Advanced High-Strength Steels--New Types on the Block
The next major breakthrough in steelmaking came in the mid-’90s when steel suppliers further refined thermalmechanical processing, built new equipment such as continuous-annealing lines, and began producing today’s advanced high-strength steels (AHSS), with tensile strengths in the range of 440 to 980, with some steels now offering 1400-MPa tensile strength. Within the next few years, industry analysts predict that as much as half of the steels in automobiles will be AHSS.
As AHSS products have begun to make a strong presence in the market, the amount of information on them—their characteristics and properties, and tips for forming and fabricating them—also has increased. For example, the International Iron and Steel Institute now offers a publication titled Advanced High Strength Steel Application Guidelines, available on its website, http://www.worldautosteel.org/. The publication, updated in September 2006, is a must reference for any company working with AHSS. It describes the different types of AHSS—dual-phase (DP), transformation-induced plasticity (TRIP), complex-phase (CP), martensitic (MS), ferrite-bainitic (FB), twinning-induced plasticity (TWIP), hot formed (HF) and post-formed heattreatable (PFHT).
Also a must for your library is the new Surface Vehicle Recommended Practice SAE J2745 document (see the sidebar to this article, page 32) issued in July 2007 that categorizes and provides the properties of AHSS automotive sheet steels. The recommended practice covers 13 cold-rolled AHSS types (six DP alloys, three TRIP steels and four MS steels) and seven more hot-rolled sheet steels.
We contacted several of the world’s steelmakers (in cooperation with the International Iron and Steel Institute, www.worldautosteel.org) to find out what AHSS steels they have recently developed and made available to the market. What follows are brief descriptions; additional information can be found on each company’s website.
New Swedish Steels Include Rollforming Alloys
Dual-phase steels such as the Dual-Ten family from U.S. Steel, illustrated here, exhibit superior initial strain-hardening behavior when compared to high-strength low-alloy (HSLA) steels.
As with other DP steels, Docol DP types offer good formability, and at more extreme levels of forming SSAB recommends forming in the direction transverse to the rolling direction rather than in the longitudinal direction. Also, when shearing or punching Docol DP, cutting clearance is of primary concern, says SSAB. It recommends a cutting clearance of 10 to 12 percent of sheet thickness for Docol DP steels.
SSAB also recently introduced AHSS types for rollformers: Docol Roll, a pair of cold-reduced high-strength steels that SSAB claims represent the world’s first AHSS alloys developed specifically for rollforming. Their primary beneficial mechanical property: a high ratio of yield strength to tensile strength, which means that stresses in highly formed areas of a rollformed part are comparable to the stresses in less-formed regions. Small differences in residual stresses over the entire part cross-section reduce the tendency for bending and twisting, resulting in dimensionally stable and flat profiles.
Another bonus with these steels, according to SSAB, is their high level of internal cleanliness—a minimal amount of slag inclusions in the steel allow the rollforming of very tight radii. Docol Roll 800 (800-MPa minimum tensile strength and 600-MPa minimum yield strength) has a minimum bending radius (for press forming) of 0.9 times sheet thickness; Docol Roll 1000 (1000-MPa minimum tensile strength and 850-MPa minimum yield strength) has a minimum bending radius (for press forming) of 1.5 times sheet thickness. SSAB stresses that these minimum bending radii are valid for bending processes and that in well-designed rollforming lines fabricators might achieve much smaller radii.
The firm expects major breakthroughs in applications for Docol Roll in automotive body and safety components. www.ssab.com
U.S. Steel Talks Stamping, Hydroforming
U.S. Steel Corp., stressing that it develops new steels in partnership with its automotive-industry customers, has had its AHSS grades in production vehicles since 1999. It offers hot-rolled dual-phase steels under the brand name Dual-Ten, with products available as hot-dip galvanized (HDG Dual-Ten) and hot-dip galvannealed (HDGA Dual-Ten).
The Dual-Ten line, introduced in 2001 with the development of Dual-Ten 590 (590-MPa tensile strength), now comprises four alloys, with tensile strengths from 590 to 980 MPa, the latest to hit the market being Dual-Ten 980. Their high tensile-to-yield strength ratio (1.7 to 1.8 typically) enables the steels to undergo rapid strain hardening at lower strain levels, says U.S. Steel. This high strain-hardening behavior enhances strain distribution during stamping and, during hydroforming, limits buckling during end feeding. In comparison tests of Dual-Ten 600/590 and HSLA 340, the dual-phase steel exhibited nearly a 20-percent increase in draw-depth capability (using a T-channel test). www.uss.com
Nucor Increasing its Capacity to Supply Galvanized AHSS
Nucor entered the AHSS arena in 2006 with the introduction of DP 590—hot- and cold-rolled, galvanized and galvannealed products (the firm does not produce an uncoated cold-rolled dual-phase steel).
