Automotive High Strength Steel Market latest Statistics on Market Size, Growth, Production, Sales Volume, Sales Price, Market Share and Import vs Export 

Automotive High Strength Steel Market Summary Highlights

The Automotive High Strength Steel Market is undergoing structural transformation as vehicle manufacturers accelerate lightweighting strategies, electrification programs, and crash performance improvements. High strength steel has evolved from a cost-optimization material into a performance-driven engineering solution, particularly across electric vehicles (EVs), SUVs, and next-generation mobility platforms. The market is increasingly defined by advanced high strength steel (AHSS) and ultra-high strength steel (UHSS) grades, which now account for a significant portion of body-in-white structures.

In 2026, high strength steel penetration in vehicle structures is estimated to exceed 62% of total steel usage in passenger vehicles, compared to an estimated 54% in 2023, reflecting accelerated material substitution cycles. For instance, EV platforms require approximately 10–18% higher tensile strength materials compared to internal combustion platforms due to battery weight compensation requirements.

Asia Pacific continues to dominate production and consumption, accounting for nearly 58% of global demand in 2026, supported by strong vehicle production in China, India, Japan, and South Korea. Meanwhile, European OEMs are driving innovation through multi-phase steel applications to meet Euro NCAP crash requirements and CO₂ emission reduction targets.

Automotive High Strength Steel Market Size is estimated to reach approximately USD 48.6 billion in 2026 and is projected to grow at a CAGR of nearly 8.9% through 2032, driven by EV platform expansion and regulatory pressure on emissions and fuel efficiency.

Material innovation remains a central competitive factor. Third generation AHSS is gaining traction due to its balance between ductility and strength, reducing forming complexity while improving safety performance. Production investments in hot stamping capacity and continuous annealing lines are expanding globally to support this transition.

Automotive High Strength Steel Market Statistical Summary

• The Automotive High Strength Steel Market is valued at approximately USD 44.8 billion in 2025, projected to reach USD 48.6 billion in 2026
• Global demand volume is estimated at 41.2 million metric tons in 2026, increasing from 37.5 million metric tons in 2025
• Advanced High Strength Steel accounts for 39% of total Automotive High Strength Steel Market demand in 2026
• Electric vehicles contribute nearly 28% of total Automotive High Strength Steel Market consumption in 2026, projected to reach 41% by 2032
• Passenger vehicles represent 64% of Automotive High Strength Steel Market demand, followed by light commercial vehicles at 23%
• Asia Pacific holds 58% market share, Europe 19%, North America 16%, and rest of world 7%
• Hot stamping steel demand is growing at 11.4% annually due to structural reinforcement requirements
• Ultra-high strength steel usage in crash management systems increased 14% between 2024 and 2026
• Automotive High Strength Steel Market Size is forecast to exceed USD 72 billion by 2032
• Third generation AHSS adoption is expected to increase at 13% CAGR through 2030

Lightweighting Strategies Accelerating Automotive High Strength Steel Market Adoption

The Automotive High Strength Steel Market is strongly influenced by vehicle lightweighting programs designed to improve fuel efficiency and extend EV driving range. Weight reduction remains one of the most measurable performance improvements achievable through material substitution.

For instance, replacing conventional mild steel with advanced high strength steel reduces component weight by 20–35% while maintaining structural integrity. A typical passenger vehicle using AHSS can reduce body structure weight by approximately 80–120 kg.

This transition is particularly visible in EV architecture. Battery packs add approximately 350–600 kg depending on vehicle segment. Automakers compensate by increasing AHSS share in chassis and safety cage structures.

Examples include:

• EV platforms using 65–75% AHSS content in structural components
• Battery enclosure protection structures using martensitic steel above 1200 MPa strength
• Side impact beams increasingly using press hardened steel

Production data indicates AHSS usage per vehicle increased from approximately 180 kg per vehicle in 2022 to nearly 235 kg in 2026.

The Automotive High Strength Steel Market benefits because steel remains 35–52% cheaper than aluminum alternatives on a cost per strength basis. This economic advantage ensures continued adoption, particularly in mass market vehicles.

Growth in global EV production illustrates this driver clearly:

• EV production estimated at 18.2 million units in 2025
• EV production projected at 21.5 million units in 2026
• Expected to exceed 38 million units by 2030

Each EV platform expansion directly increases Automotive High Strength Steel Market consumption due to structural reinforcement needs.

