Search or ask a question

How do you remove corrosion from chrome wheels?

Sodium silicate

Answers from top 7 papers

PDF

Open Access

More filters

Papers (7)	Insight
Open access•Journal Article•DOI Development of a Novel Electrochemical Method to Deposit High Corrosion Resistant Silicate Layers on Metal Substrates Basker Veeraraghavan, Balasubramanian S. Haran, Dragan Slavkov, Swaminatha Prabhu, Branko N. Popov, Bob Heimann - Show less +5 more 01 Feb 2003-Electrochemical and Solid State Letters 17 Citations	The technique developed here shows promise as an alternative to chrome passivation for corrosion protection of metals.
Open access•Journal Article•DOI A Systematic Review of Systemic Cobaltism After Wear or Corrosion of Chrome-Cobalt Hip Implants. Bradford D. Gessner, Thomas Steck, Erik Woelber, Stephen S. Tower - Show less +3 more 01 Jun 2015-Journal of Patient Safety 83 Citations	Systemic arthroprosthetic cobaltism is an increasingly recognized complication of wear or corrosion of chrome-cobalt hip implants, may involve a large number of organ systems, and may occur with relatively low B[Co].
Journal Article•DOI Chrome-free corrosion protective coating based on lacquer hybridized with silicate Takayuki Honda, Rong Lu, Tetsuo Miyakoshi - Show less +2 more 01 Aug 2006-Progress in Organic Coatings 11 Citations	In addition, the ability of the hybrid lacquer to prevent corrosion was comparable to the protection offered by chrome treatment.
Open access•Journal Article•DOI Development of an Electroless Method to Deposit Corrosion-Resistant Silicate Layers on Metallic Substrates Swaminatha P. Kumaraguru, Basker Veeraraghavan, Branko N. Popov - Show less +2 more 01 Jul 2006-Journal of The Electrochemical Society 20 Citations	Silica coatings developed by this method show promise as an alternative to chrome passivation for corrosion protection.
Journal Article•DOI Untersuchungen über den interkristallinen Kongrenzenangriff von austenitischen Mangan‐Chrom‐Stählen durch Wasser und wäßrige Lösungen A. Bäumel, O. Tramposch - Show less +1 more 01 Feb 1966-Materials and Corrosion-werkstoffe Und Korrosion 9 Citations	Through contact with zinc, it is possible to obtain a complete corrosion protection with the manganese-chrome steels investigated.
Journal Article•DOI Influence of chrome-bearing sols vacuum impregnation on the properties of magnesia-chrome refractory Yong-Yue Deng, Hou-Zhi Wang, Huizhong Zhao - Show less +2 more 01 Apr 2008-Ceramics International 24 Citations	The results show that both sols could improve the magnesia-chrome bricks corrosion resistance in impregnation.
Journal Article•DOI HVOF coatings as an alternative to hard chrome for pistons and valves J.A. Picas, Antonio Forn, G. Matthäus - Show less +2 more 20 Sep 2006-Wear 175 Citations	The Fine CrC–NiCr coatings have demonstrated superior performance to hard chrome with regard to mechanical and tribological properties, and they can be proposed as an alternative to hard chrome coatings.

My columns

Related Questions

How do you get corrosion off of chrome wheels?6 answers

How do you get rid of corrosion on pipes?7 answers

How do you remove corrosion from a watch?10 answers

How do you remove corrosion from a water valve?9 answers

How do you remove corrosion from plastic chrome?13 answers

How to get rid of corrosion in a carburetor?10 answers

See what other people are reading

Does conductivity increase or decrease with dissolved oxygen?

