AA 7075 Aluminiumlegierungen

Materialgruppe: Nichteisenlegierungen / Aluminiumlegierungen
Land/Norm: Vereinigte Staaten / AA
Richtpreis:

Datenaktualisierungen

Neueste Aktualisierung: 2025-09
Gesamtzahl der Aktualisierungen: 22
Aktualisierungsverlauf

Dieser Werkstoff verfügt über 2931 Eigenschaften – hier wird nur ein Teil davon angezeigt.

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AA 7075 Chemische Zusammensetzung

Kriterien
Wert
Einheit
CAS Nummer
Kriterien
Al
Wert
Rest
Einheit
%
CAS Nummer
7429-90-5
Kriterien
Cr
Wert
0.18 – 0.28
Einheit
%
CAS Nummer
7440-47-3
Kriterien
Cu
Wert
1.2 – 2.0
Einheit
%
CAS Nummer
7440-50-8
Kriterien
Fe
Wert
val1
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Einheit
%
CAS Nummer
7439-89-6
Kriterien
Mg
Wert
val1
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Einheit
%
CAS Nummer
7439-95-4
Kriterien
Mn
Wert
val1
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Einheit
%
CAS Nummer
7439-96-5
Kriterien
Other each
Wert
val1
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Einheit
%
CAS Nummer
Kriterien
Other total
Wert
val1
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Einheit
%
CAS Nummer
Kriterien
Si
Wert
val1
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Einheit
%
CAS Nummer
7440-21-3
Kriterien
Ti
Wert
val1
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Einheit
%
CAS Nummer
7440-32-6
Kriterien
Ti+Zr
Wert
val1
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Einheit
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CAS Nummer
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Zn
Wert
val1
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CAS Nummer
7440-66-6

International alloy designations and chemical composition limits for wrought aluminum and wrought aluminum alloys - Teal Sheets (2025), 2025

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AA 7075 Physikalische Eigenschaften


Temperatur

Eigenschaft / Wert
Elastizitätsmodul
69 — 79 GPa
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Dichte
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kg/dm³
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Wärmekapazität
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J/(kg∙°C)
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Wärmeleitfähigkeit
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W/(m∙°C)
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Elektrischer Widerstand
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Ω∙mm²/m
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Elektrische Leitfähigkeit
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S/m
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Schmelztemperatur
val1
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°C
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Poissonzahl
val1
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Schubmodul
val1
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GPa
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Wärmeausdehnungskoeffizient (CTE)
val1
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10-6/°C
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Dieser Werkstoff verfügt über 2931 Eigenschaften – hier wird nur ein Teil davon angezeigt.

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AA 7075 Wärmebehandlung


  • The times and temperatures are typical for various forms, sizes and methods of manufacture and may not exactly describe the optimum treatment for a specific item.

    The nominal temperatures at which metal is heated (applies both for solution and precipitation heat treatment) should be attained as rapidly as possible and maintained ± 5°C of nominal during the time at temperature.

    The time at precipitation heat treatment temperature will depend on time required for load to reach temperature. The times shown are based on rapid heating, with soaking time measured from the time the load reached within 5°C of the applicable temperature.

    Material should be quenched from the solution heat-treating temperature as rapidly as possible and with minimum delay after removal from the furnace. Quenching is typically performed by immersion of wrought products in a cold water bath, although some forgings are quenched in hot-water. Quenching may be performed by alternative means such as total immersion in an aqueous polymer solution, liquefied gas, hot water, or boiling water, or by air blast or fog to minimize distortion provided samples from the material. The use of high-velocity high-volume jets of cold water is also effective for some materials.

    The aging of aluminum alloy 7075 from any temper to the T73 or T76 temper series requires closer than normal controls on aging practice variables such as time, temperature, heating-up rates, etc., for any given item. In addition to the above, when re-aging material in the T6 temper series to the T73 or T76 temper series, the specific condition of the T6 temper material (such as its property level and other effect of processing variables) is extremely important and will affect the capability of the re-aged material to conform to the requirements specified for the applicable T73 or T76 temper series.

    For sheet

    With optimum ingot homogenization, heat treating temperatures as high as 500°C are sometimes acceptable.

    Temper W: Solution heat treated at 480°C, quenched, naturally aged. With optimum ingot homogenization, heat treating temperatures as high as 500°C are sometimes acceptable.

