Motor Non-Oriented Silicon Steel in Brazil Trends and Forecast
The future of the motor non-oriented silicon steel market in Brazil looks promising with opportunities in the home appliance, power generator, and new energy vehicle markets. The global motor non-oriented silicon steel market is expected to grow with a CAGR of 5.0% from 2025 to 2031. The motor non-oriented silicon steel market in Brazil is also forecasted to witness strong growth over the forecast period. The major drivers for this market are the increasing demand for energy-efficient motors and the advancements in electric vehicle technology.
• Lucintel forecasts that, within the type category, hot rolled is expected to witness higher growth over the forecast period.
• Within the application category, home appliance is expected to witness the highest growth.
Emerging Trends in the Motor Non-Oriented Silicon Steel Market in Brazil
The motor non-oriented silicon steel market in Brazil is undergoing dynamic transformation driven by the growing emphasis on energy efficiency, industrial automation, and electrification of transportation. As Brazil advances its manufacturing capabilities and infrastructure, the demand for high-performance magnetic materials has increased. Trends such as electric vehicle expansion, renewable energy integration, and local production innovation are reshaping the landscape. These changes are not only stimulating domestic demand but also positioning Brazil as a potential player in global supply chains. The following trends highlight how the market is evolving in response to these shifts across applications and technologies.
• Expansion of Electric Vehicle Manufacturing: Brazil is witnessing increased interest in electric vehicle development, supported by policies encouraging cleaner transportation. This trend is boosting demand for high-efficiency motors, which require non-oriented silicon steel for superior magnetic performance. Local automakers are beginning to invest in EV technologies, and the steel industry is aligning production to meet these needs. This shift enhances opportunities for manufacturers of silicon steel to tap into a growing automotive sector while contributing to Brazil’s sustainable mobility goals.
• Growth of Domestic Appliance Sector: The Brazilian domestic appliance sector, including air conditioners, washing machines, and refrigerators, is expanding with rising consumer demand. These appliances rely on electric motors that use non-oriented silicon steel to improve energy efficiency and performance. With stricter energy efficiency standards being enforced, manufacturers are incorporating higher-quality magnetic materials. This trend supports a steady demand for silicon steel and incentivizes the development of grades that meet regulatory and performance requirements within the household and commercial electronics industries.
• Increased Focus on Energy Efficiency Regulations: Brazilian regulatory bodies are tightening energy efficiency norms across industrial and consumer sectors. Motors that meet these standards require non-oriented silicon steel with optimized magnetic properties to reduce energy loss. As compliance becomes mandatory for more equipment categories, demand for advanced steel grades is expected to increase. This regulatory shift not only encourages material innovation but also pushes manufacturers to upgrade technology and processes, fostering growth and modernization across the motor steel supply chain.
• Localization of Supply Chains: There is a strategic push to reduce dependence on imported materials and strengthen domestic manufacturing in Brazil. This includes the establishment of local production capacities for motor-grade non-oriented silicon steel. By supporting local supply chains, Brazil is aiming to improve resilience, reduce logistics costs, and ensure consistent quality. This localization trend is driving investment in production technology, raw material processing, and workforce training, ultimately making the domestic market more competitive and self-sufficient.
• Adoption of Smart Manufacturing Technologies: Brazilian industries are gradually embracing Industry 4.0 practices, leading to an increased use of robotics and automated machinery. These applications require high-efficiency motors built with precision-engineered non-oriented silicon steel. The adoption of digital technologies also demands enhanced material consistency and traceability. This trend promotes innovation in steel processing and quality control, encouraging the development of new product variants that meet the demands of next-generation automated systems across industrial sectors.
The motor non-oriented silicon steel market in Brazil is being shaped by emerging trends such as EV growth, domestic appliance demand, regulatory reforms, localized production, and digital manufacturing. Together, these trends are transforming the market from a traditionally import-dependent landscape into a more innovative and self-sustaining sector. As Brazil continues to prioritize energy efficiency and advanced manufacturing, the market for non-oriented silicon steel will become increasingly central to the country’s industrial and sustainability goals, offering significant opportunities for value creation and technological advancement.
