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Rust converter

A rust converter is a chemical coating or solution designed exclusively to transform rust—primarily hydrated iron oxides—on ferrous metal surfaces into a stable, inert, and adherent compound intended to inhibit further corrosion without requiring complete surface derusting. These products contain a minimum of 1.0 percent acid by weight, such as phosphoric acid or tannic acid, which react with the rust to form protective layers like iron phosphate or iron tannate.^[1] The mechanism of action involves the acid components penetrating the porous rust layer, where they chelate or oxidize the iron oxides to produce a passivating film that bonds to the underlying metal substrate. This process aims to convert loose, flaky corrosion products into a smooth, paintable surface suitable for subsequent primer or topcoat application. However, their effectiveness is debated, with some studies indicating potential acceleration of corrosion under certain conditions. Rust converters are available in various formulations, including water-based (environmentally preferable due to lower volatile organic compounds), solvent-based, and aerosol types, allowing flexibility for different application methods like brushing, spraying, or wiping.^[2] Commonly applied in automotive restoration, marine vessel maintenance, industrial equipment protection, construction, and heavy trucking, rust converters can provide corrosion control on mildly to moderately rusted steel, potentially saving time and labor compared to mechanical abrasion in suitable scenarios. They are particularly valuable where full rust removal is impractical, such as on structural beams or vehicle underbodies, and must be used on clean, dry surfaces for optimal efficacy.^[2]^[3]

Fundamentals

Definition

A rust converter is a chemical solution or primer applied directly to rusted iron or steel surfaces to transform iron oxides, commonly known as rust, into a stable, inert compound that inhibits ongoing corrosion.^[4] This transformation creates a protective layer on the metal substrate, allowing for effective surface preparation without the labor-intensive process of full rust removal.^[5] The primary purpose of a rust converter is to serve as an intermediary between corroded metal and subsequent protective coatings, such as paints or primers, thereby extending the service life of ferrous structures in environments prone to moisture and oxygen exposure.^[4] By chemically stabilizing existing rust, these products eliminate the necessity for complete mechanical or abrasive cleaning, reducing preparation time and costs while ensuring strong adhesion for topcoats.^[5] Rust converters differ from rust removers, which dissolve or mechanically eliminate rust without forming a residual protective layer, and from rust inhibitors, which primarily prevent the initiation of new corrosion on clean surfaces rather than addressing pre-existing oxide buildup.^[5] At a high level, their action involves chemical reactions that bind to iron oxides, though detailed mechanisms are explored elsewhere.^[4]

Historical Development

Rust converters trace their origins to traditional practices dating back centuries, where plant-derived tannins, such as those from oak bark, were employed in iron manufacturing to inhibit rust formation by forming protective iron tannate compounds.^[6] Modern formulations emerged in the early 20th century, with phosphoric acid first documented for rust removal and treatment in 1932, enabling chemical approaches to corrosion control as alternatives to mechanical removal in industrial applications.^[7] In the 1920s, the Parker Rust-Proofing Company of Detroit pioneered phosphate-based processes, initially for clean metal surfaces, with related developments like the Footner's Duplex Process in 1937 using acid etching followed by phosphoric acid for surface preparation, including on mildly rusted automotive parts during the 1930s and 1940s.^[7] The post-World War II era drove significant evolution in corrosion protection, as booming manufacturing, marine, and infrastructure sectors demanded efficient solutions for steel structures, ships, and bridges amid rapid industrialization. By the 1970s and 1980s, environmental regulations phased out toxic inhibitors like red lead in protective coatings, prompting a shift to safer acid-based rust converters.^[8] Key advancements included formulations patented in the 1980s, such as tannic acid-based latex rust converting primers combining organic polymers for enhanced stability on rusted surfaces.^[9] Post-2000 developments emphasized eco-friendly hybrids, integrating tannic acid with polymers to improve long-term protection while minimizing environmental impact, as seen in studies on modified tannin-phosphate systems for sustainable applications.^[4] Electrochemical analyses in 2000 validated these converters' effectiveness, demonstrating improved corrosion resistance on aged rust layers through targeted chemical transformations.^[10] This progression reflects ongoing responses to regulatory pressures and industrial demands for durable, non-toxic treatments. Into the 2020s, further innovations include nanotechnology-enhanced and photopolymerization-based rust converters for eco-friendly applications, with market growth driven by sustainable formulations as of 2025.^[11]^[12]