    Temper T6: Solution heat treated at 480°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate two-stage treatment comprised of 4 hours at 95°C followed by 8 hours at 155°C also may be used.

    Temper T73: Solution heat treated at 480°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 24-30 hours at 165°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used.

    Temper T76: Solution heat treated at 480°C, quenched, a two-stage treatment comprised of 3-30 hours at 121°C followed by 15-18 hours at 163°C. An alternate two-stage treatment of 8 hours at 99°C followed by 24-28 hours at 163°C may be used.

    Temper T62: Solution heat treated at 480°C, quenched, precipitation heat treated ta 120°C for 24 hours. An alternate two-stage treatment comprised of 4 hours at 95°C followed by 8 hours at 155°C also may be used.

    For plate

    With optimum ingot homogenization, heat treating temperatures as high as 500°C are sometimes acceptable. For plate thickness over 4 inches and for rod diameters or bar thicknesses over four inches, a maximum temperature of 490°C is recommended to avoid eutectic melting.

    Temper W51: Solution heat treated at 480°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.

    Temper W: Solution heat treated at 480°C, quenched, naturally aged.

    Temper T651: Solution heat treated at 480°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate two-stage treatment comprised of 4 hours at 95°C followed by 8 hours at 155°C also may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T7351: Solution heat treated at 480°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 24-30 hours at 165°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T7651: Solution heat treated at 480°C, quenched, a two-stage treatment comprised of 3-30 hours at 121°C followed by 15-18 hours at 163°C. An alternate two-stage treatment of 8 hours at 99°C followed by 24-28 hours at 163°C may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T62: Solution heat treated at 480°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate two-stage treatment comprised of 4 hours at 95°C followed by 8 hours at 155°C also may be used.

    For rolled or cold finished wire, rod and bar

    With optimum ingot homogenization, heat treating temperatures as high as 500°C are sometimes acceptable. For plate thickness over 4 inches and for rod diameters or bar thicknesses over four inches, a maximum temperature of 490°C is recommended to avoid eutectic melting.

    Temper W: Solution heat treated at 490°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.

    Temper W51: Solution heat treated at 490°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.

    Temper T6: Solution heat treated at 490°C, quenched, precipitation heat treated at 120°C for 24 hours.

    Temper T73: Solution heat treated at 490°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 8-10 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used.

    Temper T62: Solution heat treated at 490°C, quenched, precipitation heat treated at 120°C for 24 hours.

    Temper T651: Solution heat treated at 490°C, quenched, precipitation heat treated at 120°C for 24 hours. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T7351: Solution heat treated at 490°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 8-10 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    For extruded rod, bar and profiles

    Temper W: Solution heat treated at 465°C, quenched, naturally aged.

    Temper W510: Solution heat treated at 465°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.

    Temper W511: Solution heat treated at 465°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.

    Temper T6: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate three-stage treatment comprised of 5 hours at 100°C followed by 4 hours at 120°C followed by 4 hours at 150°C also may be used.

    Temper T73: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used.

    Temper T76: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 3-30 hours at 121°C followed by 15-18 hours at 163°C. An alternate two-stage treatment of 8 hours at 99°C followed by 24-28 hours at 163°C may be used.

    Temper T62: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate three-stage treatment comprised of 5 hours at 100°C followed by 4 hours at 120°C followed by 4 hours at 150°C also may be used.

    Temper T6510: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate three-stage treatment comprised of 5 hours at 100°C followed by 4 hours at 120°C followed by 4 hours at 150°C also may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T73510: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T76510: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 3-30 hours at 121°C followed by 15-18 hours at 163°C. An alternate two-stage treatment of 8 hours at 99°C followed by 24-28 hours at 163°C may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T6511: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate three-stage treatment comprised of 5 hours at 100°C followed by 4 hours at 120°C followed by 4 hours at 150°C also may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T73511: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T76511: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 3-30 hours at 121°C followed by 15-18 hours at 163°C. An alternate two-stage treatment of 8 hours at 99°C followed by 24-28 hours at 163°C may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    For extruded tube

    Temper W: Solution heat treated at 465°C, quenched, naturally aged.

    Temper W510: Solution heat treated at 465°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.

