The following are alloys that, thanks to the addition of specific elements, or to their particular composition, have improved characteristics that make them suitable for specific applications or to operate in difficult conditions.

In particular the addition of Nickel helps in joining difficult-to-braze materials (such as stainless steel, tool steel, tungsten carbide, nickel and nickel alloys, etc. ) and improves corrosion resistance.

Manganese helps in brazing carbides.

Alloys without Zinc are suitable for brazing in oven (some are also suitable for vacuum brazing).

Alloys without Copper are ammonia resistant.

Code	Composition %						Melting Range SOL – LIQ	Density	Tensile Strength	Corresponding Standards
	Ag	Cu	Zn	Ni	Mn	Others	¡C	g/cm³	kg/mm²	DIN 8513	EN 1044	AWS A5.8	ISO 17672	Download
Alloys with Nickel:
Ag27MnNi	27	38	20	5,5	9,5		680-830	8,7		L-Ag27	AG 503		Ag 427
Ag40Ni	40	30	28	2			670-780	8,9				BAg-4Ê	Ag 440
Ag49MnNi	49	16	23	4,5	7,5		680-705	8,9	55	L-Ag49	AG 502	BAg-22	Ag 449	Download .pdf: Ag49MnNi
Ag49MnNi/1	49	27	21	0,5	2,5		670-690	8,9
Ag50Ni	50	20	28	2			660-715	9,0	45			BAg-24	Ag 450	Download .pdf: Ag50Ni
Ag50CdNi	50	15,5	15,5	3		Cd 16	635-690	9,5	45	L-Ag50CdNi	AG 351	BAg-3	Ag 351
Alloys without Copper (Ammonia Resistant):
Ag72Zn	72		28				710-730	8,4	44					Download .pdf: Ag72Zn
Alloys without Zinc (suitable for brazing in oven):
Ag99,99	99,99						960-960	10,5
Ag60Sn/1	60	30				Sn 10	600-720	9,8			AG 402			Download .pdf: Ag60Sn-1
Ag72	72	28					780-780	10	35	L-Ag72	AG 401	BAg-8	Ag 272	Download .pdf: Ag72
Ag40Ni/1	40	58		2			780-900	9,6	35

Download .pdf: Ag49MnNi | Ag50Ni | Ag72Zn | Ag60Sn-1 | Ag72

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