Recent Developments in the Motor Non-Oriented Silicon Steel Market in Brazil
Brazil’s motor non-oriented silicon steel (NGOES) market is undergoing a transformative phase, driven by rising demand for energy-efficient electric motors across electrification, industrial automation, and renewables. Key shifts include evolving energy policies, domestic supply chain strengthening, and material innovation tailored to electric vehicles and high-efficiency motors. Local steelmakers are adapting through improved alloy and coating technologies, smart manufacturing practices, and sustainability initiatives. Together, these developments are reshaping Brazil’s NGOES landscape, enhancing performance, resilience, and competitiveness amid a global shift toward more efficient, eco-friendly motor systems.
• Advanced Alloy & Coating Technologies: Manufacturers in Brazil are refining NGOES with higher silicon alloys and improved coatings to boost magnetic performance and thermal resistance. Global trends show adoption of thin gauges and silicon-aluminum blends to cut core losses by up to ~20%. Locally, Brazilian producers are integrating these technologies into domestic production, enabling motors to meet stricter efficiency standards while reducing energy consumption. These advancements differentiate suppliers and help position Brazilian materials competitively, supporting applications in EVs, industrial systems, and renewables.
• Smart Manufacturing & Supply Chain Localization: Digital transformation through AI, IoT, and automation is enhancing quality control and precision in NGOES mills, mirroring global moves toward smart manufacturing. Simultaneously, Brazil is onshoring key inputs like recycled silicon and scrap-based feedstocks, reducing reliance on volatile global supply chains. This dual strategy improves production efficiency, shortens lead times, and bolsters resilience against disruptions, allowing Brazilian producers to better serve domestic demand and compete in regional markets.
• Energy Efficiency Standards Driving Material Upgrades: Tighter motor efficiency mandates aligned with global frameworks like IE4/IE5 are increasing demand for higher-grade NGOES. Motors with ultra-low core losses now require premium materials. Brazilian manufacturers are thus upgrading NGO steel grades (e.g., finer thickness, lower losses) and optimizing coatings to comply with stringent energy regulations. This regulatory pressure boosts domestic consumption of premium NGOES and spurs further R&D investment to maintain compliance and enhance motor performance.
• Circular Economy & Sustainability Integration: Driven by Brazil’s growing green steel ambitions, leveraging EAF scrap recycling and potential hydrogen DRI transitions, NGOES producers are emphasizing eco-friendly practices. Efforts include increasing recycled content, lowering carbon intensity, and adopting biochar or Hâ‚‚-based steelmaking routes. These initiatives align with ESG goals and emerging environmental regulations, improving NGOES’s attractiveness to motor makers targeting green certifications. Ultimately, this circular economy mindset strengthens Brazil’s sustainability credentials and boosts high-value steel offerings.
• R&D Investment & Local Standards Compliance: Brazilian firms are boosting R&D efforts, collaborating with universities and global partners to enhance NGOES performance. Focus areas include alloy metallurgy, advanced coatings, and heat treatment optimization. Added emphasis is placed on harmonizing national standards (e.g., ABNT) with global IEC norms, a move prompted by past localization mandates. This builds technical capacity, ensures export readiness, and positions Brazilian NGOES for broader acceptance across both domestic and international motor makers.
By integrating advanced alloy and coating technologies, adopting digital manufacturing, aligning with energy efficiency standards, embracing sustainability, and enhancing R&D while harmonizing with global norms, Brazil is fundamentally advancing its motor NGOES market. These intertwined developments are elevating material quality, reducing emissions, improving supply chain resilience, and enabling Brazilian steelmakers to meet growing demand from electrified transport, industrial, and renewable sectors, reinforcing Brazil’s role in the global NGOES landscape.
