of the material. The highest values, ranging from 190 to 220 HV, were found in the heat affected zone (HAZ), while the BM exhibited the lowest hardness. In the WM, the hardness values were between 170 HV and 190 HV. Notably, the hardness levels were considerably influenced by the solution annealing treatment, which resulted in a more pronounced decrease, particularly in both the HAZ and weld metal.

 2025-04
Science Journal of University of Zakho (Issue : 2) (Volume : 11)
EFFECT OF MICROSTRUCTURE AND RELATIVE HUMIDITY ON ATMOSPHERIC PITTING CORROSION OF DUPLEX STAINLESS STEEL BENEATH MGCL2 DROPS

One of the main issues for intermediate-level nuclear waste (ILW) is atmospheric corrosion in stainless... See more

One of the main issues for intermediate-level nuclear waste (ILW) is atmospheric corrosion in stainless steel. The impact of microstructure on the pit shapes on three orientations of the duplex stainless steel DSS 2205 plate and the relative humidity impact on the atmospheric corrosion pits of DSS beneath MgCl2 drops is determined through the use of four characterization tools: X-ray diffraction (XRD), Energy dispersive X-ray (EDX) analyses, Scanning electron microscopy (SEM), and optical microscopy. The pits on the top surface (LT) appears layered like an attack and mostly hemispherical, while the long transverse (LS) and short transverse (ST) planes reveal elongated strings. The map scan of EDX indicates mixed oxide inclusions and MnS inclusion existing in the steel alloy and the XRD analyses present the existence of two-phase both austenite γ and ferrite α peaks. The pit shape and area were influenced by relative humidity (RH) change. At RH 35% the trend of pits in 1-week exposure revealed a larger area of pit mouth than in RH 45%. For the same exposure time and in both RHs, the area seemed to be greater at the droplet’s center than in the edge of the droplet.

 2023-05
Journal of The Electrochemical Society (Issue : 11) (Volume : 166)
Effect of Mixed Salts on Atmospheric Corrosion of 304 Stainless Steel

Atmospheric corrosion of stainless steel can take place when airborne salt particles deposit on the... See more

Atmospheric corrosion of stainless steel can take place when airborne salt particles deposit on the metal surface, forming droplets when the relative humidity (RH) reaches a critical value: the deliquescence relative humidity of the salt. Most work to date has focused on single salts such as MgCl2 or NaCl. In the present work, the effect of mixed salts is investigated at 45% RH, above the deliquescence relative humidity of MgCl2 but below that of NaCl. Dish-shaped pits were found in pure MgCl2 solutions and mixed solutions. Crevice corrosion takes place under NaCl crystals. This is shown both with ex situ measurements and in situ time-dependent measurements using X-ray microtomography, where pit growth was also monitored.

 2019-01
Corrosion Science (Volume : 150)
The effect of relative humidity change on atmospheric pitting corrosion of stainless steel 304L

Relative humidity fluctuations tend to influence atmospheric corrosion under natural exposure conditions. In this study,... See more

Relative humidity fluctuations tend to influence atmospheric corrosion under natural exposure conditions. In this study, the effect of change in relative humidity on pitting corrosion of stainless steel under MgCl2 droplets is investigated with in situ X-ray microtomography and optical microscopy. Relative humidity fluctuations (between 33% RH and 85% RH or between 33% RH and 12% RH) tend to lead to nucleation of many small pits whereas continuous exposure at constant 33% RH leads to growth of a single pit. This indicates that natural fluctuations in relative humidity might be beneficial for preventing the growth of a large penetrating pit.

 2019-01
CORROSION (Issue : 12) (Volume : 74)
Effect of Microstructure on the Morphology of Atmospheric Corrosion Pits in 304L Stainless Steel

Atmospheric corrosion of stainless steel is of concern for intermediate level nuclear waste (ILW) containers.... See more

Atmospheric corrosion of stainless steel is of concern for intermediate level nuclear waste (ILW) containers. The effect of microstructure on the morphology of atmospheric corrosion pits in Type 304L stainless steel plate was investigated on three orthogonal planes under MgCl2 droplets. Pits on the top surface of the plate show ring-like structures, whereas pits on the plate sides show a striped morphology. Synchrotron x-ray tomography of Type 304L stainless steel pins shows the presence of similar striped attack. Scanning electron microscopy on plate samples revealed the presence of parallel bands along the rolling direction. Energy dispersive spectroscopy maps and line scans across these bands indicated a local increase in the Cr/Ni ratio consistent with a ferrite phase, likely residual delta-ferrite formed during solidification. Vibrating sample magnetometer (VSM) detected the presence of ferrite on the base alloy. X-ray diffraction and electron backscatter diffraction quantified the volume fractions of ferrite and austenite phases. Ferrite phases affect the morphology of pits and promote pit propagation along the rolling direction.

