Electrodeposition kinetics of tin—antimony alloy from sulfate electrolyte with organic additives

The physical-mechanical properties of chromium coatings from low-concentrated electrolytes with additions of organic substances were studied when comparing with similar ones from standard sulphate electrolyte. It has been established that the properties of chromium coatings from low concentrated electrolytes are superior to those of standard sulphate electrolyte. An additional advantage of low-concentrated electrolytes is less carry-over of chromium anhydrate through ventilation and wash water, which reduces the cost of cleaning them when they are discharged. However, under operating conditions, more frequent adjustment of the composition of such electrolytes is required. The electrolyte is distinguished by a good scattering over the surface of parts and covering power when restored to size on a thickness of 250-300 μm of hydraulic cylinders of agricultural and mining equipment, having a length of up to 4 m and a diameter of up to 0.5 m, an increased current output of up to 24-36 % and up to 3-4 times higher corrosion resistance, micro hardness of up to 1,300 kg / mm2, determined by the conditions of deposition relative to the standard sulfate electrolyte of chromium plating. Chromium coatings from a low-concentration electrolyte with organic additives passed the recommended tests for adhesion, tearing, wear and micro hardness according to GOST methods. Their use at the enterprises of technical service for repair of agricultural parts promises economic advantages in the field of practical application (higher deposition rate and less application time), as well as lower costs for environmental protection.

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PROSPECTS FOR THE USE OF TRICHLOROETHYL AMIDES WITH THIOAMIDE FUNCTIONS IN THE TECHNOLOGY OF BRILLIANT NICKEL PLATING

Modern Technologies and Scientific and Technological Progress ◽

10.36629/2686-9896-2021-1-1-101-102 ◽

2021 ◽

Vol 1 (1) ◽

pp. 101-102

Author(s):

Dmitriy Shurupov ◽

Yuliya Andreeva ◽

Yuliya Balyueva ◽

Nina Sosnovskaya ◽

Igor' Rozencveyg

Keyword(s):

Sulfate Electrolyte ◽

Nickel Plating ◽

Organic Additives ◽

Nickel Coatings ◽

Group A

The influence of organic additives in the nickel-plating sulfate electrolyte on the pos sibility of obtaining shiny coatings is investigated. The presence in the structure of the additive of trichloramide fragments and substituents containing a thiocarbonyl group-a residue of thiourea or rubeanoic acid, allows to obtain shiny nickel coatings without the introduction of additional reagents.

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Improving working conditions by applying a rust converter modified P-2

Известия СПбЛТА ◽

10.21266/2079-4304.2017.218.223-233 ◽

2017 ◽

Author(s):

Е.Г. Раковская ◽

О.А. Кудряшова

Keyword(s):

Passive State ◽

Organic Additives ◽

Protective Properties ◽

Protective Layers ◽

Large Numbers ◽

Protective Films ◽

Metal Products ◽

Kinetics Of ◽

Metal Dust ◽

Selection Of

Исследование посвящено изучению возможности применения преобразователя ржавчины П-2 при подготовке поверхности стали к окрашиванию с целью замены экологически вредных механических способов очистки и улучшения его защитных свойств путем введения органических ингибиторов. При механической обработке металлов в больших количествах выделяются мелкодисперсные частички лака, мелкодисперсная металлическая пыль, оксиды металлов (Fe, Al), которые негативно действуют на человека. Для замены вредных для окружающей среды механических способов очистки металлической поверхности предлагается подготовка без удаления продуктов коррозии, которая заключается в нанесении на ржавую поверхность модификаторов или грунтов модификаторов ржавчины. Суть действия модификаторов ржавчины состоит в их способности стабилизировать состояние ржавчины и обезвреживать агрессивные примеси. Ингибиторы коррозии с каждым годом приобретают все большее значение в противокоррозионной защите металлических изделий. Успехи в области разработки научных основ действия ингибиторов и создания новых ингибиторов различного назначения позволили предложить метод противокоррозионной защиты, который основан на введении ингибиторов в лакокрасочные покрытия. Преобразователи ржавчины преобразуют продукты коррозии в нерастворимые соединения, образующие защитные слои, на которые затем наносятся лакокрасочные материалы. Для исследования кинетики электрохимических реакций использовался метод снятия поляризационных кривых с помощью потенциостата П-5828 М. Испытания проводились на стали 3 и стали У8А. Кинетика процессов, протекающих при пассивации, изучалась методом снятия анодных потенциостатических кривых, также определялись сопротивление защитных пленок, выход по току и скорость коррозии. Исследование влияния N- и S-содержащих органических соединений на параметры пассивации стальных образцов в среде преобразователя ржавчины П-2 показало, что данные добавки способствуют переходу стали в пассивное состояние, уменьшают ток пассивации, способствуют увеличению сопротивления пассивных пленок. Следствием такого влияния органических добавок на параметры пассивации является уменьшение выхода металла по току, а следовательно, и уменьшение скорости коррозии. Результаты исследования могут быть использованы при подборе ингибиторов, вводимых в преобразователь ржавчины П-2, для более эффективной защиты металла от коррозии и безопасности здоровья человека. The real work is devoted to studying of a possibility of use of the P-2 rust solvent for preparation of a surface of steel for coloring for the purpose of replacement of ecologically harmful mechanical ways of cleaning and improvement of its protective properties by introduction of organic inhibitors. When machining metals in large numbers fine parts of a varnish, fine metal dust, oxides of metals (Fe, Al) which negatively affect the person are allocated. For replacement of mechanical ways of cleaning of a metal surface, harmful to the environment, preparation without removal of products of corrosion which consists in drawing on the rusty surface of modifiers or soil of modifiers of a rust is offered. The essence of operation of modifiers of a rust consists in ability to stabilize their condition of a rust and to neutralize aggressive impurity. Corrosion inhibitors gain the increasing value in anticorrosive protection of metal products every year. Achievements in the field of development of scientific bases of effect of inhibitors and creation of new inhibitors of different function have allowed to offer a method of anticorrosive protection which is based on introduction of inhibitors to paint and varnish coverings. Rust solvents will transform corrosion products to the insoluble connections forming protective layers on which then paints and varnishes are applied. For a research of kinetics of electrochemical reactions the method of removal of polarizing curves by means of a potentsiostat of P-5828 of M was used. Tests were carried out on steel 3 and U8A steel. The kinetics of the processes proceeding at passivation was studied by method of removal the anodic potentiostatic curves, resistance of protective films, an exit was also determined by current and corrosion speed. The research of influence of N-and S-of the containing organic compounds on parameters of passivation of steel samples in the environment of the P-2 rust solvent has shown that these additives promote transition of steel to a passive state, reduce passivation current, promote increase in resistance of passive films. Reduction of an exit of metal on current and consequently, and reduction of speed of corrosion is a consequence of such influence of organic additives on parameters of passivation. Results of work can be used at selection of the inhibitors entered into the P-2 rust solvent for more effective protection of metal against corrosion and safety of health of the person.

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