Difference between revisions of "Physical Properties of the Most Important Metals"

Revision as of 09:35, 19 December 2022

The following tables list the physical properties of the most technically significant pure metals as well as carbon. The values given may vary considerably, depending on the degree of purity and sometimes they are also difficult to determine. In compiling the data from the available literature, we selected those that are currently the most probable. Some properties are anisotropic and vary with the crystalline structure of the metal. In those cases, we listed the value applicable to the poly-crystalline stage.

Table 1: Mechanical Properties of the Most Important Metals

Element/Metal	Density ¹ [g/cm³]	Modulus of Elasticity ¹[GPa]	Shear Modulus [GPa]	Transvers Contraction Coeffic.
Aluminum	2.70	65	27	0.34
Antimony	6.62	56	20.4	0.28
Beryllium	1.85	298	150	0.12
Lead	11.36	14.5	6	0.44
Cadmium	8.65	57.5	29	0.30
Chromium	7.19	160		0.25
Iron	7.89	208	83	0.28
Gallium	5.91	9.6		0.46
Gold	19.32	79	28	0.42
Indium	7.31	11		0.45
Iridium	22.65	538	214	0.26
Cobalt	8.85	216		0.31
Carbon (Graphite)	2.1-2.3	5
Copper	8.95	115	48	0.34
Magnesium	1.74	46	18	0.28
Manganese	7.43	165	77	0.24
Molybdenum	10.21	347	122	0.30
Nickel	8.90	216	83	0.31
Niobium	8.57	113	39	0.38
Osmium	22.61	570	220	0.25
Palladium	12.02	124	51	0.39
Platinum	21.45	173	67	0.39
Mercury	13.55
Rhenium	21.04	480	215	0.26
Rhodium	12.41	386	153	0.26
Ruthenium	12.45	485	172	0.29
Silver	10.49	82	27	0.37
Tantalum	16.60	188	70	0.35
Titanium	4.51	120	43	0.34
Vanadium	6.10	136	52	0.36
Bismuth	9.80	33	13	0.33
Tungsten	19.32	360	158	0.30
Zinc	7.13	96	36	0.29
Tin	7.30	47	18	0.33
Zirconium	6.49	98	36	0.33

₁ at 20°C

Table 2: Atomic properties of the most important metals

Element/Metal	Chemical Symbol	Atomic Number	Atomic Weight	Crystal Structure ¹	Lattic Parameters ¹ a or b ² [10¹⁰m]	Lattic Parameters ¹ a or b ² [10^-10m]	Work Function [eV]	Ionization Potential [eV]
Aluminum	Al	13	26,98	foc	4,049		4,08 - 4,3	5,98
Antimony	Sb	51	121,75	rhl	4,507		4,1	8,64
Beryllium	Be	4	9,01	hcp	2,286	3,584	3,2 - 3,9	9,32
Lead	Pb	87	207,19	fcc	4,949		4,0 - 4,1	7,42
Cadmium	Cd	48	112,40	hcp	2,979	5,617	3,7 - 4,1	8,99
Chromium	Cr	24	52,00	bcc	2,884		4,4 - 4,7	6,76
Iron	Fe	26	55,85	bcc	2,866		4,1 - 4,5	7,9
Gallium	Ga	31	69,72	ort	4,524	7,661	3,8 - 4,1	6,0
Gold	Au	79	196,97	fcc	4,078		4,3 - 5,1	9,22
Indium	In	49	114,82	tet	4,594	4,951	4,0	5,79
Iridium	Ir	77	192,20	fcc	3,839		4,6 - 5,3	9,1
Cobalt	Co	27	58,93	hcp	2,507	4,069	4,4 - 4,6	7,86
Carbon (Graphite)	C	6	12,01	hcp-layered lattic³	2,456	6,696	4,8	11,27
Copper	Cu	29	63,54	fcc	3,615		4,4	7,72
Magnesium	Mg	12	24,31	hcp	3,209	5,210	3,7	7,64
Manganese	Mn	25	54,94	complex cubic	8,912		3,8 - 4,1	6,0
Molybdenum	Mo	42	95,94	bcc	3,147		4,1 - 4,5	7,18
Nickel	Ni	28	58,71	fcc	3,524		5,0 - 5,2	7,63
Niobium	Nb	41	92,91	bcc	3,301		4,0	6,77
Osmium	Os	76	190,23	hcp	2,734	4,320	4,5	8,7
Palladium	Pd	46	106,40	fcc	3,890		4,5 - 5,0	8,34
Platinum	Pt	78	195,09	fcc	3,931		4,1 - 5,5	9,0
Mercury	Hg	80	200,59	rhl⁴	3,061⁴		4,5	10,44
Rhenium	Re	75	186,20	hcp	2,760	4,458	4,7 - 5,0	7,8
Rhodium	Rh	45	102,91	fcc	3,804		4,6 - 4,9	7,46
Ruthenium	Ru	44	101,07	hcp	2,704	4,281	4,5	7,37
Silver	Ag	47	107,87	fcc	4,086		4,3	7,57
Tantalum	Ta	73	180,95	bcc	3,303		4,0 - 4,2	7,89
Titanium	Ti	2	47,90	hcp	2,950	4,683	4,0 - 4,4	6,83
Vanadium	V	23	50,94	bcc	3,039		3,8 - 4,2	6,71
Bismuth	Bi	83	208,98	rhl	4,746		4,1 - 4,5	8,0
Tungsten	W	74	183,85	bcc	3,158		4,3 - 5,0	7,98
Zinc	Zn	30	65,37	hcp	2,665	4,947	3,1 - 4,3	9,39
Tin	Sn	50	118,69	tet	5,831	3,181	3,6 - 4,1	7,33
Zirconium	Zr	40	91,22	hcp	3,231	5,148	3,7 - 4,3	6,92