Chemical Principles

Mechanism of Action

Rust converters primarily operate through chemical reactions that transform iron oxides, such as rust (primarily Fe₂O₃ or γ-FeOOH), into stable, adherent compounds that inhibit further corrosion. In formulations utilizing tannic acid, the primary reaction involves the chelation of iron ions from the rust by the phenolic hydroxyl groups in tannic acid, forming iron tannate—a stable, black polymeric compound. This process can be represented simplistically as Fe₂O₃ + tannic acid → iron tannate + H₂O, where the resulting iron tannate layer passivates the metal surface by creating a physical barrier that limits oxygen and moisture access.^[13]^[14] In contrast, rust converters based on phosphoric acid react with both existing rust and underlying ferrous metal to produce an iron phosphate layer, which is highly adherent and serves as an effective corrosion inhibitor by blocking oxygen diffusion to the substrate. The reaction with rust proceeds as Fe₂O₃ + 2H₃PO₄ → 2FePO₄ + 3H₂O, while the reaction with metallic iron is Fe + 2H₃PO₄ → Fe(H₂PO₄)₂ + H₂, yielding iron phosphate that integrates with residual rust to form a cohesive film. This phosphate layer mimics the protective properties of magnetite (Fe₃O₄), reducing galvanic corrosion through decreased electronic conductivity and enhanced barrier effects.^[15]^[13]^[16] The overall protective mechanism involves the formation of either a magnetite-like inorganic film or a polymeric organic-inorganic hybrid, both of which adhere tightly to the metal surface and suppress electrochemical reactions. Electrochemical impedance spectroscopy (EIS) studies demonstrate this efficacy, showing significant increases in impedance modulus (often by orders of magnitude) after treatment, indicating reduced corrosion current densities and slower cathodic processes on rusted mild steel exposed to saline environments. For instance, post-conversion layers exhibit two time constants in Bode plots, reflecting a compact barrier that hinders ion diffusion.^[13]^[17] Efficacy of these mechanisms is influenced by environmental and surface factors, particularly pH and rust thickness. Acidic conditions (typically pH 2–4) accelerate the reaction kinetics by promoting protonation and dissolution of iron oxides, enabling deeper penetration and more complete conversion. However, thick rust layers (>100–200 μm) can limit effectiveness, as the converter may not fully penetrate, leading to incomplete passivation and potential underfilm corrosion.^[15]^[14]

Types of Rust Converters

Rust converters are primarily categorized by their active chemical components, which determine their reaction mechanisms, application suitability, and performance on rusted surfaces. The main types include tannic acid-based, phosphoric acid-based, hybrid formulations, and emerging variants, each tailored to specific rust severities and environmental considerations.^[15] Tannic acid-based rust converters utilize plant-derived tannins, such as those extracted from oak galls or other natural sources, to facilitate an eco-friendly transformation of rust (iron oxide) into stable iron tannate complexes. These converters are particularly effective for treating light to moderate rust layers, as the tannins form a protective, non-conductive film that inhibits further oxidation without aggressive etching of the underlying metal. The reaction typically requires 24-48 hours for full curing under ambient conditions, allowing the chelate to solidify and provide a suitable base for subsequent coatings. This type is favored in environmentally sensitive applications due to its low toxicity and biodegradability compared to acid-heavy alternatives.^[18]^[19] Phosphoric acid-based rust converters employ mineral phosphoric acid to rapidly dissolve and convert rust into iron phosphate salts, creating a hard, inert layer that serves as an effective primer base. These formulations excel on heavier rust accumulations, where quicker penetration and transformation are needed, often achieving visible conversion within minutes to hours. However, their acidic nature can be corrosive to the base metal if over-applied or left in contact too long, potentially etching healthy steel and requiring careful dilution and neutralization during use. This type is widely used in industrial settings for its speed and robustness on severely corroded structures.^[20]^[21]^[22] Hybrid rust converters combine tannic and phosphoric acids with polymers to enhance adhesion and durability of the converted layer, balancing the eco-friendliness of tannins with the rapid action of phosphoric acid. These formulations often incorporate acrylic or epoxy polymers to form a flexible, paint-like barrier that improves bonding with topcoats. Post-2010 developments have integrated silane coupling agents into hybrids, boosting primer compatibility and corrosion resistance by creating covalent bonds at the metal interface, as seen in sol-gel enhanced systems. Such hybrids demonstrate superior performance in mixed rust environments, with improved resistance to mechanical stress and humidity.^[4]^[23] Emerging rust converters focus on nano-enhanced and water-dispersible designs to meet demands for industrial-scale application and long-term protection. Nano-enhanced variants, such as those incorporating MXene or graphene nanosheets, disperse nanoparticles within tannic or phosphoric matrices to accelerate rust penetration and form denser protective films, achieving salt spray resistance up to 500-720 hours in accelerated testing. Water-dispersible formulations, often polymer-emulsified, allow for easy spraying on large surfaces while minimizing volatile organic compounds, enhancing durability in marine or high-humidity settings. These innovations prioritize scalability and reduced environmental impact, with ongoing research emphasizing self-healing properties through nanocontainer integration.^[24]^[25]^[26]

