Complex phase (CP) steels for the highest hole expansion ratios

Complex phase steels have the highest — up to 100% — hole expansion ratios available from advanced high strength steels. Their high HER values provide excellent cold-forming properties for punched and stretched edges/flanges, as well as deep-drawn shapes. CP steels’ superior yield strengths are used for high crash-energy absorption, while their elevated UTS levels enable thinner walls for significant automobile weight reductions.

CP steel basics

Complex phase steels have a bainite-ferrite microstructure with small amounts of martensite and retained austenite and pearlite. The thermal cycles used to produce CP retards recrystallization while promoting different carbo-nitride precipitations, resulting in extreme grain refinements for excellent ductility, even for high (e.g., 1200 MPa or 174 ksi) tensile strength grades.

The carbo-nitride precipitations also increase complex phase steel’s ferrite strength; as a result, CP steels have higher yield strengths than dual phase (DP) steels at equivalent tensile strength levels. Complex phase steels’ high yield strengths are used by body-in-white designers for high crash-energy absorption for safety components, such as in frame rails, reinforcements, beams, and more.

Steel properties

Up to 100% hole expansion ratios — significantly reduce or eliminate micro cracks and burrs on cut/sheared edges.
Greatly increases local formability, providing ductility for deep-drawn components with complex geometries.
Excellent for energy-efficient cold-forming and fineblanking of auto parts with complex, punched edges.
Improved cleanliness and grain refinement provides tight radii bendability and stretch flangeability even at very high yield strengths.
Excellent true fracture strain (local formability).
High crash-energy absorption.
Good fatigue resistance and durability.

New Docol® hot-rolled 800 MPa HER steels with up to 100% HER

To stretch or form cut edges that are crack-free can be a major challenge when working with advanced-high strength steels. To reduce the risk of cracked (raised) edges, SSAB is introducing two new versions of hot-rolled 800 megapascal steels with extremely high edge ductility.

Many of these steel properties should contradict one another: formability vs. high strength, high edge ductility vs. good crash performance. But these steels deliver all of these properties – and, especially, they deliver very high edge ductility.  

These new high edge ductility AHSSs can step in as "problem-solvers". Or, they can be used on auto parts where you want higher confidence that you won't have cracked edges.

DOCOL HR800HER-75

75% typical HER

HER in the product name means we’ve tested every shipment to guarantee a minimum hole expansion ratio and for Docol HR800HER-75 we guarantee 45% HER with a typical value of 75%.

DOCOL HR800HER-100

100% typical hole expansion ratio

This steel grade is tested to guarantee an extremely high edge ductility of 65% HER – with a typical HER value of 100%, which is among the highest on the market for 800 megapascal automotive steels.

Request trial material

Mobility applications for complex phase steels

Hot-rolled Docol CP steels deliver good fatigue resistance and can be suitable for car parts subjected to dynamic alternating stress. For example, multilink suspensions, trailing arms, torsion beams and subframes.

Cold-rolled Docol CP applications include body-in-white applications, seat tracks and seat recliners.

Additional application ideas

Grades and mechancial properties

Complex Phase (CP) steels have higher yield strength and lower work hardening effect, compared to DP steels for same strength level. The CP steels have good fatigue properties when it comes to low cycle fatigue. Compared to DP, the CP steels offer better flanging and ISO hole expansion performance and these steels are suitable for applications where high strength, good bendability and stretch-flange ability is required.