Safety Regulations Driving Automotive High Strength Steel Market Material Innovation

Crash safety regulations continue to act as a structural growth driver for the Automotive High Strength Steel Market. Governments are strengthening crashworthiness requirements, pedestrian safety rules, and rollover protection standards.

Ultra high strength steel grades exceeding 980 MPa tensile strength are now standard in:

• A-pillars
• B-pillars
• Roof rails
• Door intrusion beams
• Front crash structures

Vehicle crash performance improvements illustrate the trend. Vehicles using multi-phase steel structures demonstrate:

• 12–18% improvement in crash energy absorption
• 9–14% reduction in cabin intrusion during side impact tests
• 6–10% improvement in rollover strength

For example, compact SUVs increasingly use press hardened steel in over 30 structural components compared to fewer than 12 components in 2018 designs.

The Automotive High Strength Steel Market is also benefiting from stricter testing protocols. For instance:

Euro NCAP 2026 protocols require enhanced far-side impact protection, which increases UHSS usage in cross-car reinforcement beams.

Similarly, India’s Bharat NCAP safety ratings are pushing OEMs to increase structural steel strength to achieve 5-star ratings. Vehicles targeting premium safety ratings use approximately 40% more high strength steel than entry models.

Automotive High Strength Steel Market growth is therefore directly linked to regulatory evolution rather than cyclical automotive demand alone.

Electric Vehicle Platform Expansion Strengthening Automotive High Strength Steel Market Demand

Electrification remains one of the strongest structural drivers of the Automotive High Strength Steel Market. EV structural architecture differs significantly from ICE platforms, creating new material requirements.

Battery protection structures require:

• Higher impact resistance
• Thermal event containment strength
• Underbody protection reinforcement

For example, EV skateboard platforms use high strength steel cross members with tensile strength between 980 MPa and 1500 MPa.

Material usage shifts illustrate this clearly:

ICE vehicles average:

• 28% conventional steel
• 46% high strength steel
• 6% ultra high strength steel

EV platforms average:

• 18% conventional steel
• 52% high strength steel
• 14% ultra high strength steel

This transition significantly benefits the Automotive High Strength Steel Market.

Automotive High Strength Steel Market Size expansion is closely tied to EV platform investments. Global EV platform investments exceeded USD 320 billion between 2024 and 2026, much of which includes material redesign programs.

Examples of AHSS growth applications include:

• Battery pack reinforcement frames
• Motor mounting structures
• Torsional stiffness reinforcements
• Side sill protection beams

Structural rigidity requirements increased approximately 22% in EV platforms compared to ICE platforms due to battery integration, further increasing Automotive High Strength Steel Market demand.

Manufacturing Technology Advancements Supporting Automotive High Strength Steel Market Growth

The Automotive High Strength Steel Market is also expanding due to advances in forming and processing technologies that allow automakers to utilize stronger steel without manufacturing penalties.

Historically, higher strength steels created forming challenges such as cracking and springback. However, new manufacturing technologies have reduced these constraints.

Key technological developments include:

• Hot stamping technology expanding at 10% annual capacity growth
• Laser welded blanks improving strength distribution efficiency
• Roll forming for ultra high strength structural parts
• Continuous annealing improvements enabling third generation AHSS

Hot stamping capacity increased from approximately 5.8 million tons globally in 2022 to an estimated 7.9 million tons in 2026.

For example, hot stamped components now achieve strengths exceeding 1500 MPa while maintaining dimensional precision.

Automotive High Strength Steel Market expansion is also supported by automation. Robotics integration in forming lines has improved defect rates by approximately 18–26%.

Production efficiency improvements include:

• 12% reduction in scrap rates
• 9% improvement in forming precision
• 15% improvement in throughput efficiency

These improvements reduce the total cost of ownership for OEMs, reinforcing the economic case for Automotive High Strength Steel Market adoption.

Sustainability Pressures Increasing Automotive High Strength Steel Market Utilization

Sustainability targets represent another major structural driver of the Automotive High Strength Steel Market. Steel recycling efficiency remains one of the strongest environmental advantages compared to alternative lightweight materials.

