Advanced High-Strength Steel Automotive Market is expected to reach $22 billion by 2019. Environmental, governmental, and customer demands to reduce fuel consumption, improve driver safety, ensure product reliability, and increase affordability have prompted the automotive industry and material suppliers to develop a wide range of
solutions to meet these requirements. AHSS materials are becoming the dominant engineering alloy for addressing above needs in vehicles because of its affordability, performance, manufacturability, and recyclability.
A total of 80 figures / charts and 30 tables are provided in this 162-page report to help in your business decisions. Sample figures with some insights are shown below. To learn the scope of, benefits, companies researched and other details of advanced high-strength steel automotive market report,
download the report brochure.
The study also includes AHSS materials market forecasts through 2019, segmented by regions, material types, and applications as follows:
Aadvanced high-strength steel automotive market segmented by regions:
-
North America
-
Europe
-
Asia-Pacific
-
Rest of the World
Advanced high-strength steel automotive market segmented by types of materials:
-
Dual Phase Steels
-
Martensitic Steels
-
Boron Steels
-
TRIP Steels
-
Others
Advanced high-strength steel automotive market segmented by applications:
-
Body and Closures
-
Suspensions
-
Bumper and Intrusion Beams
-
Others
Advanced high-strength steel automotive companies profiled in this market report include ArcelorMittal SA, ThyssenKrupp AG, POSCO, Tata Steel Limited, and SSAB AB are some of the suppliers of AHSS materials for various applications in the automotive industry.
On the basis of its comprehensive research, Lucintel forecasts that the automotive advanced high-strength steel materials market is expected to depict a high growth during 2014-2019. The dual phase steel segment will remain the largest segment in the automotive AHSS market during the forecast period. In terms of applications, body and closures segment will be the major segment.
Some of the features of this report:
-
Market size estimates: Global advanced high-strength steel automotive market size estimation in terms of volume (M lbs) and value ($ Mil) shipment.
-
Trend and forecast analysis: Global advanced high strength steels automotive industry trend (2008-2013) and forecast (2014-2019) by regions and by segments.
-
Segmentation analysis: Global advanced high-strength steel automotive market size by various application segments such as body and closures, suspensions, bumpers and intrusion beams and others.
-
Regional analysis: Global advanced high strength steels in automotive industry breakdown by key regions such as North America, Europe, Asia Pacific, and Rest of World.
-
Growth opportunities: Analysis on growth opportunities in different applications and regions.
-
Strategic analysis: This includes M&A, new product development, competitive landscape, and expansion strategies of global advanced high strength steels in automotive industry suppliers.
-
Emerging applications: Emerging applications of global advanced high strength steels in automotive industry in various markets.
-
Analysis of competitive intensity of the industry based on Porter’s Five Forces model.
Table of Contents
1. Executive Summary
2. AHSS in Automotive Industry Background and Classifications
2.1: Introduction
2.1.1: Industry classification
2.1.2: Markets served
2.1.3: Supply chain
3. Market Trend and Forecast Analysis
3.1: Market analysis 2013
3.1.1: AHSS in global automotive industry by material type
3.1.2: AHSS in global automotive industry by application
3.1.3: AHSS for regional automotive industry by value and volume
3.2: Market trend 2008-2013
3.2.1: Macroeconomic trends
3.2.2: AHSS in global automotive industry by value and volume
-
By types of materials
-
Dual phase steels
-
Martensitic steels
-
Boron steels
-
TRIP steels
-
Others
-
By applications
-
Body and closures
-
Suspensions
-
Bumper and intrusion beams
-
Others
3.2.3: AHSS in North American automotive industry trend by value and volume
3.2.4: AHSS in European automotive industry trend by value and volume
3.2.5: AHSS in APAC automotive industry trend by value and volume
3.2.6: AHSS in ROW automotive industry trend by value and volume
