Application of Electrodeposited Zinc-nickel Coatings in the Automotive Industry
Author : Inco Europe Ltd
Publisher :
Page : 58 pages
File Size : 26,11 MB
Release : 1981
Category :
ISBN :
Characterization of Electrodeposited Zn-Ni Alloy Coatings as a Replacement for Electrodeposited Zn and Cd Coatings
Author : Sriraman Kankoduthavanitham Rajagopalan
Publisher :
Page : pages
File Size : 44,75 MB
Release : 2013
Category :
ISBN :
Book Description
"Sacrificial metallic coatings, such as those based on Zn and Cd are used to protect steel components against corrosion. Growing environmental and health concerns have limited the use of Cd in any form since Cd plating bath is cyanide based and Cd compounds are carcinogenic. This thesis investigates Zn-Ni as a potential replacement for Cd and Cd based alloy coatings used in aerospace industries and Zn in automotive industries with respect to their tribological, corrosion and tribocorrosion resistance and hydrogen embrittlement susceptibility. In situ tribometry and additional ex situ analyses revealed that Zn-Ni coatings had superior resistance to adhesive wear compared to cadmium coatings. The microhardness of Zn-Ni coatings was higher than Zn and Cd coatings. Hardness on the wear track of Zn-Ni coatings showed the formation of strain hardened tribo layer. Zn-Ni coatings had higher polarization resistance after wear testing as compared to zinc and cadmium coatings. The mass loss due to wear enhanced corrosion was less with Zn-Ni than with Zn and Cd coatings. Zn-Ni coatings are a suitable replacement to Cd coatings when the surfaces are subjected to simultaneous wear and corrosion. Zn-Ni coatings had higher polarization resistance after the 24 hour immersion tests compared to zinc and cadmium coatings. Zn-Ni coatings offer better sacrificial corrosion protection because of low corrosion rates, and are a suitable replacement for Cd coatings. The Passivated Zn-Ni coatings showed lower corrosion resistance when heat treated due to localized damage of passive films while there was no effect of heat treatment on corrosion resistance of as plated Zn-Ni coatings. During the electrodeposition of metals, hydrogen is evolved due to electrolysis. The evolved hydrogen may diffuse outward and become trapped in the substrate/coating interface or migrate inward into the steel lattice causing delayed embrittlement when the component is subjected to stress. This study reports two principal variables for Zn, Zn-Ni, and Cd coatings: (i) quantity of hydrogen absorbed by the coating and substrate, by vacuum thermal desorption (ii) permeability of the coating material to hydrogen, by electrochemical permeation. The findings were analyzed in correlation with microstructural characteristics of both the coating material and the coating/substrate interface. With Zn-Ni, both coating process and coating material combined to significantly reduce the risk of internal hydrogen embrittlement by: (i) introducing the least amount hydrogen during the electrodeposition process, and (ii) by the ease with which hydrogen can be extracted by baking due to the presence of cracks in the coating.Keywords: Zn-Ni, Cd, Cd-Ti, Zn, EIS, insitu tribology, tribocorrosion, hydrogen permeation, TDS" --
Magnetic Materials, Processes, and Devices VII and Electrodeposition of Alloys
Author : S. Krongelb
Publisher :
Page : 736 pages
File Size : 47,15 MB
Release : 2003
Category : Technology & Engineering
ISBN :
Book Description
Sliding Wear and Fretting Behaviour of Electrodeposited Γ-phase Zinc-nickel Coatings as a Replacement for Electrodeposited Cadmium Coatings
Author : Lisa Lee
Publisher :
Page : pages
File Size : 44,51 MB
Release : 2017
Category :
ISBN :
Book Description
Electrodeposited Zn-Ni coatings is used as a sacrificial corrosion protective coating for steel in the automotive industry. Recently, the aerospace industry has taken an interest in these coatings due to the increasing restrictions on cadmium. Many studies have been made on improving the plating process and corrosion properties of Zn-Ni coatings. Although these coatings encounter tribological situations, there is still an information gap on their tribological behaviour. Therefore, the tribological behaviour of Zn-Ni coatings are studied in terms of fretting and sliding wear in this work and are compared with cadmium.Tribological studies of the fretting and sliding wear behaviour on Zn-Ni and Cd coatings were conducted. For Zn-Ni coating, studies showed that the surface morphology had a strong effect on the velocity accommodation mechanisms. In the stick or partial slip regime, the smoother and dense coating formed cracks on the surface in order to accommodate wear, whereas for the rougher coating, only asperities of the coating were deformed, as the morphology of the coating allowed some degree of elastic deformation. In the mixed slip and the gross slip regimes, shearing of the third bodies accommodated the velocity in both cases. When slipping occurred, the rougher coating also showed higher wear, as the morphology of the coating allowed easier detachment, as cracks and through thickness defects were present where the agglomerates of the coating meets. When compared with Cd coatings, the material properties affected the fretting behaviour strongly. Cadmium coating remained in the partial slip regime despite changing the displacement amplitude, due to