Conductivity tends to increase with dissolved oxygen levels. Research indicates that in the presence of higher dissolved oxygen concentrations, such as 9 mg L−1, the conductivity of water increases due to the formation of dissolved ozone and hydrogen peroxide, leading to higher conductivity levels. Additionally, a study on the effect of dissolved oxygen on the oxidation reaction of anodes in microbial fuel cells found that the current output decreased by 7% with the impact of dissolved oxygen, suggesting a correlation between dissolved oxygen and conductivity changes. Furthermore, the corrosion behavior of X80 pipeline steel in simulated soil solutions showed that as the dissolved oxygen concentration decreased, the corrosion current density reduced significantly, indicating a decrease in conductivity with lower dissolved oxygen levels.How does the addition of date powder affect the corrosion resistance of eggshell composites in engineering applications?

The addition of date powder to eggshell composites in engineering applications has not been specifically addressed in the provided contexts. However, the incorporation of eggshell powder in various composites has shown promising results in enhancing corrosion resistance and mechanical properties. Studies have demonstrated that eggshell-reinforced composites exhibit improved corrosion resistance, mechanical properties, and durability. The synergistic effect of eggshell particles with other materials like magnesium, aluminum, and titanium dioxide nanoparticles has led to increased protection efficiency, higher microhardness, and enhanced wear resistance in different composite systems. Therefore, while the direct impact of date powder on corrosion resistance in eggshell composites is not explored, the overall trend suggests that incorporating natural reinforcements like date powder could potentially further enhance the properties of such composites in engineering applications.Why calcium silicate good for free fatty acid adsorption?

Calcium silicate is effective for free fatty acid (FFA) adsorption due to its ability to prolong the useful life of cooking oils by removing FFA. Additionally, calcium silicate-based materials aid in reducing the amount of additional oil or fat needed for further utilization in restaurant settings. Silica gel synthesized from waste glass bottles also demonstrates high efficiency in reducing FFA in waste cooking oil, with ratios of 1:1 and 1:3 showing the highest FFA reduction rates. Furthermore, magnesium silicate with specific SiO2/MgO ratios has been found to have high adsorption capacities for FFA, with a ratio of 1.99 exhibiting the highest adsorption capacity. These findings collectively highlight the effectiveness of calcium silicate and related materials in adsorbing free fatty acids from oils.Why is organic inhibitor important?

Organic inhibitors are crucial in corrosion protection due to their ability to form protective films on metal surfaces. These inhibitors are preferred for their environmental friendliness and effectiveness across various temperatures. The efficiency of organic inhibitors depends on factors like molecular size, functional groups, and bonding atoms. Studies have shown that organic inhibitors can provide significant corrosion protection for metals like copper and aluminum. The interactions between organic molecules and metal surfaces play a vital role in reducing corrosion rates and enhancing inhibition effectiveness. Small organic molecules have unique electron-donating capacities that contribute to their corrosion inhibitive properties. Overall, organic inhibitors offer a cost-effective and efficient method to prevent corrosion and extend the lifespan of metal structures.What is the role of d-cysteine in plants?

D-cysteine plays a significant role in plant physiology by inducing root abscission and potentially serving as a substrate for hydrogen sulfide (H2S) generation, a crucial signaling molecule in plants. Studies suggest that D-cysteine triggers rapid root abscission in response to various environmental stimuli in water ferns like Azolla, highlighting its importance in stress responses. Additionally, D-cysteine is implicated in the generation of H2S through D-cysteine desulfhydrase (DCD) activity, contributing to various physiological functions in plants, such as growth regulation, defense responses, and stress tolerance. This dual role of D-cysteine underscores its significance as a key player in plant signaling pathways and stress adaptation mechanisms.What is the density metallic paint of in terms of high low or medium?

The density of metallic paint can vary depending on its composition and application. In the provided contexts, different approaches to creating metallic coatings with varying densities are discussed. For instance, a metal film-forming paint aims to achieve high metallic density despite thinness, with a metallic density of 50 mass% or higher. On the other hand, a high solid metal coating is designed to have high solidity and low viscosity, meeting automotive coating standards while doubling the solid content compared to common cellulose acetate butyrate. These examples highlight the range of densities achievable in metallic paints, from high density in thin films to high solidity with low viscosity in high solid coatings.How strong is the X-ray sheet?