3.2.7: Industry drivers and challenges
3.3: Market forecast 2013–2018
3.3.1: Macroeconomic forecasts
3.3.2: AHSS in global automotive industry forecast by value and volume
-
By types of materials
-
Dual phase steels
-
Martensitic steels
-
Boron steels
-
TRIP steels
-
Others
-
By applications
-
Body and closures
-
Suspensions
-
Bumper and intrusion beams
-
Others
3.3.3: AHSS in North American automotive industry forecast by value and volume
3.3.4: AHSS in European automotive industry forecast by value and volume
3.3.5: AHSS in APAC automotive industry forecast by value and volume
3.3.6: AHSS in ROW automotive industry forecast by value and volume
4. Competitor Analysis
4.1: Product portfolio analysis
4.2: Market share analysis
4.3: Growth leadership analysis
4.4: Porter’s Five Forces analysis
5. Growth Opportunity & Strategic Analysis
5.1: Growth opportunities of AHSS in global automotive industry by region
5.2: Emerging trends in AHSS materials in global automotive industry
5.3: Strategic analysis
5.3.1: New product development
5.3.2: Expansion strategy
5.4: Growth strategies for AHSS materials suppliers
5.4.1: Opportunities for automotive AHSS materials across the globe
5.5: Innovations in AHSS materials for global automotive industry
5.6: Mergers and acquisitions in global AHSS market
6. Company Profiles of Leading Players
7. Customer Analysis
7.1: Customers in different segments
7.2: Customer’s geographic reach
7.3: Major customer profiles
List of Figures
Chapter 2.AHSS in Automotive Industry Background and Classifications
Figure 2.1: Schematic of thermoplastic tape processing
Figure 2.2: Classification of AHSS materials for global automotive industry by material type and by application
Figure 2.3: Microstructure of dual phase steel
Figure 2.4: Microstructure of transformation induced plasticity steel
Figure 2.5: Microstructure of martensitic steel
Figure 2.6: Microstructure of complex phase steel
Figure 2.7: Microstructure of ferritic-bainitic steel
Figure 2.8: Suspension arm
Figure 2.9: Bumper beam
Figure 2.10: Supply chain of AHSS materials in the global automotive industry
Chapter 3.Market Trend and Forecast Analysis
Figure 3.1: Global automotive AHSS materials demand ($B) as compared to total automotive steel materials demand in 2013
Figure 3.2: Global automotive AHSS materials demand (Kilo Tons) as compared to total automotive steel materials demand in 2013
Figure 3.3: AHSS in global automotive industry ($B) distribution by material type in 2013
Figure 3.4: AHSS in global automotive industry ($B) by material type in 2013
Figure 3.5: AHSS in global automotive industry (Kilo Tons) distribution by material type in 2013
Figure 3.6: AHSS in global automotive industry (Kilo Tons) by material type in 2013
Figure 3.7: AHSS materials for global automotive industry ($B) distribution by application in 2013
Figure 3.8: AHSS materials for global automotive industry ($B) by application in 2013
Figure 3.9: AHSS materials for global automotive industry ($B) distribution by region in 2013
Figure 3.10: AHSS materials for global automotive industry (Kilo Tons) distribution by region in 2013
Figure 3.11: Global GDP growth rate trend
Figure 3.12: Global light vehicle production growth rate trend
Figure 3.13: Trend of global per capita income
Figure 3.14: Regional GDP growth rate trend at constant price
Figure 3.15: Regional light vehicle production growth rate trend
Figure 3.16: Global and regional per capita income trend
Figure 3.17: AHSS materials for global automotive industry ($B) growth trends (2008-2013)
Figure 3.18: AHSS materials for global automotive industry (Kilo Tons) growth trends (2008-2013)
Figure 3.19: AHSS in global automotive industry ($B) trend by material type during 2008-2013
Figure 3.20: Growth Rate of AHSS in global automotive industry ($B) by material type during 2012-2013
Figure 3.21: CAGR of AHSS in global automotive industry ($B) by material type during 2008-2013
Figure 3.22: AHSS in global automotive industry (Kilo Tons) trend by material type during 2008-2013
Figure 3.23: Growth rate of AHSS in global automotive industry (Kilo Tons) by material type during 2012-2013
Figure 3.24: CAGR of AHSS in global automotive (Kilo Tons) by material type during 2008-2013