₁ at 20°C

₂ for rhombohedral crystals, the rhombohedra angle α is given in angle degrees and minutes; for orthorhombic crystals the parameter β is shown in m x 10^-10

₃ α-crystal

₄ at -50°C

fcc = cubic face cenered // bcc = cubic body centered // hcp = hexagonal dense spherical ort = orthorhombic // tet = tetragonal // rhl = rhombohedral

Table 3: Thermal properties of the most important metals

Element/Metal	Specific Heat ¹ [kJ/(K*kg)]	Softening Temperature [°C]	Melting Point [°C]	Heat of Fusion [kJ/kg]	Vapor Pressure at Melting Point [Pa]	Boiling Point [°C]	Heat of Vaporizing [kJ/g]	Thermal Conductivity [W/(m*K)]	Linear Expansion Coefficient² [10^-6m/K]	Volume Change at Solidification [%]
Aluminum	0,900	150	660	398	2,5x10^-6	2467	10,47	237	23,6	-6,5
Antimony	0,210		630	163	2,5x10^-9	1587	1,97	24,3	10,5	+9,5
Beryllium	1,824		1277	1090	4,3	2477		200	12,3
Lead	0,130	200	327	25	4,21x10^-7	1750	24,70	35,3	29,3	-3,5
Cadmium	0,230		321	54	14,8	767	0,88	96,8	41,0	-4,0
Chromium	0,450		1857	314	990	2672	5,86	93,7	6,2
Iron	0,444	500	1537	268	7,05	2750	80,2	12,2	-3,0
Gallium	0,370		29,8	80,4	9,6x10^-36	2204	3,90	40,6	18,0	+3,0
Gold	0,128	100	1064	63	2,4x10^-3	3080	1,55	317	14,3	-5,1
Indium	0,233		157	28,5	1,5x10^-17	2072	1,97	81,6		-2,5
Iridium	0,130		2410	144	1,5	4130	3,31	147	6,5
Cobalt	0,420		1495	260	175	2927	6,66	100	13,8
Carbon (Graphite)	0,720					3825 sublimiert	119 - 165	155
Copper	0,385	190	1084	205	5,2x10^-2	2567	4,77	401	16,5	-4,2
Magnesium	1,020		650	373	361	1107	5,44	156	26,0	-4,1
Manganese	0,480		1244	264	121	1962	4,10	7,8	23,0	-1,7
Molybdenum	0,250	900	2623	292	3,6	4639	5,61	138	5,2
Nickel	0,440	520	1453	301	237	2913	6,45	90,7	13,0	-2,5
Niobium	0,272		2477	289	7,9x10^-2	4744	7,79	53,7	7,3
Osmium	0,130		3045	141	2,52	5012	3,81	87,6	6,5
Palladium	0,244		1554	143	1,33	2970	3,48	71,8	11,1	-5,5
Platinum	0,130	540	1772	113	3,2x10^-2	3827	2,62	71,6	9,0	-6,0
Mercury	0,140		-38,9	11,7	3,1x10^-4	357	0,29	8,34	60,8	-3,7
Rhenium	0,137		3186	178	3,24	5596	3,42	72	6,7
Rhodium	0,242		1966	211	6,36x10^-1	3695	5,19	150	8,5	-10,8
Ruthenium	0,238		2310	252	1,4	4150	6,62	117	9,5
Silver	0,232	180	961,9	105	3,4x10^-1	2212	2,39	429	19,5	-3,8
Tantalum	0,140	850	3017	157	7,86x10^-1	5448	4,32	57,5	6,5
Titanium	0,520		1668	403	4,9x10^-1	2830	8,80	21,9	10,8
Vanadium	0,490		1902	330	3,06	3287	10,3	30,7	8,3
Bismuth	0,122		271	54	6,5x10^-4	1564	1,43	7,87	14,0	-0,33
Tungsten	0,138	1000	3422	193	4,27	5555	3,98	174	4,5
Zinc	0,385	170	420	100	3,06	907	1,76	116	36,0	-4,7
Tin	0,228	100	222	59	6x10^-21	2602	1,95	66,6	26,7	-2,8
Zirconium	0,281		1852	224	1,7x10^-3	4409	4,6	22,7	5,9

