• Novelis Fusion™ 6HF – e200

Novelis Fusion™ 6HF – e200 is a heat treatable product for applications with extremely demanding formability requirements. This product is recommended for outer applications such as body sides and decklid outers.

Mechanical Properties

This product has an excellent balance of properties for forming and strength. In addition, it offers a unique advantage in the hemming process enabling sharp feature lines and rope hem designs that permit the reduction in perceived gap between adjacent panels. All values are typical.

TemperUTS (Rm)YS (Rp0.2)Total Elongation A80
T4 Delivery≥175 MPa≤120 MPa≥26%
T6 2% pre-strain, 20 min @185°C≥ 210 MPa≥160 MPa>18%
Chemical Composition (wt. %)

This product is composed of an AlMgSi core alloy of the AA6016 family with a special ductile aluminum clad.

SiFeCuMnMgCr
≥ 0.25≥ 0.6≥ 0.2≥ 0.5≥ 0.5≥ 0.1
ZnTiVOthers, eachOthersOther, total
≥ 0.22 ≥ 0.15≥ 0.05N/A≥ 0.05N/A

Physical Properties
Density 2.7 x 10³ kg/m³
Elastic Modulus 70,000 N/mm²
Coefficient of Thermal Expansion 23.4 x 10-6 K-1
Thermal Conductivity 160 – 190 W/mK
Electrical Conductivity 26 – 30 m/Ωmm²
Production Regions

Our manufacturing footprint allows us to tailor solutions for automakers around the world. Novelis Fusion™ 6HF – e200 is produced in the following locations:

Europe

What surface treatments are available?
Acid Etch
TiZr
PT3
AlubVS
E1
PL39SX

Additional services may be available through our distributors, please contact your Novelis sales representative for more information Scrap can be recycled into AA6016.

What finishing processes are available?
Cut-to-length
Laser Blank
Edge Trimming
Slitting



Additional services may be available through our distributors, please contact your Novelis sales representative for more information.

What gauges are available?
0.9 – 1.5 mm

Please contact your Novelis sales representative for more information about available widths and gauges.

This site uses cookies to store information on your computer. Some are essential to make our site work; others help us improve the user experience.
By using this site, you consent to the placement of these cookies. Read our Privacy Policy to learn more.