Automotive steel recycling rates exceed 85% globally, compared to approximately:

• 70% for aluminum automotive scrap recovery
• 45–60% for composite materials

Green steel initiatives are also strengthening Automotive High Strength Steel Market positioning. Low carbon steel production using hydrogen-based direct reduction is gaining investment momentum.

Examples include:

• Steel producers targeting 25–40% CO₂ reduction by 2030
• Electric arc furnace expansion increasing recycled steel usage
• OEM supply agreements prioritizing low carbon steel sourcing

Vehicle lifecycle emission reduction strategies increasingly consider material sourcing emissions. High strength steel allows thinner gauges, reducing total material consumption by approximately 8–14% per vehicle.

Automotive High Strength Steel Market demand is also supported by circular economy policies.

For example:

European automotive material recovery regulations require recyclability rates above 85%, favoring steel intensive vehicle designs.

Automotive High Strength Steel Market Size growth is therefore increasingly linked not only to performance but also environmental compliance metrics.

Future projections indicate green steel could account for approximately 18% of Automotive High Strength Steel Market supply by 2032 as decarbonization investments mature.

Automotive High Strength Steel Market Geographical Demand Analysis

The Automotive High Strength Steel Market shows clear geographical concentration patterns driven by vehicle production clusters, EV manufacturing expansion, and steel processing capacity. Demand concentration closely follows global automotive manufacturing hubs rather than raw steel production locations.

Asia Pacific dominates the Automotive High Strength Steel Market due to large-scale automotive manufacturing ecosystems. In 2026, the region accounts for approximately 58% of total consumption, supported by production exceeding 31 million vehicles annually.

China alone contributes nearly 34% of Automotive High Strength Steel Market demand. For instance, EV production in China exceeded 11 million units in 2025 and is projected to reach 13.5 million units in 2026. Each EV uses approximately 260–320 kg of high strength steel, compared to 180–220 kg in conventional vehicles.

India is emerging as a fast-growth geography within the Automotive High Strength Steel Market. Vehicle production is estimated to grow from 5.6 million units in 2025 to 6.3 million units in 2026. Increasing safety regulations and export-oriented manufacturing are increasing AHSS usage by approximately 12–15% annually.

Japan and South Korea remain technology-driven demand centers. For example, hybrid vehicles produced in Japan use approximately 18% higher AHSS content than global averages due to structural optimization programs.

Europe accounts for approximately 19% of Automotive High Strength Steel Market demand. Growth is largely driven by premium vehicle production and strict emission compliance engineering. Germany alone represents nearly 27% of European consumption due to strong luxury vehicle manufacturing.

North America represents about 16% of Automotive High Strength Steel Market demand, supported by pickup truck and SUV production. For instance, full-size pickup trucks use nearly 420–510 kg of high strength steel per vehicle, significantly above global passenger vehicle averages.

Automotive High Strength Steel Market Regional Growth Momentum

Regional demand shifts in the Automotive High Strength Steel Market are increasingly linked to EV investments rather than traditional vehicle output.

For example:

• Southeast Asia vehicle production growing at 7.8% annually is increasing AHSS consumption by nearly 9.2%
  • Mexico automotive exports increasing 6.4% annually is expanding regional Automotive High Strength Steel Market processing demand
  • Eastern Europe EV component production rising 11% annually is increasing UHSS applications

New EV gigafactories indirectly expand the Automotive High Strength Steel Market because each battery plant typically attracts nearby vehicle assembly plants and supplier ecosystems.

For instance, new EV clusters typically increase regional AHSS demand by 180,000–350,000 tons annually within five years of establishment.

This geographic clustering effect is becoming one of the strongest structural demand drivers.

Automotive High Strength Steel Market Production Trend and Supply Statistics

Automotive High Strength Steel production is expanding steadily due to investments in continuous annealing lines, galvanizing lines, and press hardening steel capacity. Automotive High Strength Steel production reached approximately 39 million metric tons in 2025 and is estimated to exceed 42 million metric tons in 2026.

Automotive High Strength Steel production growth is strongest in Asia where new automotive-grade steel lines increased output capacity by nearly 3.2 million tons between 2024 and 2026. Automotive High Strength Steel production expansion is also visible in Europe where decarbonized steel plants are transitioning toward AHSS manufacturing.

Automotive High Strength Steel production is becoming more specialized, with approximately 46% now consisting of advanced multi-phase grades compared to 38% in 2022. Automotive High Strength Steel production efficiency has also improved, with yield improvements of approximately 6–8% due to process automation.