Nucor’s Dual Phase 590 is produced at its CSP (compact strip production) facility in Berkeley, SC, in hot-rolled form from 2.5 to 6.5 mm thick, and cold-rolled hot-dip galvanized or galvannealed sheet from 0.8 to 2.0 mm thick. Compared to other DP590 grades available, Nucor officials claim that its process yields improved mechanical properties—elongation, formability, impact toughness and weldability to name a few. For example, its hot-rolled DP 590 offers an impact energy of 100 ft.-lb., reportedly more than twice that of other DP 590 steels the company has tested. Dual Phase 590 has a tensile strength of 620 MPa, yield strength of 380 MPa, total elongation of 25 percent and an n-value of 0.168.
Building on its success with Dual Phase 590, Nucor recently launched Dual Phase 780 (780 MPa minimum tensile strength), also available hot- or cold-rolled, galvanized or galvannealed. Although the company can only produce hot-rolled dual-phase steels down to 2.5 mm thick, it’s pursuing continuous improvement at its mills so that it will soon be able to produce lighter-gauge hot-rolled products. And, later this year Nucor will commission a new galvanizing line at its facility in Decatur, AL, to increase production capacity for galvanized and galvannealed Dual Phase 590 and 780 in a variety of gauges and widths.
Lastly, in its effort to provide metalformers with dual-phase steels with optimum formability, specifically for stretch-flange applications, Nucor recently introduced NuPhase 800 steels. A multi-phase steel similar to Dual Phase 780, NuPhase 800 (offered in thicknesses of 0.8 to 2.0 mm) has a slightly different microstructure, says a Nucor official. It’s recommended for applications where other AHSS of comparable strength would not provide adequate formability. Its mechanical properties: 800 to 980 MPa tensile strength; 680 to 850 MPa yield strength; 10 percent elongation.www.nucor.com
ArcelorMittal Creates New R & D Entity
This ArcelorMittal cold-rolling mill in Brazil reduces the thickness of flat steel products by rolling at room temperature.
New from ArcelorMittal Automotive is the press-hardened boron steel Usibor 1500 (maximum 0.25 C, 0.35 Si, 1.4 Mn, 0.30 Cr and 0.005o B. Similar to SSAB’s Docol Boron 2/Domex 024 B and Boron 04/Domex 044 B, Usibor 1500 offers a tensile strength to 1500 MPA. The firm recommends Usibor 1500 as a replacement for many automotive components currently formed of dual-phase steels, including front- and rear-end rail extensions, A-, B- and hinge pillars and B-pillar reinforcements, and door and bumper beams. It’s offered cold- or hot-rolled, and joins the firm’s long list of AHSS steels, including multiphase alloys (ferrite plus bainite plus pearlite, with maximum 0.15 C) to 1200-MPa tensile strength, dual-phase steels, and TRIP steels to 980 MPa. In fact, just entering the testing phase late in 2007 was the firm’s newest TRIP steel, TRIP-Dual 1200, an advanced ultra-high-strength bainitic steel.
Also, last spring ArcelorMittal, at a pair of European automotive conferences, reported results of its MARS (mass-saving approach to rear suspension) project, led by its automotive-applications research center in France, to study the impact of ultra-high-strength steels in multi-link rear-suspension systems. Replacing high-strength and very-high-strength steels with the firm’s multiphase steels (MP800 and MP800 HY), as well as a dual-phase steel (DP 980 HY, 675 MPa yield strength, 1010 MPa tensile strength), sliced the weight of the axle by 21 percent, with a negligible cost increase. www.arcelormittal.com
Japanese-Made Alloy Offers Improved Stretch-Flange Formability
Japan’s JFE Steel Corp. has offered dual-phase cold-rolled advanced-high-strength sheet steels in the 780 to 1470-MPa tensile-strength range for several years, offering good press formability, spot weldability and stable mechanical properties, to improve vehicle crashworthiness and fuel efficiency. In 2004 the firm introduced a type with 980-MPa tensile strength, in three variations, that reportedly offers improved elongation and stretch-flange formability, due to better control of microscopic-crack propagation during forming.
JFE manufactures AHSS steels using its continuous annealing process with water quenching (it refers to the process as CAL-WQ). The steels, particularly the 980 type, have found wide acceptance in seat-frame parts, to allow designers of seat structures to use the seat itself to support impact during collisions.