Docol^® Complex phase steel product offer:

Product Family	Product name	Coating	Dimensions	Standards
Docol 600CP	Docol CR350Y600T-CP	GI, GA, ZA	T: 0.70 - 2.50 mm W: Up to 1520 mmT: 0.028 - 0.0984 in W: Up to 59.84 in	SSAB
Docol 800CP	Docol CR570Y780T-CP	UC, GI, GA, ZA	T: 0.80 - 2.50 mm W: Up to 1527 mmT: 0.031 - 0.0984 in W: Up to 60.12 in	VDA 239-100
	Docol HR660Y760T-CP	UC, GI	T: 2.00 - 4.00 mm W: Up to 1500 mmT: 0.0787 - 0.157 in W: Up to 59.06 in	VDA 239-100
	Docol HR800HER-75	UC, GI	T: 2.00 - 4.00 mm W: Up to 1500 mmT: 0.0787 - 0.157 in W: Up to 59.06 in	SSAB
	Docol HR800HER-100	UC	T: 2.00 - 4.00 mm W: Up to 1500 mmT: 0.0787 - 0.157 in W: Up to 59.06 in	SSAB
	Docol Roll 800	UC	T: 0.50 - 2.10 mm W: Up to 1527 mmT: 0.020 - 0.0827 in W: Up to 60.12 in	SSAB
Docol 1000CP	Docol CR780Y980T-CP	UC, EG, GI	T: 0.50 - 2.10 mm W: Up to 1527 mmT: 0.020 - 0.0827 in W: Up to 60.12 in	VDA 239-100
	Docol Roll 1000	UC, EG	T: 0.50 - 2.10 mm W: Up to 1527 mmT: 0.020 - 0.0827 in W: Up to 60.12 in	SSAB
	Docol Roll 1000HY	UC, EG	T: 0.50 - 2.10 mm W: Up to 1527 mmT: 0.020 - 0.0827 in W: Up to 60.12 in	SSAB
	Docol HR720Y950T-CP	UC*	T: 3.00 - 4.00 mm W: Up to 1510 mmT: 0.118 - 0.157 in W: Up to 59.45 in	SSAB
	Docol HR800Y950T-CP	UC*	T: 2.50 - 3.20 mm W: Up to 1340 mmT: 0.0984 - 0.126 in W: Up to 52.76 in	SSAB
Docol 1200CP	Docol CR900Y1180T-CP	UC, EG, GI*	T: 0.50 - 2.10 mm W: Up to 1527 mmT: 0.020 - 0.0827 in W: Up to 60.12 in	VDA 239-100

Product Family

Docol 600CP

Product name

Docol CR350Y600T-CP

Coating

GI, GA, ZA

Dimensions

T: 0.70 - 2.50 mm
W: Up to 1520 mmT: 0.028 - 0.0984 in
W: Up to 59.84 in

Standards

SSAB

Datasheet

Product Family

Docol 800CP

Product name

Docol CR570Y780T-CP

Product name

Docol HR660Y760T-CP

Product name

Docol HR800HER-75

Product name

Docol HR800HER-100

Product name

Docol Roll 800

Product name

Docol CR780Y980T-CP

Product name

Docol Roll 1000

Product name

Docol Roll 1000HY

Product name

Docol HR720Y950T-CP

Product name

Docol HR800Y950T-CP

Product Family

Docol 1200CP

Product name

Docol CR900Y1180T-CP

Coating

UC, EG, GI*

Dimensions

T: 0.50 - 2.10 mm
W: Up to 1527 mmT: 0.020 - 0.0827 in
W: Up to 60.12 in

Standards

VDA 239-100

Datasheet

*Available upon request.

Forming Docol CP steels

Outstanding ISO 16630 hole expansion ratios allow for crack-free forming of stretch flanging and stretch bending, as well as punched flanges.
Improved cleanliness enables deep drawing and tight radius forming for complex part geometries.
With exceptional bending properties and formability, these steels are suitable for cold forming of critical auto safety components.
Ideal for fineblanking.
Good weldability, including resistance spot welding and laser welding.

Do you have manufacturability questions about these grades? Our Technical Support can provide specific CP and HER steel forming guidance for your automotive component.

Contact tech support

More benefits from Docol CP steels

Metal coatings for corrosion protection.
Excellent uniform ductility (see our article about AHSS elongation and local formability).
Bake-hardenable.
Ideal for cold-forming crash relevant auto parts with complex shapes.
Excellent for lightweighting critical structural car components without burrs or edge cracks.