₁ at 20°C

₂ between 20°C and 100°C

Thermal Properties of the Most Important Metals

Electrical Properties of the Most Important Metals

References

Metals Handbook, Desk Edition: Chicago, IL, American Society of Metal, 1985

Landolt-Börnstein: Zahlenwerte und Funktionen. Springer-Verlag, Berlin-Göttingen-Heidelberg, 1959

Handbook of Chemistry and Physics, 70^th Edition: CRC Press., Inc. Boca Raton, Florida, 1989 - 1990

Fluck, E.; Heumann, K., G.: Periodensystem der Elemente. Weinheim: VCH-Verlagsgesellschaft, 1986

Kieffer, R.; Jangg, G.; Ettmayer, P.: Sondermetalle. Springer- Verlag, Wien-New York, 1963

Hering, E.; Schulz, W.: Physik für Ingenieure (Periodensystem der Elemente). Düsseldorf: VDI-Verlag, 1988

Degussa AG (Hrsg.): Edelmetall-Taschenbuch. Hüthig-Verlag, Heidelberg, 1995

Slade, P.; G. (editor): Electrical Contacts Principles and Applications. Marcel Dekker, Inc., New York-Basel, 1999

Gerritsen, A.; N.: Metallic Conductivity in: Flügge, S.: Handbuch der Physik, Bd. 19, Springer-Verlag, Berlin-Göttingen-Heidelberg, 1956

Köster, W.; Franz, H.: Poisson,s Ratio for Metals and Alloys. Metallurg. Reviews 6 (1961)

Nesmeyanow, A., N.: Vapor Pressure of the Chemical Elements: Elsevier, Amsterdam-London-New York, 1963

Wyckoff, R., W., G.: Crystal Structures. Vol 1,New York, 1963

Difference between revisions of "Physical Properties of the Most Important Metals"