The strength of an X-ray sheet can vary based on its composition and structure. One approach to enhancing strength involves using a high-strength sheet with specific material compositions, such as steel with controlled fractions of ferrite, tempered martensite, tempered bainite, and retained austenite. Additionally, X-ray shielding sheets can be designed with reinforcing layers made of polyurethane resin to improve flexibility, surface strength, and adhesiveness. Furthermore, the use of protective layers composed of oxides like SiO2, TiO2, ZrO2, SnO2, Al2O3 can contribute to good moisture resistance and durability in X-ray image conversion sheets. By combining these approaches, X-ray sheets can achieve a balance between flexibility, shielding effectiveness, and overall strength.How to cure polyester resin?

To cure polyester resin, various methods can be employed based on the specific application requirements. One approach involves utilizing a curing accelerator in the resin formulation to facilitate the curing process, as mentioned in the preparation of a polyester resin for outdoor high glass transition temperature coatings. Additionally, the use of a curing agent in combination with unsaturated polyester resin, styrene, and other components can lead to the development of polyester-resin-based cement materials with excellent mechanical properties. Furthermore, the incorporation of carboxyl and hydroxyl functional groups in the polyester resin can enhance the curing reaction with different curing agents, resulting in improved performance under harsh conditions like delayed impact and freezing bending. Overall, the curing of polyester resin involves the use of specific additives and processes tailored to the desired properties of the final product.What are the advantages of using WAAM in manufacturing processes?

Wire Arc Additive Manufacturing (WAAM) offers several advantages in manufacturing processes. WAAM enables the efficient production of large-scale components with reduced lead times, minimal material waste, and cost-effectiveness. It has been successfully utilized in various industries like aerospace, automotive, and shipbuilding. The technology allows for the in-situ manufacturing of complex structures with integrated material-structure-function components, providing solutions for components with surface performance requirements and individual structural features. WAAM also exhibits high efficiency in fabricating components, while the hybridization with Laser Directed Energy Deposition (LDED) enhances precision and surface flatness, resulting in well-fabricated samples with improved mechanical properties and microstructures. Additionally, WAAM materials have shown good yield and ultimate strengths, albeit with slightly lower ductility compared to conventional stainless steel, making them suitable for construction applications.How does the incorporation of recycled aluminum affect the corrosion resistance of composite materials?

The incorporation of recycled aluminum in composite materials can significantly impact their corrosion resistance. Studies have shown that introducing sustainable materials like fly ash and eggshells as reinforcements in aluminum matrix composites (AMCs) can enhance corrosion resistance. On the other hand, composite peening with ceramic particles like Al2O3 in aluminum can accelerate corrosion, particularly intergranular corrosion, compared to monolithic aluminum. Additionally, surface composites fabricated using friction stir processing with Mo particles reinforcement exhibit improved corrosion resistance, especially with higher Mo content and homogeneous distribution. Furthermore, aluminum matrix composites with SiC reinforcements prepared by powder metallurgy show varying corrosion rates based on the weight percentage of SiC, influencing the nucleation and growth of pits.What are the applications of Mg alloys in implants?

Magnesium (Mg) alloys are promising materials for biodegradable temporary implants due to their biodegradability, biocompatibility, and mechanical properties. However, their rapid corrosion rates in physiological environments hinder their widespread use. To address this, various coating methodologies have been explored, such as hydroxyapatite (HA) coatings and hybrid coatings with synthetic and natural polymers. These coatings enhance corrosion resistance, biocompatibility, and mechanical integrity of Mg alloys, making them suitable for biomedical applications. Surface modifications like plasma electrolytic oxidation (PEO) have also been successful in reducing corrosion rates and improving biological properties of Mg implants, promoting cell proliferation and extracellular matrix formation. Overall, the applications of Mg alloys in implants benefit from these coating and modification strategies to overcome corrosion challenges and enhance functionality.