Composition

Typical Ingredients

Rust converters are formulated with a combination of active chemical agents that react directly with iron oxides, binders to create protective films, and supporting additives to enhance application and longevity. The primary active converters are tannic acid and phosphoric acid, which target the rust through distinct chemical interactions. Tannic acid, derived from natural gallotannins such as those found in plant extracts, is typically incorporated at concentrations of 5-20% by weight; it functions by chelating ferric ions from rust (Fe₂O₃ or FeOOH), forming a stable, inert iron tannate complex that passivates the surface.^[27] Phosphoric acid, primarily in its orthophosphoric form (H₃PO₄), is used at 10-30% by weight to facilitate phosphatization, reacting with rust to produce iron phosphate layers that inhibit further oxidation.^[27]^[28] Binders and stabilizers, such as organic polymers including acrylic resins or latex emulsions, comprise 20-40% of the formulation and are essential for forming a durable, flexible film that encapsulates the converted rust, preventing re-corrosion and providing a base for subsequent coatings.^[9] Surfactants, often anionic types like alkyl aryl sulfonates at low levels (typically under 5%), improve the wetting and penetration of the solution on uneven rusted surfaces, ensuring even coverage.^[9] Additional additives include corrosion inhibitors and pH buffers to maintain the formulation's acidity in the range of 2-4, optimizing reactivity without excessive corrosion of the base metal.^[9] Water or organic solvents serve as carriers, making up 30-70% in water-based versions to facilitate application via brushing, spraying, or dipping while keeping the mixture fluid and stable.^[27]^[9]^[29] These components interact synergistically, with the acids converting rust and polymers sealing the result, though detailed reaction pathways depend on the specific rust morphology.

Commercial Formulations

Water-based formulations have dominated the market for rust converters since the 1990s, driven by environmental regulations favoring low-volatile organic compound (VOC) products. These typically comprise approximately 80% water, with VOC content limited to under 50 g/L, enabling straightforward water-based cleanup and broad adoption in do-it-yourself (DIY) applications. For instance, Rust-Oleum's Stops Rust Rust Reformer exemplifies this approach, combining active rust-modifying agents in a water-based matrix to create a paintable surface without extensive surface preparation.^[29]^[4] As of 2025, water-based products continue to lead market growth due to regulatory pressures and environmental awareness, with innovations in bio-based polymers enhancing sustainability.^[30] Solvent-based formulations, while offering superior penetration into oily or contaminated surfaces through inclusion of around 30% organic solvents such as xylene, have largely been phased out in consumer and general industrial use due to increasingly stringent VOC emission regulations. These are now primarily reserved for niche applications, including marine-grade aerosol sprays designed for harsh, oil-exposed environments.^[31]^[32] Primer-integrated products represent a convenient one-step advancement, merging rust conversion with topcoat primer functionality in hybrids like acrylic-polyurethane systems, which achieve touch-dry states in 1-2 hours. Such formulations, as seen in 3M's Mar-Hyde One-Step Rust Converter—a water-based latex containing rust modifiers—directly transform rust into a stable, black primer sealer ready for overcoating, streamlining protection on ferrous metals.^[33] Patented innovations have shaped commercial evolution, including the 1989 US Patent 4,945,017, which employs hydroxylated acids such as gallic acid as reducing agents alongside polymerizable monomers to form durable, in situ coatings on rusted surfaces. Contemporary eco-variants build on this by incorporating bio-based polymers, such as those derived from vegetable oils in non-isocyanate polyurethanes, to minimize environmental footprint while enhancing corrosion resistance in water-borne systems.^[34]^[35]

