Allgemein
Property | Value | Comment | |
---|---|---|---|
Carbon equivalent (CET) | 0.3 [-] Show Supplier Material materials with Carbon equivalent (CET) of 0.3 [-] | for thickness 3.2-7.99 mm | |
0.32 [-] Show Supplier Material materials with Carbon equivalent (CET) of 0.32 [-] | for thickness 8-20 mm | ||
0.37 [-] Show Supplier Material materials with Carbon equivalent (CET) of 0.37 [-] | for thickness 20.01-40 mm | ||
0.4 [-] Show Supplier Material materials with Carbon equivalent (CET) of 0.4 [-] | for thickness 40.01-64 mm | ||
Carbon equivalent (CEV) | 0.41 [-] Show Supplier Material materials with Carbon equivalent (CEV) of 0.41 [-] | for thickness 3.2-20 mm | |
0.56 [-] Show Supplier Material materials with Carbon equivalent (CEV) of 0.56 [-] | for thickness 20.01-40 mm | ||
0.64 [-] Show Supplier Material materials with Carbon equivalent (CEV) of 0.64 [-] | for thickness 40.01-64 mm | ||
Carbon equivalent note | CEV = C+Mn/6+ (Ni+Cu)/15+ (Cr+Mo+V)/5 and CET = C+(Mn+Mo)/10+Ni/40 +(Cr+Cu)/20 |
Abmessung
Property | Value |
---|---|
Breite | 1500 - 3100 mm Show Supplier Material materials with Breite of 1500 - 3100 mm |
Mechanisch
Property | Temperature | Value | Testing Standard | Comment |
---|---|---|---|---|
Charpy impact energy, V-notch | -40 °C | 45 J Show Supplier Material materials with Charpy impact energy, V-notch of 45 J | ||
Dehnung | 10 % Show Supplier Material materials with Dehnung of 10 % | A5 | ||
Härte, HBW | 420 - 480 [-] Show Supplier Material materials with Härte, HBW of 420 - 480 [-] | EN ISO 6506-1 | 1-2 mm below the plate surface once per heat and 40 tonnes | |
Streckgrenze | 1250 MPa Show Supplier Material materials with Streckgrenze of 1250 MPa | |||
Zugfestigkeit | 1400 MPa Show Supplier Material materials with Zugfestigkeit of 1400 MPa | Transverse |
Chemical properties
Property | Value | Comment |
---|---|---|
Bor | 0.005 % Show Supplier Material materials with Bor of 0.005 % | for thickness 3.2-64 mm |
Chrom | 0.2 - 1.3 % Show Supplier Material materials with Chrom of 0.2 - 1.3 % | for thickness 3.2-64 mm |
Kohlenstoff | 0.2 - 0.23 % Show Supplier Material materials with Kohlenstoff of 0.2 - 0.23 % | for thickness 3.2-64 mm |
Mangan | 1.4 - 1.6 % Show Supplier Material materials with Mangan of 1.4 - 1.6 % | for thickness 3.2-64 mm |
Molybdän | 0.25 - 0.5 % Show Supplier Material materials with Molybdän of 0.25 - 0.5 % | for thickness 3.2-64 mm |
Nickel | 0.1 - 0.5 % Show Supplier Material materials with Nickel of 0.1 - 0.5 % | for thickness 3.2-64 mm |
Phosphor | 0.025 % Show Supplier Material materials with Phosphor of 0.025 % | for thickness 3.2-64 mm |
Schwefel | 0.01 % Show Supplier Material materials with Schwefel of 0.01 % | for thickness 3.2-64 mm |
Silizium | 0.6 % Show Supplier Material materials with Silizium of 0.6 % | for thickness 3.2-64 mm |
Technological properties
Property | ||
---|---|---|
Application areas | Quard 450 is mainly recommended for the following applications: | |
Chemical composition | The steel is grain refined. | |
Cold Forming | Quard 450 is very well suited for cold forming operations. The minimum recommended R/t ratio when bending of Quard 450 is given in the table below: R = Recommended punch radius (mm), t = Plate thickness (mm) , W – Die opening width (mm) (bending angle ≤ 90°) Due to the homogeneous properties and narrow thickness tolerances of Quard 450, variations in springback is kept a a low level. Grinding of flame cut or a sheared edge in the bending area is recommended to further prevent cracking during bending. | |
Delivery condtion | Our Quard plates are supplied as standard in the shotblasted and primed condition. In order to maintain a good weldability and laser cutting performance, a low zinc silicate primer is applied. Plates can also be delivered unpainted. | |
Heat Treatment | Quard 450 receives its properties by quenching and when applicable by subsequent tempering. The properties of the delivery condition can not be retained after exposure at service or preheating temperatures above 250 °C. Quard 450 is not intended for any further heat treatment. | |
Machining | Quard 450 offers good machinability with HSS and HSS-Co alloyed drills. The feed rate and cutting speed have to be adjusted to the high hardness of the material. Face milling, counter boring and countersinking are best performed using tools with replaceable cemented carbide inserts. | |
Other | Quard 450 is delivered with a unique combination of excellent flatness, tight thickness tolerances and superior surface finish. | |
Testings | Ultrasonic testing (UT), is applied to secure the plate from discontinuities like inclusions, cracks and porosity. In thickness from 8 mm and up, all plates are UT tested and controlled against class S2, E2, according to EN 10160. | |
Thermal cutting and welding | Plasma and flame cutting can be performed without the need for preheating in thicknesses up to 40 mm, provided the ambient temperature is above 0 °C. Subsequent to cutting, let the cut parts slowly cool down to room temperature. A slow cooling rate will reduce the risk of cut edge cracking (never accelerate the cooling of the parts). | |
Welding | Quard 450 has a very good weldability, granted by the low carbon equivalent of the steel. It can be welded using any of the conventional welding methods, both as manual or automatic. Welding of Quard 450 is recommended to be performed at ambient temperature not lower than +5°C. Subsequent to welding, let the welded parts slowly cool down to room temperature (never accelerate the cooling process of the weld). If welding using a heat input of 1.7 kJ/mm, preheating is not required in single plate thickness up to 20 mm. The interpass temperature used should not exceed 225 °C. Soft weld consumables, giving low hydrogen weld deposits (<= 5 ml/100g), are recommended. The consumable strength should be as soft as the design and wear mode allows. In general, the welding recommendation of Quard 450 should be in the accordance to EN-1011. |