Figure 3.25: AHSS materials for global automotive industry ($B) trend by application during 2008-2013
Figure 3.26: Growth rate in AHSS materials for global automotive industry ($B) by application during 2012-2013
Figure 3.27: CAGR in AHSS materials for global automotive industry ($B) by application during 2008-2013
Figure 3.28: AHSS materials for North American automotive industry ($B) trend 2008-2013
Figure 3.29: AHSS materials for North American automotive industry (Kilo Tons) trend 2008-2013
Figure 3.30: AHSS materials for European automotive industry ($B) trend 2008-2013
Figure 3.31: AHSS materials for European automotive industry (Kilo Tons) trend 2008-2013
Figure 3.32: AHSS materials for APAC automotive industry ($B) trend 2008-2013
Figure 3.33: AHSS materials for APAC automotive industry (Kilo Tons) trend 2008-2013
Figure 3.34: AHSS materials for ROW automotive industry ($B) trend 2008-2013
Figure 3.35: AHSS materials for ROW automotive industry (Kilo Tons) trend 2008-2013
Figure 3.36: Drivers and challenges of AHSS materials for global automotive industry
Figure 3.37: Global GDP growth rate forecast
Figure 3.38: Global light vehicle production growth rate forecast
Figure 3.39: Forecast of global per capita income
Figure 3.40: Regional GDP growth rate forecast at constant price
Figure 3.41: Regional light vehicle production growth rate forecast
Figure 3.42: Global and regional per capita income forecast
Figure 3.43: AHSS materials for global automotive industry ($B) growth forecast 2014-2019
Figure 3.44: AHSS materials for global automotive industry (Kilo Tons) growth forecast 2014-2019
Figure 3.45: AHSS in global automotive industry ($B) forecast by material type during 2014-2019
Figure 3.46: Growth forecast of AHSS in global automotive industry ($B) by material type during 2014-2015
Figure 3.47: CAGR forecast of AHSS in global automotive industry ($B) by material type during 2014-2019
Figure 3.48: AHSS in global automotive industry (Kilo Tons) forecast by material type during 2014-2019
Figure 3.49: Growth forecast of AHSS in global automotive industry (Kilo Tons) by material type during 2014-2015
Figure 3.50: CAGR forecast in global automotive AHSS market (Kilo Tons) by material type during 2014-2019
Figure 3.51: AHSS materials for global automotive industry ($B) forecast by application during 2014-2019
Figure 3.52: Growth forecast in AHSS materials for global automotive industry ($B) by application during 2014-2015
Figure 3.53: CAGR forecast in AHSS materials for global automotive industry ($B) by application during 2014-2019
Figure 3.54: AHSS materials for North American automotive industry ($B) forecast 2014-2019
Figure 3.55: AHSS materials for North American automotive industry (Kilo Tons) forecast 2014-2019
Figure 3.56: AHSS materials for European automotive industry ($B) forecast 2014-2019
Figure 3.57: AHSS materials for European automotive industry (Kilo Tons) forecast 2014-2019
Figure 3.58: AHSS materials for APAC automotive industry ($B) forecast 2014-2019
Figure 3.59: AHSS materials for APAC automotive industry (Kilo Tons) forecast 2014-2019
Figure 3.60: AHSS materials for ROW automotive industry ($B) forecast 2014-2019
Figure 3.61: AHSS materials for ROW automotive industry (Kilo Tons) forecast 2014-2019
Chapter 4.Competitor Analysis
Figure 4.1: Market presence of major players of AHSS materials for global automotive industry
Figure 4.2: Market share analysis of top five players of AHSS materials for global automotive industry: 2013
Figure 4.3: Market share in terms of $ value by top five suppliers in AHSS materials for automotive industry in 2013
Figure 4.4: Growth leadership matrix in AHSS materials for global automotive industry
Figure 4.5: Porter’s Five Forces industry analysis for AHSS materials in global automotive industry
Chapter 5.Growth Opportunity & Strategic Analysis
Figure 5.1: Growth forecasts in various regions
Figure 5.2: Emerging trends in AHSS materials for global automotive industry
Figure 5.3: Major capacity expansion of automotive AHSS materials by major players
Figure 5.4: Growth strategies for automotive AHSS material suppliers
Figure 5.5: Automotive AHSS materials’ opportunities across the globe
Figure 5.6: B-pillar made from Usibor® 1500
Figure 5.7: DP1000HY-GI used in A and B pillar reinforcements, sills, and cross members