Applications

Common Uses

Rust converters are widely employed in automotive restoration projects to address underbody rust on vehicles, allowing for direct painting without extensive sanding and thereby facilitating the revival of classic cars. For instance, they transform surface rust on frames, such as those of 1950s trucks, into a stable, paintable coating that seals against further corrosion.^[36] In these applications, the products penetrate rusted areas quickly, enabling restorers to reclaim old parts for extended use without mechanical removal of decay.^[36]^[37] In industrial and structural contexts, rust converters play a key role in corrosion control on steel bridges, pipelines, and machinery, where they neutralize existing rust to create a durable primer surface prior to protective coatings. They are particularly valuable in shipyards for hull maintenance, treating rusted steel components like decks and superstructures to prevent flash rust and ensure adhesion of paints such as epoxies or polyurethanes.^[38]^[39] Products like these are applied to large-scale structures, including cranes, storage tanks, and drilling rigs, providing temporary protection for up to three months if unpainted, which supports maintenance in harsh environments.^[39]^[40] For household and DIY applications, rust converters serve as an effective surface preparation tool for fences, tools, and appliances exposed to light atmospheric rust, converting corrosion into a primed layer that halts progression and prepares for painting. These products are ideal for restoring outdoor metal items like garden equipment or railings, eliminating the need for aggressive sanding and allowing users to achieve a smooth, protected finish.^[41] Homeowners often apply them to everyday metal surfaces to extend lifespan without professional intervention.^[41] In specialized marine environments, rust converters are essential for treating boat fittings, hulls, and offshore platforms, where high humidity and saltwater accelerate rust formation. They neutralize corrosion on steel elements such as winches, rails, and pipelines in corrosive atmospheres, like those on oil rigs, forming an inert blue-black complex that supports subsequent coatings and prevents further degradation.^[42] This application is crucial for maintaining structural integrity in saltwater-exposed settings, often applied via spray or brush for efficient coverage on complex surfaces.^[42]

Application Procedures

Surface preparation is essential for effective rust converter application. Begin by removing loose rust, scale, paint, dirt, grease, oil, and other contaminants using a wire brush, scraper, power tool, or sandpaper. While complete removal of all rust is not required, aim to expose as much bare metal as possible to ensure the converter penetrates and reacts properly; light rust can remain in place. Clean the surface thoroughly with soap and water or a degreaser, rinse well, and allow it to dry completely to prevent interference with the chemical reaction.^[43]^[44] Rust converters can be applied via brush, spray, roller, or dip methods, depending on the product formulation and surface accessibility. Stir or shake the product well before use, and apply one or two thin, even coats directly to the rusted areas, ensuring full coverage without pooling; heavy rust may necessitate a second coat after the first dries. Typical coverage rates range from 200 to 300 square feet per gallon for a single coat, though this varies by product viscosity and rust severity. For tannic acid-based converters, allow at least 24 hours of curing at 70°F (21°C) and 50% relative humidity before proceeding. Application should occur in temperatures between 50°F and 90°F (10°C and 32°C) with humidity below 85% to promote optimal drying and adhesion; ideally below 65%. Avoid windy or dusty conditions.^[43]^[44]^[45] After curing, topcoat the treated surface with a compatible primer or paint, such as oil-based formulations, after the converter has cured (typically 24-48 hours) to seal the converted rust and provide long-term protection; lacquer or aerosol paints may require longer wait times up to 3 days. Test compatibility on a small, inconspicuous area first to ensure proper adhesion and avoid reactions like bubbling. Maintain environmental conditions of 50-90°F (10-32°C) and low humidity during topcoating for best results.^[43]^[45]^[46] Common troubleshooting issues include over-application, which can lead to cracking or poor adhesion due to excessive thickness; apply only enough to wet the surface thinly. If the converter does not adhere well or the topcoat fails, recheck surface cleanliness and test on a small area for compatibility with the chosen paint type, as latex-based paints may not bond effectively with some converters.^[44]^[46]^[47]