OEM-specific complex phase steels

Docol^® CP steels are made according to VDA, EN, SSAB, and OEM specifications. Contact us if you cannot find a specific grade.

Custom AHSS for automotive OEMs

Docol CP steel benefits for each team member

Safety engineers: Complex phase’s high yield-to-tensile-strength ratio provides high crash energy absorption.

Lightweighting engineers: Achieve thinner and lighter parts by specifying higher strength grades of CP steels.

Production engineers: Deliver complex shape components – e.g., stretched flanges with punched holes and tight radii – with high repeatability. Fully leverage cold-forming operations to save energy and processing time while increasing production line flexibility.

Buyers: Buy less material as you greatly reduce the number of defective components due to cracked sheared edges.

Sustainability officers: SSAB’s iron-ore based steelmaking is so CO₂-efficient that our AHSS steels are equivalent to using recycled steel. And Fossil-Free Docol AHSS will be commercially available in 2026.

Future-proof your life cycle assessment

Improve your LCA

Docol® complex phase steel is “future proofed.”

TRIAL MATERIAL STOCK

Complex phase steel samples

With our Trial Material Stock Center, you can get AHSS samples for most of our commercially available steels – as well as samples for our newest but not yet commercially released grades. Unique to the industry, we ship coils, sheets and custom lengths of any size. In 1 to 2 weeks, your material is ready for dispatch to anywhere in the world.

Request trial material

Other steel categories

High edge (HE) ductility HSLA steel

High edge ductility HSLA steel with greatly improved local formability and high hole expansion ratios – ideal for challenging auto components with complex designs on sheared stretched edges.

Press hardening steels (PHS) for complex shapes

Press hardening steels have four major advantages: they can be formed into very complex shapes, their ultimate tensile strength ranges up to 2000 MPa (290 ksi), there is little or no springback, and, with tailored tempering, you can combine “full hard zones” and “soft zones” for multi-function crash performance within a single part.

High strength, low alloy (HSLA) steels for cost-effective automotive lightweighting

High strength, low alloy steels are a cost-effective choice for increasing strength-to-weight ratios when compared to conventional mild carbon steels. HSLA steels also have excellent bendability and weldability and can increase the strength and/or decrease the weight for a variety of body-in-white and chassis automotive components, including suspensions, beams, and subframes.

Ferritic-Bainitic steel: stretch edge flangeability for cold-forming

Ferritic-Bainitic are multi-phased steels with high hole expansion ratios and good edge stretch capabilities. FB steels are suited for cold-formed and punched flanges when lightweighting automotive components such as wheels, cross members, and other structural parts.

Martensitic steel: excellent formability-to-strength ratio

Martensitic steel combines tensile strengths up to 1700 MPa with good ductility, making it highly efficient for both vehicle lightweighting and improved crash protection — especially in anti-intrusion zones.

Dual phase with high formability/ductility for crack-free cold deep drawing

Dual phase with high formability/ductility (DH) steels are TRIP-assisted, 3rd Generation automotive steels with high global and local formability and good resistance to edge cracking. DH steel have excellent energy-absorbing properties, included reserved ductility during crash impact. DH grades are ideal for complex geometries, including cold deep drawing. DH steel's FLDs and HERs are superior to DP steels, enabling scrap reduction and more streamlined stamping.

Dual phase (DP) steel: excellent ductility and energy absorption

Dual phase automotive steels have an excellent balance of ductility, high tensile strengths, easy cold formability, and very good crash energy-absorption. Its high early-stage strain hardening (n-value) makes DP steel resistant to local necking due to strain redistribution — providing highly uniform elongation. Dual phase steel’s low yield-to-tensile-strength ratio creates high global formability for deep-drawing and high-stretching capacities — all with good weldability.