Which materials are suitable for stud welding?

Concerning the selection of materials, the same rules apply as in conventional arc welding.

Materials of the same type should always be welded.
As regards unalloyed steels, the institute for standardization only mentions "4.8 - suitable for welding”. According to DIN EN ISO 898, 4.8 means a tensile strength of 420 N/mm2, yield strength 340N/mm² at 14% yield strength. The suitability of unalloyed or low-alloy steels for fusion welding is defined by the carbon content and the further chemical analysis. Due to the extremely rapid temperature rise and cooling processes (arcing time <1s), there is a risk of hardening due to embrittlement in steel. The carbon content of the materials to be welded (stud and base material) should therefore be C <0.17%.

Tip ignition
Stud material	Base material
Stud material	Mild steels (R_e≤ 360 N/mm²) Fine-grained steel (R_e > 500 N/mm²)	galvanized and metal coated sheets (µ<5µm)	Stainless steels CrNi steels	Copper Brass (CuZn37)	Aluminium (Al99,5) Al-Mg alloys (AlMg3 / AlMg4,5)
4.8 (S235)
A2-50 (1.4301) A4/A5-50 (1.4571)
CuZn 37
AlMg 3
good welding suitability for any application
suitable with restrictions for power transmission
not suitable for welding

Drawn arc ignition
Stud material	Base material
Stud material	Mild steel (R_eH≤ 450 N/mm²) C≤ 0.2%	galvanized and metal coated sheets (µ<25µm)	Stainless steels CrNi steels	Aluminium (Al99,5) Al-Mg alloys (AlMg3 / AlMg4,5)
4.8 (S235)			2
A2-50 (1.4301) A4/A5-50 (1.4571)	1
AlMg 3				1, 2
good welding suitability for any application	1: up to ø 12 mm and shielding gas, flat position (PA)
suitable with restrictions for power transmission	2: only for short cycle stud welding
not suitable for welding