Considerations

Advantages and Limitations

Rust converters provide significant advantages in rust treatment, particularly for surface-level corrosion on ferrous metals. One key benefit is their time-saving nature, as they chemically neutralize existing rust without requiring complete mechanical or chemical removal, streamlining the preparation process for painting or coating. This approach is especially versatile for irregular or hard-to-reach surfaces, such as those in automotive underbodies or structural frameworks, where abrasive methods like grinding or wire brushing may be impractical or damage surrounding areas.^[48]^[49] In terms of cost-effectiveness, rust converters reduce labor expenses by avoiding the intensive setup and execution of mechanical removal techniques, making them a practical option for maintenance in industrial or field applications. When properly applied and sealed with a topcoat, they form a stable barrier that can offer long-term corrosion protection lasting 3 to 10 years, depending on environmental exposure and the quality of the overlying paint system.^[50]^[51] Despite these benefits, rust converters have notable limitations. They are generally ineffective on thick or pitted rust layers, as the chemical reaction penetrates only surface rust, often necessitating preliminary mechanical removal for heavy corrosion to prevent ongoing degradation. Application in high-humidity conditions can lead to incomplete conversion, resulting in uneven protection if moisture interferes with the curing process. Additionally, rust converters are not a standalone solution; they must be overcoated with paint or a sealant to achieve durable results, as the converted layer alone offers limited resistance to mechanical wear or re-exposure to corrosive elements.^[52]^[53] Compared to alternative treatments, rust converters excel over mechanical removal methods in terms of accessibility and reduced preparation time for lightly rusted, complex geometries, though they are inferior to sandblasting for addressing heavy, structural corrosion where complete rust elimination is essential. Environmentally, they present a greener option than traditional chromate primers, which rely on toxic hexavalent chromium compounds restricted under regulations like REACH due to health and ecological risks; phosphate-based rust converters avoid such heavy metals while still providing effective passivation.^[54]

Safety and Environmental Aspects

Rust converters, typically formulated with acidic components such as phosphoric acid, pose significant health risks primarily due to their corrosive nature. Direct exposure to the skin or eyes can cause severe burns and irritation, as the solutions often have a pH range of 2-4, leading to chemical damage upon contact.^[55]^[56] Inhalation of vapors or mists may result in respiratory tract irritation, coughing, or more severe effects like sensitization in prolonged exposure scenarios.^[55]^[56] To mitigate these risks, users are recommended to wear personal protective equipment including chemical-resistant gloves, safety goggles or face shields, protective clothing, and ensure adequate ventilation or use a NIOSH-approved respirator in poorly ventilated areas.^[55]^[56] Proper handling and storage are essential to prevent accidents and maintain product stability. Rust converters should be kept out of reach of children and handled only by trained individuals following good industrial hygiene practices, such as washing hands thoroughly after use and avoiding contact with skin or eyes.^[56]^[52] Store containers in a cool, dry, well-ventilated area below 100°F (38°C), away from direct sunlight, freezing temperatures, incompatible materials like strong bases or oxidizers, and in corrosion-resistant packaging to prevent leaks.^[56]^[52] In case of exposure, first aid measures include immediately flushing affected eyes or skin with copious amounts of water for at least 15 minutes while removing contaminated clothing, seeking medical attention promptly; for inhalation, move to fresh air and provide oxygen if breathing is difficult; and for ingestion, rinse the mouth without inducing vomiting and contact a poison center.^[55]^[56] From an environmental perspective, modern rust converters generally exhibit lower toxicity than historical lead-based alternatives, which posed severe bioaccumulation risks.^[57] Phosphoric acid-based formulations can contribute to water acidification through runoff, lowering pH levels and potentially harming aquatic life by disrupting ecosystems and reducing biodiversity.^[58] Additionally, phosphate release from these products may exacerbate eutrophication, leading to algal blooms that deplete oxygen and create dead zones in water bodies.^[58] In contrast, tannic acid-based rust converters are biodegradable and derived from natural sources, offering a more eco-friendly option, though phosphate pollution from combined formulations still requires monitoring to prevent long-term aquatic impacts.^[57]^[59] Regulatory compliance is critical for safe use and disposal. Under EPA standards for aerosol coatings, rust converters must adhere to volatile organic compound (VOC) limits, such as a maximum reactivity of 1.10 grams of ozone per gram of VOC to minimize atmospheric ozone formation.^[60] For broader architectural and industrial maintenance coatings, VOC content is typically limited to less than 250 grams per liter to control air emissions.^[61] Disposal is regulated as hazardous waste if the formulation results in a pH of 2 or less (due to acid content often exceeding 5%), requiring proper containment, avoidance of environmental release, and handling through certified waste facilities to prevent soil and water contamination.^[62]^[63]