Automotive High Strength Steel production is expected to exceed 55 million metric tons by 2030 as EV platform adoption expands structural steel intensity per vehicle.

Automotive High Strength Steel Market Segmentation by Product Type

The Automotive High Strength Steel Market shows strong segmentation based on steel grade evolution. Demand is shifting toward higher strength categories as safety and lightweighting pressures intensify.

Major product segments include:

• Dual Phase Steel – accounts for nearly 26% of Automotive High Strength Steel Market demand due to strong energy absorption characteristics
  • Transformation Induced Plasticity Steel – approximately 14% share driven by formability advantages
  • Martensitic Steel – about 18% share due to structural reinforcement applications
  • Press Hardened Steel – approximately 16% share driven by crash safety components
  • Third Generation AHSS – about 9% share but fastest growing segment

For instance, dual phase steel demand is growing because it allows weight reduction of approximately 25% compared to conventional steel structures.

Press hardened steel is expanding rapidly because of increased use in safety cages. Vehicle platforms now use between 20 and 35 press hardened components compared to fewer than 10 components a decade ago.

Automotive High Strength Steel Market Segmentation by Vehicle Type

Vehicle segmentation provides further insight into Automotive High Strength Steel Market demand distribution.

Key segmentation highlights:

• Passenger cars account for approximately 64% of Automotive High Strength Steel Market demand
  • SUVs represent nearly 21% share with fastest AHSS intensity growth
  • Light commercial vehicles contribute about 11%
  • Heavy commercial vehicles contribute about 4%

SUV growth particularly supports Automotive High Strength Steel Market expansion. SUV production is projected to grow from 23 million units in 2025 to nearly 26 million units in 2026.

SUV structures require stronger roof strength and side impact protection. For instance, SUVs use approximately 15–22% more UHSS compared to sedans due to rollover safety requirements.

Light commercial vehicles also show rising AHSS penetration. Delivery vans used in e-commerce fleets increased high strength steel usage by approximately 17% between 2023 and 2026 due to durability needs.

Automotive High Strength Steel Market Segmentation by Application

Application-based segmentation further demonstrates structural demand drivers in the Automotive High Strength Steel Market.

Major application highlights:

• Body structure accounts for nearly 38% of demand
  • Chassis applications account for about 24%
  • Safety and crash components represent about 19%
  • Closures and exterior panels account for about 11%
  • Battery protection structures represent about 8% and growing rapidly

Battery protection is the fastest growing segment, expanding nearly 18% annually due to EV demand.

For example:

Battery frames increasingly use 1180 MPa and 1500 MPa grade steels to prevent deformation during impact events.

Side sill reinforcements also show strong growth, increasing approximately 13% annually as OEMs improve side impact ratings.

These application shifts ensure Automotive High Strength Steel Market demand remains structurally supported even during vehicle production fluctuations.

Automotive High Strength Steel Price Dynamics in Raw Material Environment

Automotive High Strength Steel Price movements are strongly influenced by iron ore costs, coking coal prices, energy costs, and automotive demand cycles. However, pricing remains more stable than aluminum due to established supply chains.

Automotive High Strength Steel Price averaged approximately USD 980 per metric ton in 2025 and is estimated to average around USD 1,040 per metric ton in 2026.

Premium AHSS grades typically command 18–32% higher Automotive High Strength Steel Price compared to conventional automotive steel due to processing complexity.

For example:

• Conventional automotive steel averages around USD 780 per ton
  • Dual phase AHSS averages around USD 1,020 per ton
  • Press hardened steel averages around USD 1,180 per ton

Automotive High Strength Steel Price stability is also supported by long-term supply agreements between steel producers and OEMs, reducing volatility compared to spot markets.

Automotive High Strength Steel Price Trend and Forecast Outlook

Automotive High Strength Steel Price Trend analysis indicates moderate upward movement driven by decarbonization investments and energy transition costs.

Automotive High Strength Steel Price Trend projections indicate annual increases of approximately 3–5% through 2030 due to:

• Green steel investments
  • Hydrogen-based steelmaking costs
  • Carbon taxation policies
  • Energy transition capital expenditure

Automotive High Strength Steel Price Trend patterns also show regional differences. European Automotive High Strength Steel Price levels are typically 12–18% higher than Asian prices due to carbon costs and labor expenses.