Strategic Growth Opportunities for Motor Non-Oriented Silicon Steel Market in Brazil
Brazil’s motor non-oriented silicon steel (NGOES) market is evolving rapidly due to its critical role in electric motor applications across energy, mobility, and industrial sectors. As industries pursue energy efficiency and electrification, demand for high-performance electrical steels is rising. Brazil’s growing focus on localized production, green manufacturing, and compliance with global efficiency standards is unlocking new application-based opportunities. These developments are allowing domestic players to diversify and scale their capabilities while aligning with broader technological and environmental shifts.
• Electric Vehicle (EV) Motors: The transition toward electric mobility is creating a major growth avenue for NGOES in Brazil. EV traction motors demand electrical steel with high magnetic permeability and low core loss to improve motor efficiency and durability. Brazilian steel manufacturers are adapting their processes to supply premium NGOES that meet these requirements, thereby supporting local EV assembly ecosystems. Collaborations with automotive OEMs are further enabling the development of tailored grades, positioning the domestic steel industry as a critical enabler of Brazil’s e-mobility ambitions.
• Industrial Motors and Drives: Industrial automation and manufacturing modernization across Brazil are increasing demand for energy-efficient motors used in pumps, fans, compressors, and other industrial equipment. These motors require NGOES with superior magnetic performance to support continuous operation under high loads. With the government and private sector promoting high-efficiency motor adoption, steelmakers are developing customized NGOES solutions to meet these industrial specifications. This application area represents a long-term growth opportunity as industries seek to reduce energy consumption and enhance operational reliability.
• Renewable Energy Equipment: Generators and converters in wind and solar energy systems utilize motors that depend on NGOES for their core components. As Brazil expands its renewable energy infrastructure, NGOES plays a key role in enabling efficient energy conversion. Steel producers are aligning with this transition by offering low-loss electrical steels suitable for turbine and inverter applications. This positions NGOES as a foundational material in Brazil’s green energy value chain, enabling both environmental gains and industrial growth in the clean energy sector.
• Household and Commercial Appliances: Appliances such as refrigerators, washing machines, air conditioners, and compressors rely on compact, energy-efficient motors that use NGOES laminations. As energy efficiency regulations become stricter and consumer demand grows for eco-friendly appliances, appliance manufacturers are seeking higher-quality electrical steel inputs. Brazilian producers are responding by offering appliance-grade NGOES with improved coating and loss characteristics, ensuring compatibility with modern inverter motor designs. This strengthens their role in the home appliance supply chain while supporting the market’s move toward sustainability.
• Automation, Robotics, and Specialized Equipment: Precision motors in automation systems, robotics, medical devices, and specialized industrial tools require high-frequency NGOES with low core loss and exceptional uniformity. As Brazil gradually adopts Industry 4.0 practices and automated machinery, this application segment is expected to grow. Domestic steelmakers can capture this opportunity by developing and supplying specialized NGOES that meet exacting technical standards. Collaborations with technology developers and OEMs further enhance product innovation and establish a niche, high-value market for advanced steel materials.
Strategic growth opportunities in Brazil’s NGOES market are being driven by the expanding demand in electric mobility, industrial systems, renewable energy, household appliances, and automation technologies. These application areas are pushing producers to innovate, localize, and upgrade their product offerings. As a result, Brazil is strengthening its domestic value chains and positioning itself as a competitive supplier of advanced electrical steel solutions. These shifts not only support industrial development but also contribute to broader goals of energy efficiency and sustainable growth.
Motor Non-Oriented Silicon Steel Market in Brazil Driver and Challenges
The motor non-oriented silicon steel market in Brazil is shaped by a dynamic mix of technological advancements, economic conditions, and evolving regulatory frameworks. Demand is growing due to the increasing need for energy-efficient motors in industries such as automotive, manufacturing, appliances, and renewable energy. At the same time, the market faces challenges related to raw material constraints, standardization, and infrastructure. Understanding these key drivers and barriers is essential for stakeholders seeking to navigate and invest effectively in this sector. The following section outlines the most influential forces currently impacting the development of the motor non-oriented silicon steel market in Brazil.
