Materials and Properties

Wieland			K10	K12	K20	K21	K30	K65
EN-Symbol			Cu-OFE	Cu-HCP	Cu-DHP	Cu-DHP	Cu-OF	CuFe2P
Material No.			EN CW009A	EN CW021A	EN CW024A	EN CW024A	EN CW008A	EN CW107C
Composition als per			EN 13604	EN 13600	EN 12452	EN 12452	EN 13600	EN 12449
Comparable UNS No.			C10100	C10300	C12200	C12200	C11000	C19400
Mechanical properties of the plain tube sections (indicative values)	Material condition		R200 H035	R200 H035	R220 H040	R220 H040	R200 H035	R300
	Proof stress R_p0.2	(N/mm²)	max. 120	max. 120	min. 40	min. 40	max. 120	> 140
	Tensile strength R_m	(N/mm²)	200-250	200-250	min. 220	min. 220	200-250	> 300
	Elongation at rupture A₅	(%)	min. 40	min. 40	min. 40	min. 40	min. 40	> 30
	Hardness		HV 35-65	HV 35-65	HV min. 40	HV min. 40	HV 35-65	HB 25
Physical properties (indicative values)	Density	(kg/dm³)	8.94	8.94	8.94	8.94	8.94	8.91
	Melting range	(°C)	1083	1083	1083	1083	1083	1080-1090
	Mean thermal expansion coefficient between 20 and 300°C	(10^-6/K)	17.7	17.7	17.7	17.7	17.7	17.6
	Thermal conductivity at 20°C	(W/(mK))	> 394	> 385	> 310	> 310	> 394	260

Wieland			L10	L30	S28	S76	A22	A05
EN-Symbol			CuNi10Fe1Mn	CuNi30Mn1Fe	CuZn28Sn1As	CuZn20Al2As	AW-AlMgSi	Al99.5
Material No.			EN CW352H	EN CW354H	EN CW706R	EN CW702R	EN AW 6060	EN AW-1050A
Composition as per			EN 12452	EN 12452	EN 12452	EN 12452	EN 573-3	EN 573-3
Comparable UNS No.			C70600	C71500	C44300	C68700
Mechanical properties of the plain tube sections (indicative values)	Material condition		R290 H070	R370 H085	R320S H060S	R340S H060S	T4 (EN 755-2)	H 112
	Proof stress R_p0.2	(N/mm²)	min. 90	min. 120	min. 100	min. 120	min. 60	min. 20
	Tensile strength R_m	(N/mm²)	min. 290	min. 370	min. 320	min. 340	min. 120	min. 60
	Elongation at rupture A₅	(%)	min. 30	min. 35	min. 55	min. 55	min. 14	min. 25
	Hardness		HV min. 70	HV min. 85	HV min. 60	HV min. 60	HBW 50
Physical properties (indicative values)	Density	(kg/dm³)	8.9	8.93	8.56	8.35	2.70	2.70
	Melting range	(°C)	1100-1145	1175-1240	890-945	930-970	585-650	646-657
	Mean thermal expansion coefficient between 20 and 300°C	(10^-6/K)	17	16	20	19	23.4	23.5
	Thermal conductivity at 20°C	(W/(mK))	45	30	110	100	200-220	210-220

EN-Symbol			P235GH	P255QL	13CrMo4-5	X12CrMo5+I
Material No.			1.0345	1.0452	1.7335	1.7362+I
Composition as per			EN 10216-2	EN 10216-4	EN 10216-2	EN 10216-2
Comparable standards	USA	UNS	ASTM A179	ASTM A334 grade 1	ASTM A-213 T11	ASTM A-213 T5
Comparable standards	France	NF	P235GH	P255QL	EN 10216-2	EN 10216-2
Mechanical properties of the plain tube sections (indicative values)	Proof stress R_p0.2	(N/mm²)	min. 235	min. 255	min. 290	min. 175
	Tensile strength R_m	(N/mm²)	360-500	360-490	430-580	440-590
	Elongation at rupture A₅	(%)	min. 25	min. 23	22	20
Physical properties (indicative values)	Density	(kg/dm³)	7.85	7.85	7.85	7.80
	Melting range	(°C)	1460	1460
	Mean thermal expansion coefficient between 20 and 300°C	(10^-6/K)	13	13	18.5	19
	Thermal conductivity at 20°C	(W/(mK))	57	57	42	28.2

EN-Symbol			X2CrNi19-11	X2CrNiMo17-12-2	X6CrNiTi18-10	X6CrNiMoTi17-12-2	Titan Grade 2 (Ti 2)
Material No.			1.4306	1.4404	1.4541	1.4571	3.7035
Composition as per			EN 10216-6	EN 10216-5	EN 10216-5	EN 10216-5	DIN 17850
Comparable standards	USA	UNS	TP 304L	TP 316L	TP 321	TP 316Ti	R50400 (ASTM B 338)
Comparable standards	France	NF	EN 10216-5	EN 10216-5	EN 10216-5	EN 10216-5
Mechanical properties of the plain tube sections (indicative values)	Proof stress R_p0.2	(N/mm²)	min. 180	min. 190	min. 200	min. 190	275-450
	Tensile strength R_m	(N/mm²)	460-680	490-690	500-730	490-690	min. 345
	Elongation at rupture A₅	(%)	min. 40	min. 40	min. 35	35	min. 20
Physical properties (indicative values)	Density	(kg/dm³)	7.90	7.98	7.90	8	4.51
	Mean thermal expansion coefficient between 20 and 300°C	(10^-6/K)	17	17.5	17	18	9.2
	Thermal conductivity at 20°C	(W/(mK))	15	15	15	15	17