The JFE line of AHSS steels features five products, with tensile strengths of 780, 980, 1180, 1370 and 1470 MPa, with yield strengths from 430 to 1200 MPa and a carbon equivalent from 0.09 to 0.23. The three new 980 types:
Low yield ratio—a high-ductility DP steel for stretch-formed parts that features a low yield point, high elongation and low hole-expanding ratio, recommended for body-in-white structural components such as pillars.
High hole-expanding ratio (HER)—this DP steel combines elongation and stretch-flange formability and has a medium yield point, medium elongation and medium HER, recommended for bumper reinforcements, seat frames and seat rails.
Extra-high HER—this steel has a high yield point, low elongation and high HER, offering stretch-flange formability equal to that of the 590-MPa-tensile-strength material. JFE says that the steel allows designers to reduce the weight of seat frames while also reducing part-manufacturing costs by eliminating the welding of multiple parts. www.jfe-steel.co.jp/en
Germans Develop Air-Hardening Steels
Salzgitter, Germany, is home to Salzgitter Flachstahl, the largest steel subsidiary in the Salzgitter Group. In 2006, the plant’s 4500 employees produced some 4.6 million tons of steel. The mill works closely with the firm’s technical customer-support partner, Salzgitter Mannesmann Forschung, to develop target-oriented solutions for product and process optimization in cooperation with users and customers. This close cooperation, according to company officials, yields customer-oriented and application-related product development.
An example of this comes with Salzgitter’s recent release of two new air-hardening cold-strip steels—LH800 and LH900. While dual-phase steels have their final mechanical properties already in the as-delivered state, with little change from processing, air-hardening steels are delivered to the metalformer in a soft state with excellent formability, according to Salzgitter.
This tunnel is stamped from Salzgitter’s HCT600XD+Z alloy, a continuously hot-dipped dual-phase steel.
Material datasheets released on LH800 and LH900 in November 2006 describe the steels as having outstanding forming capabilities, and finished components having high strength and crash properties. Tensile strength of the steels is at least 800 or 900 MPa (116 to 130 ksi).
Air-hardening steels fall under the product category of post-forming heattreatable (PFHT) steels. Metalformers deep-draw or otherwise form the steels, then the parts are heattreated and hardened or tempered by natural cooling. Hydroformers—the alloys are readily available as tubes and are very formable —need not employ intermediate annealing when forming LH800 and LH900. Salzgitter recommends its new PFHT steels for A- and B-pillars, frame components
In addition to its new PFHT steels, Salzgitter recently introduced press-hardening (PH) steel 22MnB5, a boron-alloyed tempered steel that can achieve tensile strengths to 1300 to 1800 MPa (190 to 260 ksi) after hot forming with controlled in-die quenching (press hardening). These steels also get notoriety for their high yield strength, based on manganese (1.2 to 1.4 weight percent) and boron (0.0020 to 0.0035 weight percent) content. Also recommended for A- and B-pillars, frame components and cross members, 22MnB5 also would prove ideal for penetration protection—sills, bumpers and bumper mounts, and roof frames.
Boron-alloyed tempered steels such as 22MnB5 can be formed in one or two steps, depending on the complexity of the component. As-delivered, stampers can cold-form the sheet, offered by Salzgitter in thicknesses from 1 to 3 mm and in widths from 900 to 1500 mm, and then harden in a separate process. Or, as an added step, stampers can hot-form the previously cold-formed parts, with subsequent press hardening in the die. This requires water cooling in the press, and a coating on the steel sheet to avoid oxidation and scaling of the sheet.
As an application example of the ability of its new steels to be formed, Salzgitter cites testing performed
Seminar: Higher-Strength Steel
—Solving the Problems
Learn all about the properties of AHSS and the techniques used to form and fabricate them at this PMA-sponsored seminar May 22 in Cleveland, OH. Seminar topics include stretchability and bendability, springback, punch and blankholder loads, tool temperature and wear, press loads and energy requirements, blanking damage and case studies. For more information, please contact Michelle Underwood: http://firstname.lastname@example.org, 216/901-8800 ext. 163.
Coming down the pike from Salzgitter: high-strength and -ductility (HSD) steels under development for the last few years through a partnership with Corus. HSD steels contain high levels of manganese, and offer strength levels of 600-1400 MPa with elongations of 70 to 20 percent, respectively. To produce these steels, Salzgitter is erecting a new production line that will include electric-arc-furnace steelmaking and strip casting using its BeST (belt-strip casting) technology. www.salzgitter-ag.de/en MF
AHSS Sheet Steel Specification
Surface Vehicle Recommended Practice, document SAE J2745, issued last July, categorizes and provides mechanical properties of advanced high-strength automotive sheet steels. It incorporates dual-phase, martensitic types and TRIP steels.
Related Enterprise Zones: Materials/Coatings
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