Automotive High Strength Steel Price Trend movements are also influenced by EV demand cycles. For example, increased EV production in 2026 increased premium AHSS pricing by nearly 6% due to strong demand for structural grades.

Automotive High Strength Steel Price Trend projections indicate prices may reach approximately USD 1,180 per ton by 2029 for advanced grades as green steel adoption increases.

Automotive High Strength Steel Market Cost Competitiveness Versus Alternatives

The Automotive High Strength Steel Market continues to maintain strong cost competitiveness against aluminum and composites despite rising Automotive High Strength Steel Price levels.

Cost comparisons illustrate this advantage:

• AHSS cost per strength unit approximately 35% lower than aluminum
  • Manufacturing conversion costs approximately 22% lower than aluminum body structures
  • Repair costs approximately 18% lower due to steel repair ecosystems

For example, replacing steel with aluminum in body structures increases manufacturing costs by approximately USD 220–380 per vehicle in mass market segments.

Automotive High Strength Steel Price advantages ensure continued adoption particularly in mid-range vehicles where cost sensitivity remains high.

Automotive High Strength Steel Market Supply Chain and Processing Trends

Supply chains in the Automotive High Strength Steel Market are becoming increasingly localized to reduce logistics costs and ensure just-in-time manufacturing.

Processing centers located within 300 km of automotive plants reduce logistics costs by approximately 6–9%.

Examples of supply chain trends include:

• Increased blanking facilities near EV assembly plants
  • Growth in tailored blank production increasing material efficiency by 8–12%
  • Increased digital supply chain integration improving inventory efficiency

Steel processors are also investing in digital quality monitoring systems. Defect detection improvements have reduced rejection rates by approximately 14%.

These supply chain developments strengthen Automotive High Strength Steel Market resilience against global supply disruptions.

Automotive High Strength Steel Market Leading Manufacturers Overview

The Automotive High Strength Steel Market is led by a group of globally integrated steel manufacturers that possess advanced metallurgical capabilities, proprietary AHSS grades, and long-term supply agreements with automotive OEMs. Competition is largely technology-driven, where material performance, weight reduction capability, forming flexibility, and sustainability credentials determine competitive positioning.

The Automotive High Strength Steel Market supplier structure shows dominance by companies capable of producing dual phase steels, complex phase steels, press hardened steels, and third-generation AHSS. Entry barriers remain high due to qualification timelines, which typically require 3–5 years of testing before automotive adoption.

Key manufacturers operating in the Automotive High Strength Steel Market include:

• ArcelorMittal
  • Nippon Steel Corporation
  • POSCO
  • Thyssenkrupp Steel
  • SSAB
  • China Baowu Steel Group
  • JFE Steel Corporation
  • Tata Steel
  • Hyundai Steel
  • United States Steel Corporation
  • Voestalpine Steel Division
  • Ansteel Group

These companies dominate due to their strong R&D investments and established OEM relationships.

Automotive High Strength Steel Market Share by Manufacturers

The Automotive High Strength Steel Market shows a semi-consolidated structure with the top manufacturers controlling a majority of global supply due to their processing infrastructure and automotive certifications.

Market positioning trends indicate:

• Top five companies account for roughly 56–60% of Automotive High Strength Steel Market supply
  • Top ten companies control approximately 74–79% of global Automotive High Strength Steel Market production
  • Regional producers collectively account for about 21–26% of supply

ArcelorMittal maintains leadership due to its global automotive steel footprint and advanced AHSS product lines. Nippon Steel and POSCO follow closely due to strong Asian OEM partnerships and EV material innovation programs.

SSAB and Thyssenkrupp maintain strong European Automotive High Strength Steel Market positions due to premium vehicle manufacturer integration and sustainability investments.

Chinese producers are increasing Automotive High Strength Steel Market share due to domestic EV manufacturing growth, which exceeded 13 million units in 2026, creating strong localized demand for AHSS supply.

Automotive High Strength Steel Market Product Portfolio Strength of Key Companies

Product portfolio depth remains a critical differentiator in the Automotive High Strength Steel Market. Manufacturers compete through specialized AHSS product families designed for structural safety, EV protection, and lightweighting efficiency.