The factors responsible for driving the motor non-oriented silicon steel market in Brazil include:
• Electrification of Transportation: The shift towards electric vehicles and hybrid mobility solutions is a major driver of the Brazilian motor non-oriented silicon steel market. Traction motors used in electric powertrains require high-performance steel to achieve optimal efficiency and magnetic performance. As Brazil increases its investment in local electric vehicle production and infrastructure, demand for advanced grades of non-oriented silicon steel is growing. This trend supports domestic steel producers and encourages innovation in material development, opening up long-term opportunities for supply chain localization and value-added manufacturing.
• Industrial Energy Efficiency Mandates: Government policies and industrial goals aimed at reducing energy consumption are driving the need for more efficient electric motors. Regulations encouraging the adoption of IE3 and IE4 standard motors have made low-loss non-oriented silicon steel a critical material. Manufacturers are increasingly turning to high-quality steel solutions to improve the performance of motors used in pumps, compressors, fans, and conveyors. This regulatory emphasis is fostering domestic material upgrades and encouraging partnerships between steel producers and motor manufacturers for product optimization.
• Growth in Renewable Energy Applications: Brazil is significantly expanding its solar and wind energy sectors, both of which require motors and generators that depend on motor-grade silicon steel. These renewable energy systems rely on efficient magnetic cores for power conversion and delivery. Non-oriented silicon steel provides the necessary magnetic properties and thermal stability for such applications. As clean energy becomes a national priority, steel manufacturers are finding new application areas and market opportunities in the design and fabrication of energy-efficient electrical systems.
• Technological Advancements in Steel Processing: Ongoing innovation in steel manufacturing technologies is enhancing the quality and performance of motor-grade silicon steel. Developments include thinner laminations, improved coatings, and alloy composition optimization to reduce core loss and enhance motor performance. Brazilian steelmakers investing in automation and precision control are better able to meet the technical specifications demanded by motor producers. This shift toward high-end production capabilities is increasing competitiveness in both domestic and international markets, positioning Brazil as a potential regional hub for electrical steel.
• Localization of Supply Chains: Disruptions in global supply chains have highlighted the strategic importance of domestic material production. Brazil is responding by encouraging local sourcing and reducing reliance on imports. This creates opportunities for national steel producers to scale production, enhance quality, and invest in infrastructure. Localizing supply chains not only increases resilience but also aligns with broader national objectives to boost manufacturing independence and economic development. As a result, steel producers are better positioned to meet rising demand from local motor manufacturers and other downstream users.
Challenges in the motor non-oriented silicon steel market in Brazil are:
• Raw Material Volatility: The production of non-oriented silicon steel depends on stable access to high-grade iron ore, silicon alloys, and energy inputs. Fluctuations in the prices and availability of these raw materials can severely impact production costs and profit margins. Brazilian steel producers must navigate these risks by improving procurement strategies, exploring local sourcing alternatives, and investing in recycling technologies. Managing this volatility is essential to maintaining cost competitiveness and ensuring uninterrupted production of motor-grade steel.
• Standardization and Technical Barriers: Adapting to international standards such as IEC and aligning them with local regulatory requirements remains a challenge for Brazilian manufacturers. Many domestic motor producers require steel that meets very specific magnetic and mechanical properties. This requires significant investment in research, testing, and process control. Smaller producers may lack the technical expertise or resources to consistently meet these evolving demands, creating a gap between global expectations and local capabilities that can limit market access and growth potential.