List of Tables
Chapter 1.Executive Summary
Table 1.1: AHSS materials in the global automotive industry parameters and attributes–materials perspective
Chapter 3.Market Trend and Forecast Analysis
Table 3.1: Vehicle penetration rate of major countries
Table 3.2: Market trends (2008-2013) in AHSS materials for global automotive industry by value and volume
Table 3.3: Average growth rates for one, three, and five years in the AHSS materials in the global automotive industry in terms of value and volume
Table 3.4: Market trends (2008-2013) in AHSS in global automotive industry by material type and value
Table 3.5: Market trends (2008-2013) in global automotive AHSS market by material type by volume
Table 3.6: Market trends (2008-2013) in AHSS materials for global automotive industry by application
Table 3.7: Market trends (2008-2013) in AHSS materials for North American automotive industry by value and volume
Table 3.8: Average growth rates for one, three, and five years in AHSS materials for North American automotive industry in terms of value and volume
Table 3.9: Market trends (2008-2013) in AHSS materials for European automotive industry by value and volume
Table 3.10: Average growth rates for one, three, and five years in AHSS materials for European automotive industry in terms of value and volume
Table 3.11: Market trends (2008-2013) in AHSS materials for APAC automotive industry by value and volume
Table 3.12: Average growth rates for one, three, and five years in AHSS materials for APAC automotive industry in terms of value and volume
Table 3.13: Market trends (2008-2013) in AHSS materials for row automotive industry by value and volume
Table 3.14: Average growth rates for one, three, and five years in AHSS materials for row automotive industry in terms of value and volume
Table 3.15: Market forecast (2014-2019) in AHSS materials for global automotive industry
Table 3.16: Average growth rates for one, three, and five years in the AHSS materials for global automotive industry in terms of value and volume
Table 3.17: Market forecast (2014-2019) in global automotive AHSS market by material type and value
Table 3.18: Market forecast (2014-2019) in global automotive AHSS market by material type and volume
Table 3.19: Market forecast (2014-2019) in AHSS materials for global automotive industry by application
Table 3.20: Market forecast (2014-2019) in AHSS materials for North American automotive industry by value and volume
Table 3.21: Average growth rates for one, three, and five years in AHSS materials for North American automotive industry in terms of value and volume
Table 3.22: Market forecast (2014-2019) in AHSS materials for European automotive industry by value and volume
Table 3.23: Average growth rates for one, three, and five years in AHSS materials for European automotive industry in terms of value and volume
Table 3.24: Market forecast (2014-2019) in AHSS materials for APAC automotive industry by value and volume
Table 3.25: Average growth rates for one, three, and five years in AHSS materials for APAC automotive industry in terms of value and volume
Table 3.26: Market forecast (2014-2019) in AHSS materials for row automotive industry by value and volume
Table 3.27: Average growth rates for one, three, and five years in AHSS materials for row automotive industry in terms of value and volume
Chapter 4.Competitor Analysis
Table 4.1: Rankings of suppliers based on automotive AHSS revenue
Chapter 5.Growth Opportunity & Strategic Analysis
Table 5.1: New product launches by the players in the AHSS materials for global automotive industry
Table 5.2: Major expansion and focused business segments of automotive AHSS suppliers
Chapter 7.Customer Analysis
Table 7.1: Major customers/end users of the global automotive AHSS for different market segments
Table 7.2: Major global upcoming automotive projects
Please sign in or fill up below form to get sample pages on Growth Opportunities for Advanced High-Strength Steel Automotive Market. We will email you the sample pages.
At Lucintel, we respect your privacy and maintain the confidentiality of information / data provided by you
* These fields are mandatory. At Report Banana, we respect your privacy and maintain the confidentiality of information / data provided by you.