ArcelorMittal leads with its Fortiform series of third-generation AHSS, designed to improve formability while maintaining tensile strengths above 980 MPa. Its Usibor press hardened steel products are widely used in safety cages and structural reinforcements.

POSCO has strengthened its Automotive High Strength Steel Market position through its GIGA STEEL product family, which includes ultra-high strength steels exceeding 1.2 GPa tensile strength designed for EV body reinforcement.

SSAB continues to expand its Docol automotive steel portfolio, focusing on ultra-high strength grades for crash management systems and sustainability-focused fossil-free steel initiatives.

Thyssenkrupp has introduced jetQ AHSS grades that improve cold forming capability while maintaining structural performance. These materials are increasingly used in complex geometry automotive components.

Nippon Steel continues to expand ultra-ductile AHSS materials that improve deformation characteristics during crashes, improving energy absorption performance by approximately 10–15% compared to earlier generation steels.

These product strategies show how the Automotive High Strength Steel Market is shifting toward performance engineered materials rather than commodity grade steel supply.

Automotive High Strength Steel Market Regional Manufacturer Strength

Regional manufacturing advantages continue to shape Automotive High Strength Steel Market competitive positioning.

Asian manufacturers dominate production scale. China Baowu Steel Group benefits from large domestic EV manufacturing demand, which continues to increase structural steel consumption. Hyundai Steel benefits from captive demand from Hyundai and Kia vehicle platforms, ensuring stable Automotive High Strength Steel Market demand.

Japanese producers such as Nippon Steel and JFE Steel maintain strong Automotive High Strength Steel Market positions due to precision manufacturing capabilities and long-standing OEM supply relationships.

European manufacturers maintain technological leadership. SSAB continues to strengthen Automotive High Strength Steel Market competitiveness through fossil-free steel initiatives. Voestalpine focuses on galvanized AHSS used in premium automotive exterior panels and structural components.

North American producers such as United States Steel Corporation are increasing AHSS output due to rising domestic vehicle manufacturing localization trends.

These regional strengths ensure that the Automotive High Strength Steel Market remains geographically diversified while maintaining supplier concentration.

Automotive High Strength Steel Market Strategic Approaches by Manufacturers

Manufacturers in the Automotive High Strength Steel Market are focusing on three major competitive strategies.

Technology development remains the most important factor. Companies are investing heavily in third generation AHSS to improve ductility by approximately 20% while maintaining high tensile strength.

Sustainability investments represent another major strategy. Steel manufacturers are investing in electric arc furnace expansion and hydrogen-based steelmaking processes targeting 25–40% carbon emission reductions by 2030.

Customer integration strategies are also becoming critical. Steel manufacturers increasingly participate in early vehicle development cycles, enabling material optimization at the design stage. This integration increases switching costs and strengthens supplier relationships within the Automotive High Strength Steel Market.

Automotive High Strength Steel Market Emerging Manufacturer Participation

Smaller manufacturers are entering the Automotive High Strength Steel Market through niche specialization rather than direct competition with integrated steel producers.

Growth opportunities for emerging companies include:

• Tailor welded blank production
  • EV battery enclosure steel supply
  • Hot stamped component manufacturing
  • Laser welded automotive structures

Regional steel processors are expanding capacity to support localized automotive production growth. For instance, Indian automotive production growth of approximately 8–10% annually is encouraging domestic AHSS processing expansion.

Chinese mid-tier steel producers are also expanding Automotive High Strength Steel Market exports by focusing on cost competitive dual phase steels and martensitic grades.

These developments show emerging fragmentation at regional levels even as global supply remains concentrated.

Automotive High Strength Steel Market Recent Industry Developments

Recent developments in the Automotive High Strength Steel Market highlight the shift toward electrification, sustainability, and structural performance improvements.

Key developments include:

2026 developments

• Expansion of ultra-high strength EV structural steel grades exceeding 1500 MPa tensile strength
  • Increased supply agreements between AHSS producers and EV manufacturers
  • Expansion of green steel pilot production for automotive applications

2025 developments

• Expansion of third generation AHSS production capacity globally
  • Increased adoption of press hardened steels in electric SUV platforms
  • New AHSS grades designed for battery protection structures

2024 developments

• Investments in hot stamping facilities to support safety structure production
  • Expansion of galvanizing lines supporting corrosion resistant automotive AHSS
  • Development of multi-phase steel for complex automotive geometries