the mechanical properties and crystal structure of cadmium. Plastic flow of the coating material accommodated the velocity for cadmium coating, as cadmium has a hexagonal crystal structure and is very ductile. Although cadmium remained in the stick and partial slip regime, increasing the displacement amplitude increased the friction and wear of the coating. When a high displacement amplitude was used, cadmium coating was removed from the center of the contact and the substrate was exposed.Sliding wear studies of the effect of normal load, surface morphology and humidity for Zn-Ni coatings were conducted and the results were compared with Cd. Formation of an oxide layer appeared to have a strong effect on the sliding wear behaviour, the smoother and dense coating was subjected to test performed in various humidity conditions. At high humidity, a continuous nanocrystalline ZnO film was formed on the surface of the wear track, which helped mitigate wear and stabilize the friction. This is because velocity was accommodated through shearing of the nanocrystalline film. In contrast, at zero humidity level, a prow formed due to adhesive wear behaviour. Velocity was accommodated by ploughing of the wear track and shearing of the particles. When tests were performed in high humidity, increasing the normal load caused breaking of the oxide layer that was formed on the wear track, which resulted in more adhesive wear. At low normal loads, the rougher coating showed more wear than the smoother coating. At the highest normal load, the wear of the smoother coating became more severe as the lack of a continuous oxide film caused more adhesive wear. The rougher coating was less sensitive to increase of initial Hertzian contact stress, as the surface morphology of the coating allowed some degree of elastic and plastic deformation. When compared to Cd, humidity also affected the sliding wear behaviour of Cd due to change in the composition of the third bodies. Decreasing the humidity was beneficial to cadmium but detrimental to Zn-Ni. Due to material properties, a lower CoF was observed for cadmium, while a higher wear resistance was observed in Zn-Ni coating.
Electrodeposition of Alloys
Author : Abner Brenner
Publisher : Elsevier
Page : 735 pages
File Size : 20,85 MB
Release : 2013-10-22
Category : Technology & Engineering
ISBN : 1483223116
Book Description
Electrodeposition of Alloys: Principles and Practice, Volume I covers the general and theoretical aspects of the electrodeposition of alloy containing silver and/or copper. This book is organized into three parts encompassing 21 chapters. The first part considers first the history of electrodeposition, the applications of electrodeposited alloys, and the practical considerations involved in electrodeposition. This part also deals with the effect of operating variables on composition of electrodeposited alloys, and the physico-chemical properties of the alloy. The second part focuses on the theoretical aspects of alloy electrodeposition. This part includes discussions on the role of cathode diffusion layer, the effects of complexing agents, and the concept of alloy plating. The third part discusses the practical aspects of the electrodeposition of alloys, focusing primarily on the electrodeposition of alloys from aqueous solutions. This part examines first brass and bronze plating, followed by the electrodeposition of copper-tin, silver, and iron containing alloys. This book is directed toward electrochemists and researchers.
The Metallurgy of Zinc Coated Steels
Author : Arnold Marder
Publisher : Elsevier
Page : 610 pages
File Size : 35,58 MB
Release : 2023-02-22
Category : Technology & Engineering
ISBN : 0323984894
Book Description
The Metallurgy of Zinc Coated Steels provides a comprehensive overview of the science and engineering of zinc coatings. Beginning with a look at new innovations made in the hot-dip coating methods (CGL), the book goes on to discuss phase equilibria, Zn bath phenomena and overlay coating formations. Both processing methods and controls are covered, as well as corrosion resistance and coating product properties. The book concludes with a discussion of future opportunities for zinc coatings. This book is a vital resource for both individuals new to this area while also serving as a handbook for users and producers of zinc coatings. - Presents a basic understanding of the science and engineering behind zinc coatings with a thorough and cutting-edge look at their processing methods, controls, properties, and applications - Discusses corrosion resistance, overlay coating formation, heat treatment, interface reactions, deposition processes, and more - Covers real-world applications of these coatings
Zinc Plating
Author : Herb Geduld
Publisher : Hyperion Books
Page : 380 pages
File Size : 32,82 MB
Release : 1988
Category : Technology & Engineering
ISBN :
Book Description
Sliding Wear and Fretting Behaviour of Electrodeposited [gamma]-phase Zinc-nickel Coatings as a Replacement for Electrodeposited Cadmium Coatings
Author : Lisa Lee
Publisher :
Page : pages
File Size : 40,12 MB
Release : 2017
Category :
ISBN :
Book Description