 2018-09
CORROSION (Issue : 5) (Volume : 74)
The Effect of Deposition Conditions on Atmospheric Pitting Corrosion Location Under Evans Droplets on Type 304L Stainless Steel

Pit location during atmospheric corrosion of Type 304L stainless steel under MgCl2 droplets depends on... See more

Pit location during atmospheric corrosion of Type 304L stainless steel under MgCl2 droplets depends on initial droplet concentration. Pits formed predominantly in the center of the droplet for concentrations ≥4 M, closer to the perimeter for 1.5 M to 3 M, and were randomly distributed for concentrations ≤1 M. Pits initiated only after the droplets had evaporated to a critical concentration >3 M, where droplets deposited with lower initial concentrations were thinner. The results can be explained in terms of “differential aeration” and IR drop effects, showing that corrosion in “splash zones” may differ from that under aerosol salt deposit layers that deliquesce forming initially saturated solutions.

 2018-05
Faraday Discussions (Volume : 180)
Atmospheric pitting corrosion of 304L stainless steel: the role of highly concentrated chloride solutions

The morphology of atmospheric pitting corrosion in 304L stainless steel plate was analysed using MgCl2... See more

The morphology of atmospheric pitting corrosion in 304L stainless steel plate was analysed using MgCl2 droplets in relation to changes in relative humidity (RH) and chloride deposition density (CDD). It was found that highly reproducible morphologies occur that are distinct at different RH. Pitting at higher concentrations, i.e. lower RH, resulted in satellite pits forming around the perimeter of wide shallow dish regions. At higher RH, these satellite pits did not form and instead spiral attack into the shallow region was observed. Increasing CDD at saturation resulted in a very broad-mouthed pitting attack within the shallow dish region. Large data sets were used to find trends in pit size and morphology in what is essentially a heterogeneous alloy. Electrochemical experiments on 304 stainless steel wires in highly saturated solutions showed that the passive current density increased significantly above 3 M MgCl2 and the breakdown pitting potential dropped as the concentration increased. It is proposed that the shallow dish regions grow via enhanced dissolution of the passive film, whereas satellite pits and a spiral attack take place with active dissolution of bare metal surfaces.

 2015-01
Corrosion Engineering, Science and Technology (Issue : 6) (Volume : 49)
Mechanistic studies of atmospheric pitting corrosion of stainless steel for ILW containers

Atmospheric pitting corrosion of stainless steel was examined with synchrotron X-ray microtomography, laboratory based tests... See more

Atmospheric pitting corrosion of stainless steel was examined with synchrotron X-ray microtomography, laboratory based tests and electrochemical measurements in order to provide a mechanistic basis for the development of corrosion prediction models. It was found that the morphology of corrosion pits was affected by the presence of residual ferrite, and some pits showed dense covers that may affect pit stability. Fluctuations in relative humidity may lead to partial or complete repassivation of pits, sometimes leading to the formation of new pits. Electrochemical measurements in artificial pits containing concentrated salt solutions show a strong dependence of the diffusion limited current density on chloride concentration.

 2014-09

Thesis

2016
Atmospheric Pitting Corrosion of Stainless Steel

A thesis submitted to the University of Birmingham for the degree of DOCTOR OF PHILOSOPHY

 2025
2006-05-01
Study of double stage Aluminide coating for stainless steel (AISI 316L) by pack cementation method

A thesis submitted to the University of Mosul for MSc degree

 2006

Conference

The Iraqi-German Summer School on Nanophotonic
 2015-09
The Iraqi-German Summer School on Nanophotonic in Delmenhorst, Germany. From 24-25th September 2015.

presentation

Eurocorr2014 Congress
 2014-09
Eurocorr2014 Congress in Pisa-Italy. From 08 – 12/09/2014. (presentation)

Presentation

55th CSS Conference
 2014-09
55th CSS in Manchester, 29 –30/09/2014. (presentation)

presentation

Gordon Research Conference (GRC) and Gordon Research Seminar (GRS)
 2014-07
Gordon Research Conference (GRC) and Gordon Research Seminar (GRS) in New London, NH, USA. From 12-18 July 2014

Presentation and poster

Eurocorr2013 Congress
 2013-09
Eurocorr2013 Congress in Estoril-Portugal. From 1 – 5/09/2013. Poster presentation.

Poster presentation

Midlands Electrochemistry Group (MEG) meeting
 2013-04
Midlands Electrochemistry Group (MEG) meeting 2013, University of Nottingham, UK.

Attending

CORROSION2013 Conference
 2013-03
CORROSION2013 Conference in Orlando, Florida, USA. From 17 – 21/03/2013.

Poster presentation

Midlands Electrochemistry Group (MEG) meeting 2012
 2012-06
Midlands Electrochemistry Group (MEG) meeting 2012, University of Birmingham, UK.

Attending