Electroless deposition and some properties of Ni–Cu–P and Ni–Sn–P coatings

“…4). This method has widely been used [15][16][17][18][19] for the deposition a variety of metal oxides and hydroxides, e.g., Ni(OH) 2 , TiO 2 , because it has many ad-vantages such as its applicability with also reactive electrodes, such as stainless steel and Al without driving their oxidation and dissolution:…”

“…The process can be carried out in electrolyte solutions as well as in molten salts and ionic liquids. Electroless deposition, whereby instead of passing current from an external device the process is driven by another oxidation-reduction process in the solution, is also well-known and widely used [2][3][4][5] for example in the microelectronic industry. The simplest approach for ED comprises the reduction and deposition of metal ions (Eq.…”

Electrochemical Coating of Medical Implants

“…4). This method has widely been used [15][16][17][18][19] for the deposition a variety of metal oxides and hydroxides, e.g., Ni(OH) 2 , TiO 2 , because it has many ad-vantages such as its applicability with also reactive electrodes, such as stainless steel and Al without driving their oxidation and dissolution:…”

“…The process can be carried out in electrolyte solutions as well as in molten salts and ionic liquids. Electroless deposition, whereby instead of passing current from an external device the process is driven by another oxidation-reduction process in the solution, is also well-known and widely used [2][3][4][5] for example in the microelectronic industry. The simplest approach for ED comprises the reduction and deposition of metal ions (Eq.…”

Electrochemical Coating of Medical Implants

“…CTE of ENP coatings at 3 wt% phosphorus reaches nearly 22.3 μm/ m/°C, whereas they reach 11.1 μm/m/°C at 11 wt% phosphorus [60]. The inclusion of nanoparticles such as Cu and Sn [88] to the ENP matrix-forming nanocomposite increases the crystallization temperature of amorphous Ni-P, in turn improving its thermal stability as is shown in Fig. 14.…”

“…Sahoo studied the optimization of ENP coating process parameters for minimal wear based on an L27 Taguchi orthogonal design with four parameters (bath Fig. 14 Differential scanning calorimetry curves of different coatings: 1-Ni-P (11.9 wt% P); 2-Ni-Cu-P (1.7 wt% Cu, 12.2 wt% P); 3-Ni-Sn-P (1.1 wt% Sn, 11 wt% P) [88] Fig. 15 Effect of annealing temperature and TiO 2 particles on a wear depth and b corrosion current density [92] temperature, nickel concentration, reducing agent concentration, and annealing temperature).…”

Recent advances in electroless-plated Ni-P and its composites for erosion and corrosion applications: a review

“…Metallic coatings also act as a corrosion-resistant physical barrier and, at the same time, provide sacrificial cathodic protection to exposed adjacent areas of a metal substrate of dissimilar composition. There are many literatures concerning the corrosion protection methods by introducing organic coating [34][35][36][37][38] and metallic coating [39][40][41][42][43][44][45][46][47][48].…”

Current status and advances in corrosion researches