"Electrodeposited Zn-Ni coatings is used as a sacrificial corrosion protective coating for steel in the automotive industry. Recently, the aerospace industry has taken an interest in these coatings due to the increasing restrictions on cadmium. Many studies have been made on improving the plating process and corrosion properties of Zn-Ni coatings. Although these coatings encounter tribological situations, there is still an information gap on their tribological behaviour. Therefore, the tribological behaviour of Zn-Ni coatings are studied in terms of fretting and sliding wear in this work and are compared with cadmium.Tribological studies of the fretting and sliding wear behaviour on Zn-Ni and Cd coatings were conducted. For Zn-Ni coating, studies showed that the surface morphology had a strong effect on the velocity accommodation mechanisms. In the stick or partial slip regime, the smoother and dense coating formed cracks on the surface in order to accommodate wear, whereas for the rougher coating, only asperities of the coating were deformed, as the morphology of the coating allowed some degree of elastic deformation. In the mixed slip and the gross slip regimes, shearing of the third bodies accommodated the velocity in both cases. When slipping occurred, the rougher coating also showed higher wear, as the morphology of the coating allowed easier detachment, as cracks and through thickness defects were present where the agglomerates of the coating meets. When compared with Cd coatings, the material properties affected the fretting behaviour strongly. Cadmium coating remained in the partial slip regime despite changing the displacement amplitude, due to the mechanical properties and crystal structure of cadmium. Plastic flow of the coating material accommodated the velocity for cadmium coating, as cadmium has a hexagonal crystal structure and is very ductile. Although cadmium remained in the stick and partial slip regime, increasing the displacement amplitude increased the friction and wear of the coating. When a high displacement amplitude was used, cadmium coating was removed from the center of the contact and the substrate was exposed.Sliding wear studies of the effect of normal load, surface morphology and humidity for Zn-Ni coatings were conducted and the results were compared with Cd. Formation of an oxide layer appeared to have a strong effect on the sliding wear behaviour, the smoother and dense coating was subjected to test performed in various humidity conditions. At high humidity, a continuous nanocrystalline ZnO film was formed on the surface of the wear track, which helped mitigate wear and stabilize the friction. This is because velocity was accommodated through shearing of the nanocrystalline film. In contrast, at zero humidity level, a prow formed due to adhesive wear behaviour. Velocity was accommodated by ploughing of the wear track and shearing of the particles. When tests were performed in high humidity, increasing the normal load caused breaking of the oxide layer that was formed on the wear track, which resulted in more adhesive wear. At low normal loads, the rougher coating showed more wear than the smoother coating. At the highest normal load, the wear of the smoother coating became more severe as the lack of a continuous oxide film caused more adhesive wear. The rougher coating was less sensitive to increase of initial Hertzian contact stress, as the surface morphology of the coating allowed some degree of elastic and plastic deformation. When compared to Cd, humidity also affected the sliding wear behaviour of Cd due to change in the composition of the third bodies. Decreasing the humidity was beneficial to cadmium but detrimental to Zn-Ni. Due to material properties, a lower CoF was observed for cadmium, while a higher wear resistance was observed in Zn-Ni coating." --
The Use of Nano Composites in Automotive Applications
Author : Y Charles Lu
Publisher : SAE International
Page : 117 pages
File Size : 37,72 MB
Release : 2015-12-18
Category : Technology & Engineering
ISBN : 0768082374
Book Description
With their high specific strength and stiffness, composites have the potential to significantly lower the vehicle weight, which can have a dramatic effect on improving fuel efficiency and reducing greenhouse gas emissions. For the past decade or so, composites have been experiencing several transitions, including the transition from micro-scale reinforcement fillers to nano-scale reinforcement fillers, resulting in the nanocomposite. The effectiveness of the nano-sized fillers in composites can be explained by one of their unique geometric properties: the length-to-thickness aspect ratio. Therefore, nano-sized fillers have exceptionally higher reinforcing efficiency than the conventional, large fillers. The effectiveness of the nano-sized fillers in composites is also due to their large surface area and surface energy. This book consists of a collection of technical papers selected from the automotive composites and other relevant sessions that the editors have organized for the SAE World Congress over the past decade. It begins with a section on the perspectives of nanocomposites in the automotive industry, with of three excellent papers given by experts from the industry and academia. Following, it brings to the reader in-depth information on the three major nanocomposites categories: o Nano-fiber reinforced composites o Nano-platelet reinforced composites o Nano-particle reinforced composites
Metals Abstracts
Author :
Publisher :
Page : 1650 pages
File Size : 29,60 MB
Release : 1996
Category : Metallurgy
ISBN :