References

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Rust converter means a coating designed and labeled exclusively to convert rust to an inert material and which contains a minimum acid content of 1.0 percent ...
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### Summary of Automotive Restoration Uses (Underbody, Classic Cars)
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None
### Summary of Rust Reformer Application Procedures
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### Summary of Krud Kutter Rustex Rust Converter Application Procedures
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### Application Instructions for Automotive Rust Reformer
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### Troubleshooting Tips, Over-Application Issues, and Compatibility Testing for Rust Converter
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Chromate replacement: what does the future hold? - Nature
Apr 12, 2018 · The need for chromate replacements in primers is a field in which only minor advances have been occurring and will be an area where significant ...Missing: rust converter
[56]
[PDF] Draft Risk Evaluation for Diethylhexyl Phthalate (DEHP)
May 1, 2025 · ... Limitations, Assumptions, and Key Sources of Uncertainty for the ... rust converters. Fabrication or use of final product or articles.
[57]
[PDF] RUST EATER & CONVERTER
Reactivity: Phosphoric acid violently polymerizes under the influence of azo compounds and epoxides. On combustion, forms toxic fumes (phosphorous oxides) ...
[58]
[PDF] Safety Data Sheet - Rust-Oleum GHS 16 Section SDS
Effects of Overexposure - Ingestion: Corrosive and may cause severe and permanent damage to mouth, throat and stomach. Harmful if swallowed.Missing: converter | Show results with:converter
[59]
Performance and Surface Modification of Cast Iron Corrosion ... - MDPI
Mar 13, 2024 · Rust converters are based on chemical formulations that can be applied to corroded surfaces, promoting their passivation and the possible ...
[60]
[PDF] Impacts of Phosphates on Water Quality and Aquatic Life
The excessive Phosphorus fertilization of water bodies is a long-standing, well-recognized water quality problem throughout the world. Phosphorus is recognized ...
[61]
Tannic Acid in Rust Prevention & Steel Preservation
Jul 30, 2025 · Tannic Acid in Rust Converters · Converts rust without removing the metal surface · Non-toxic and biodegradable · Forms a stable, paintable surface.
[62]
[PDF] Final Rule: Aerosol Coatings National Volatile Organic Compound ...
Jan 6, 2025 · • “Mold Release Coatings,” with a category limit of 1.10 O3/g VOC;. • “Rust Converter,” with a category limit of 1.10 O3/g VOC;. • “Two ...
[63]
[PDF] Detailed Fact Sheet - U.S. Environmental Protection Agency
This rule limits the amount of volatile organic compounds (VOC) that manufacturers and importers of architectural coatings can put into their products. The rule ...Missing: converters | Show results with:converters
[64]
40 CFR Part 261 -- Identification and Listing of Hazardous Waste
This part identifies those solid wastes which are subject to regulation as hazardous wastes under parts 262 through 265, 268, and parts 270, 271, and 124 of ...Missing: rust converter
[65]
[PDF] Industrial and Hazardous Waste: Rules and Regulations for Small ...
Liquid waste that has a pH of 2 or less (very acidic) or 12.5 or more (very strong base), or any liquid waste that corrodes steel at a certain specified rate.