Revision as of 09:35, 19 December 2022

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@@ Line 604: / Line 604: @@
 ort = orthorhombic  //  tet = tetragonal  //  rhl = rhombohedral
+<figtable id="tab:Thermal properties of the most important metals">
+<caption>'''Thermal properties of the most important metals'''</caption>
+{| class="twocolortable" style="text-align: left; font-size: 12px"
+|-
+!Element/Metal
+!Specific Heat [[#text-reference|<sup>1</sup>]]<br/>[kJ/(K*kg)]
+!Softening<br/>Temperature<br/>[°C]
+!Melting Point<br/>[°C]
+!Heat of Fusion<br/>[kJ/kg]
+!Vapor Pressure<br/>at Melting Point<br/>[Pa]
+!Boiling Point<br/>[°C]
+!Heat of Vaporizing<br />[kJ/g]
+!Thermal<br/>Conductivity<br/>[W/(m*K)]
+!Linear Expansion<br/>Coefficient[[#text-reference|<sup>2</sup>]]<br />[10<sup>-6</sup>m/K]
+!Volume Change at<br/>Solidification<br/>[%]
+|-
+|Aluminum
+|0,900
+|150
+|660
+|398
+|2,5x10<sup>-6</sup>
+|2467
+|10,47
+|237
+|23,6
+| -6,5
+|-
+|Antimony
+|0,210
+|
+|630
+|163
+|2,5x10<sup>-9</sup>
+|1587
+|1,97
+|24,3
+|10,5
+| +9,5
+|-
+|Beryllium
+|1,824
+|
+|1277
+|1090
+|4,3
+|2477
+|
+|200
+|12,3
+|
+|-
+|Lead
+|0,130
+|200
+|327
+|25
+|4,21x10<sup>-7</sup>
+|1750
+|24,70
+|35,3
+|29,3
+| -3,5
+|-
+|Cadmium
+|0,230
+|
+|321
+|54
+|14,8
+|767
+|0,88
+|96,8
+|41,0
+| -4,0
+|-
+|Chromium
+|0,450
+|
+|1857
+|314
+|990
+|2672
+|5,86
+|93,7
+|6,2
+|
+|-
+|Iron
+|0,444
+|500
+|1537
+|268
+|7,05
+|2750
+|80,2
+|12,2
+| -3,0
+|
+|-
+|Gallium
+|0,370
+|
+|29,8
+|80,4
+|9,6x10<sup>-36</sup>
+|2204
+|3,90
+|40,6
+|18,0
+| +3,0
+|-
+|Gold
+|0,128
+|100
+|1064
+|63
+|2,4x10<sup>-3</sup>
+|3080
+|1,55
+|317
+|14,3
+| -5,1
+|-
+|Indium
+|0,233
+|
+|157
+|28,5
+|1,5x10<sup>-17</sup>
+|2072
+|1,97
+|81,6
+|
+| -2,5
+|-
+|Iridium
+|0,130
+|
+|2410
+|144
+|1,5
+|4130
+|3,31
+|147
+|6,5
+|
+|-
+|Cobalt
+|0,420
+|
+|1495
+|260
+|175
+|2927
+|6,66
+|100
+|13,8
+|
+|-
+|Carbon (Graphite)
+|0,720
+|
+|
+|
+|
+|3825 sublimiert
+|119 - 165
+|155
+|
+|
+|-
+|Copper
+|0,385
+|190
+|1084
+|205
+|5,2x10<sup>-2</sup>
+|2567
+|4,77
+|401
+|16,5
+| -4,2
+|-
+|Magnesium
+|1,020
+|
+|650
+|373
+|361
+|1107
+|5,44
+|156
+|26,0
+| -4,1
+|-
+|Manganese
+|0,480
+|
+|1244
+|264
+|121
+|1962
+|4,10
+|7,8
+|23,0
+| -1,7
+|-
+|Molybdenum
+|0,250
+|900
+|2623
+|292
+|3,6
+|4639
+|5,61
+|138
+|5,2
+|
+|-
+|Nickel
+|0,440
+|520
+|1453
+|301
+|237
+|2913
+|6,45
+|90,7
+|13,0
+| -2,5
+|-
+|Niobium
+|0,272
+|
+|2477
+|289
+|7,9x10<sup>-2</sup>
+|4744
+|7,79
+|53,7
+|7,3
+|
+|-
+|Osmium
+|0,130
+|
+|3045
+|141
+|2,52
+|5012
+|3,81
+|87,6
+|6,5
+|
+|-
+|Palladium
+|0,244
+|
+|1554
+|143
+|1,33
+|2970
+|3,48
+|71,8
+|11,1
+| -5,5
+|-
+|Platinum
+|0,130
+|540
+|1772
+|113
+|3,2x10<sup>-2</sup>
+|3827
+|2,62
+|71,6
+|9,0
+| -6,0
+|-
+|Mercury
+|0,140
+|
+| -38,9
+|11,7
+|3,1x10<sup>-4</sup>
+|357
+|0,29
+|8,34
+|60,8
+| -3,7
+|-
+|Rhenium
+|0,137
+|
+|3186
+|178
+|3,24
+|5596
+|3,42
+|72
+|6,7
+|
+|-
+|Rhodium
+|0,242
+|
+|1966
+|211
+|6,36x10<sup>-1</sup>
+|3695
+|5,19
+|150
+|8,5
+| -10,8
+|-
+|Ruthenium
+|0,238
+|
+|2310
+|252
+|1,4
+|4150
+|6,62
+|117
+|9,5
+|
+|-
+|Silver
+|0,232
+|180
+|961,9
+|105
+|3,4x10<sup>-1</sup>
+|2212
+|2,39
+|429
+|19,5
+| -3,8
+|-
+|Tantalum
+|0,140
+|850
+|3017
+|157
+|7,86x10<sup>-1</sup>
+|5448
+|4,32
+|57,5
+|6,5
+|
+|-
+|Titanium
+|0,520
+|
+|1668
+|403
+|4,9x10<sup>-1</sup>
+|2830
+|8,80
+|21,9
+|10,8
+|
+|-
+|Vanadium
+|0,490
+|
+|1902
+|330
+|3,06
+|3287
+|10,3
+|30,7
+|8,3
+|
+|-
+|Bismuth
+|0,122
+|
+|271
+|54
+|6,5x10<sup>-4</sup>
+|1564
+|1,43
+|7,87
+|14,0
+| -0,33
+|-
+|Tungsten
+|0,138
+|1000
+|3422
+|193
+|4,27
+|5555
+|3,98
+|174
+|4,5
+|
+|-
+|Zinc
+|0,385
+|170
+|420
+|100
+|3,06
+|907
+|1,76
+|116
+|36,0
+| -4,7
+|-
+|Tin
+|0,228
+|100
+|222
+|59
+|6x10<sup>-21</sup>
+|2602
+|1,95
+|66,6
+|26,7
+| -2,8
+|-
+|Zirconium
+|0,281
+|
+|1852
+|224
+|1,7x10<sup>-3</sup>
+|4409
+|4,6
+|22,7
+|5,9
+|
+|-
+|}
+<div id="text-reference"><sub>1</sub> at 20°C</div>
+<div id="text-reference"><sub>2</sub> between 20°C and 100°C</div>
+</figtable>
 <figtable id="tab:Thermal Properties of the Most Important Metals">