Influence of Heat Treatment and Variable Magnetic Fields on the Chemical Resistance of Amorphous Alloys Based on Iron

Hertsyk, О. М.; Kovbuz, М. О.; Pereverzeva, T. H.; Borysyuk, A. K.; Boichyshyn, L. M.

doi:10.1007/s11003-014-9742-3

Cited by 6 publications

(2 citation statements)

References 3 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Taken the depositons as an electrode, a steady-state polarization pattern was performed at 33 ± 2˚C, 7 mol/L NaOH solution, as shown in Fig 5 . The patterns show that with the heat treatment temperature increases, the chemical catalytic activity of the coatings increase first and then decrease. It is considered that the amorphous content is relatively high before the crystallization starts, and the content of short-range ordered atomic clusters in the alloy increases [32][33][34][35]. The slack particles also become active centers, and the activity of the deposition is increased.…”

Section: Effect Of Heat Treatment On Electrochemical Properties Of Coatingsmentioning

confidence: 99%

Phase, microstructure and service character of as-deposited and short-time heat-treated Ni-Mo alloys with mixed state

Zhuo

et al. 2021

PLoS ONE

View full text Add to dashboard Cite

Considering the amorphous and nano-crystalline cluster structure and their activity, on the basis of the mixed structure Ni-Mo alloys, the crystallization kinetics of the alloys and the performance of the alloys after heat treatment with different mixed structure were studied. The phase structure and composition were determined by X-ray powder diffraction. The crystallization activation energy of the mixed structure was obtained by differential scanning calorimetry. The electrochemical activity of the mixed structure alloy was determined by electrochemical analysis. The experimental results show that the structural stability of the mixed-structure alloy is better, but the crystallization activation energy is much lower than that of the amorphous alloy. The crystallization process consists of a meta-stable structure transition and a new phase formation. The electrochemical properties of the alloy indicated that the alloy with the mixed structure has higher electrochemical activity, with higher hardness and better corrosion resistance, which results from the large true contact surface and the large number of active centers in this material structure.

show abstract

Section: Effect Of Heat Treatment On Electrochemical Properties Of Coatingsmentioning

confidence: 99%

Phase, microstructure and service character of as-deposited and short-time heat-treated Ni-Mo alloys with mixed state

Zhuo

et al. 2021

PLoS ONE

View full text Add to dashboard Cite

show abstract

“…Суттєва рiзниця мiж усередненим елементним складом вихiдної шихти та поверхнею готового зразка аморфного сплаву пов'язана з рiзною енерґiєю активацiї дифузiї атомiв вiд i до поверхнi в процесi гартування розплаву, а також енерґiєю взаємодiї мiж атомами елементiв. Пiсля витримування у змiнному магнiтному полi простежується деяка змiна елементного складу зразка, що, очевидно, вiдобразиться на його фiзико-хiмiчних характеристиках [13][14][15].…”

Section: -2unclassified

A method of changing physical and chemical characteristics of bulk amorphous Fe-based alloys

Hertsyk¹,

Hula²,

Kovbuz³

et al. 2019

J. Phys. Stud.

View full text Add to dashboard Cite

У статтi дослiджено змiну властивостей об'ємного аморфного металевого сплаву на основi феруму (Fe55Ni8Co6)69-(Mo4Cr2V1)7-Al2-(P9C6B5Si2)22 пiд впливом змiнного магнiтного поля (ЗМП). Пiсля витримування у ЗМП простежується деяка змiна елементного складу зразкiв. Аналiз електрохiмiчних характеристик зразкiв сплаву в умовах циклiчного сканування потенцiалу електрода вказує на вищу тривкiсть дослiджуваного зразка в розчинi хлоридної кислоти. Найнижча корозiйна тривкiсть у водному розчинi NaOH. Модифiкованi змiнним магнiтним полем зразки сплаву (Fe55Ni8Co6)69-(Mo4Cr2V1)7-Al2-(P9C6B5Si2)22 мають пiдвищенну корозiйну тривкiсть у 0.5 М водному розчинi NaCl i HCl. Також пiсля перебування зразка у ЗМП його електроопiр знижується.Ключовi слова: об'ємнi аморфнi сплави, змiнне магнiтне поле, електрохiмiчнi властивостi, аґресивнi середовища, електроопiр.

show abstract

Influence of Alloying on the Corrosion Resistance of Bulk Amorphous Alloys Based on Iron

et al. 2017

View full text Add to dashboard Cite

Influence of Heat Treatment and Variable Magnetic Fields on the Chemical Resistance of Amorphous Alloys Based on Iron

Cited by 6 publications

References 3 publications

Phase, microstructure and service character of as-deposited and short-time heat-treated Ni-Mo alloys with mixed state

Phase, microstructure and service character of as-deposited and short-time heat-treated Ni-Mo alloys with mixed state

A method of changing physical and chemical characteristics of bulk amorphous Fe-based alloys

Influence of Alloying on the Corrosion Resistance of Bulk Amorphous Alloys Based on Iron

Contact Info

Product

Resources

About