• Infrastructure and Capital Investment Constraints: Establishing and upgrading facilities to produce advanced grades of non-oriented silicon steel requires high levels of capital investment and technical infrastructure. Some domestic producers may find it difficult to access the necessary funding or technologies. Without adequate facilities for annealing, coating, and laminating, Brazil may struggle to fully meet the growing demand for high-performance electrical steels. This infrastructure limitation can hinder the competitiveness of local producers, especially in high-value applications like electric mobility and renewable energy.
The Brazilian motor non-oriented silicon steel market is advancing through strong demand drivers such as electrification, renewable energy, industrial efficiency, and domestic production efforts. However, it also faces structural challenges like raw material dependency, limited technical standardization, and infrastructure investment barriers. The combined effect of these forces is shaping a market that holds significant potential but requires strategic alignment, innovation, and policy support. By addressing these challenges proactively, Brazil can strengthen its position in the regional and global electrical steel ecosystem.
List of Motor Non-Oriented Silicon Steel Market in Brazil Companies
Companies in the market compete on the basis of product quality offered. Major players in this market focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leverage integration opportunities across the value chain. Through these strategies, motor non-oriented silicon steel companies cater to increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the motor non-oriented silicon steel companies profiled in this report include:
• Company 1
• Company 2
• Company 3
• Company 4
• Company 5
• Company 6
• Company 7
Motor Non-Oriented Silicon Steel Market in Brazil by Segment
The study includes a forecast for the motor non-oriented silicon steel market in Brazil by type and application.
Motor Non-Oriented Silicon Steel Market in Brazil by Type [Analysis by Value from 2019 to 2031]:
• Hot Rolled
• Cold Rolled
Motor Non-Oriented Silicon Steel Market in Brazil by Application [Analysis by Value from 2019 to 2031]:
• Home Appliances
• Power Generator
• New Energy Vehicles
• Others
Features of the Motor Non-Oriented Silicon Steel Market in Brazil
Market Size Estimates: Motor non-oriented silicon steel in Brazil market size estimation in terms of value ($B).
Trend and Forecast Analysis: Market trends and forecasts by various segments.
Segmentation Analysis: Motor non-oriented silicon steel in Brazil market size by type and application in terms of value ($B).
Growth Opportunities: Analysis of growth opportunities in different type and application for the motor non-oriented silicon steel in Brazil.
Strategic Analysis: This includes M&A, new product development, and competitive landscape of the motor non-oriented silicon steel in Brazil.
Analysis of competitive intensity of the industry based on Porter’s Five Forces model.
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FAQ
Q1. What are the major drivers influencing the growth of the motor non-oriented silicon steel market in Brazil?
Answer: The major drivers for this market are the increasing demand for energy-efficient motors and the advancements in electric vehicle technology.
Q2. What are the major segments for motor non-oriented silicon steel market in Brazil?
Answer: The future of the motor non-oriented silicon steel market in Brazil looks promising with opportunities in the home appliance, power generator, and new energy vehicle markets.
Q3. Which motor non-oriented silicon steel market segment in Brazil will be the largest in future?
Answer: Lucintel forecasts that hot rolled is expected to witness the higher growth over the forecast period.
Q4. Do we receive customization in this report?
Answer: Yes, Lucintel provides 10% customization without any additional cost.
This report answers following 10 key questions:
Q.1. What are some of the most promising, high-growth opportunities for the motor non-oriented silicon steel market in Brazil by type (hot rolled and cold rolled), and application (home appliances, power generator, new energy vehicles, and others)?
Q.2. Which segments will grow at a faster pace and why?
Q.3. What are the key factors affecting market dynamics? What are the key challenges and business risks in this market?
Q.4. What are the business risks and competitive threats in this market?
Q.5. What are the emerging trends in this market and the reasons behind them?
Q.6. What are some of the changing demands of customers in the market?
Q.7. What are the new developments in the market? Which companies are leading these developments?
Q.8. Who are the major players in this market? What strategic initiatives are key players pursuing for business growth?
Q.9. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by material or product substitution?
Q.10. What M&A activity has occurred in the last 5 years and what has its impact been on the industry?
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