    Temper W511: Solution heat treated at 465°C, quenched, naturally aged. Stress-relieved by stretching is required to produce a specified amount of permanent set subsequent to solution heat treatment.

    Temper T6: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate three-stage treatment comprised of 5 hours at 100°C followed by 4 hours at 120°C followed by 4 hours at 150°C also may be used.

    Temper T73: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used.

    Temper T62: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate three-stage treatment comprised of 5 hours at 100°C followed by 4 hours at 120°C followed by 4 hours at 150°C also may be used.

    Temper T6510: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate three-stage treatment comprised of 5 hours at 100°C followed by 4 hours at 120°C followed by 4 hours at 150°C also may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T73510: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T6511: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours. An alternate three-stage treatment comprised of 5 hours at 100°C followed by 4 hours at 120°C followed by 4 hours at 150°C also may be used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    Temper T73511: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used. Stress-relieved by stretching is required to produce a specified amount of permanent set prior to any precipitation heat treatment.

    For drawn tube

    Temper W: Solution heat treated at 465°C, quenched, naturally aged.

    Temper T6: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours.

    Temper T73: Solution heat treated at 465°C, quenched, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. An alternate two-stage treatment comprised of 6-8 hours at 107°C followed by a second state of 14-18 hours at 168°C may be used providing a heating up of 14°C per hour is used.

    Temper T62: Solution heat treated at 465°C, quenched, precipitation heat treated at 120°C for 24 hours.

    For die forgings

    Temper W: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, naturally aged.

    Temper W52: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, naturally aged. Stress-relieved by 1-5 percent cold reduction subsequent to solution heat treatment.

    Temper T6: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, precipitation heat treated at 120°C for 24 hours.

    Temper T73: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 8-10 hours at 175°C.

    Temper T7352: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. Stress-relieved by 1-5 percent cold reduction prior to precipitation heat treatment.

    For hand forgings

    Temper W: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, naturally aged.

    Temper W52: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, naturally aged. Stress-relieved by 1-5 percent cold reduction subsequent to solution heat treatment.

    Temper T6: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, precipitation heat treated at 120°C for 24 hours.

    Temper T73: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 8-10 hours at 175°C.

    Temper T652: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, precipitation heat treated at 120°C for 24 hours. Stress-relieved by 1-5 percent cold reduction prior to precipitation heat treatment.

    Temper T7352: Solution heat treated at 470°C, quenched in water at 60°C to 80°C, a two-stage treatment comprised of 6 to 8 hours at 105°C followed by a second-stage of 6-8 hours at 175°C. Stress-relieved by 1-5 percent cold reduction prior to precipitation heat treatment.

    For rolled rings

    Temper W: Solution heat treated at 470°C, quenched, naturally aged.

    Temper T6: Solution heat treated at 470°C, quenched, precipitation heat treated at 120°C for 24 hours.

    Annealing (O)

    Heated at 415°C, held for 2-3 hours. This treatment is intended to remove the effects of solution heat treatment and includes cooling at an uncontrolled rate to 205°C or less, followed by reheating to 230°C for 4 hours. Treatment at 345°C, followed by uncontrolled cooling, may be used to remove the effects of cold work, or to partially remove the effects of heat treatment.

AA 7075 Mechanische Eigenschaften


Temperatur

Eigenschaft / Wert
Zugfestigkeit
≥ 230 MPa
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Brinell-Härte (HB)
val1
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Dehnung, A
val1
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%
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Streckgrenze, Rp0.2
val1
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MPa
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Aufprall-Energie
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J
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Brucheinschnürung
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%
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Vickers Härte (HV)
val1
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AA 7075 Internationale Werkstoffäquivalente


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LAND / HERSTELLER
International
ÄQUIVALENZKATEGORIE
Offiziell
WERKSTOFF
NORM
MSZ
LAND / HERSTELLER
Ungarn
ÄQUIVALENZKATEGORIE
Offiziell
WERKSTOFF
NORM
MSZ
LAND / HERSTELLER
Ungarn
ÄQUIVALENZKATEGORIE
Offiziell

Die Äquivalenzkategorien basieren auf dem Vergleich der chemischen Zusammensetzung und der mechanischen Eigenschaften – prüfen Sie stets die Eignung anhand der für Ihre Anwendung geltenden Spezifikation.

Benötigen Sie die vollständige Liste der 296 internationalen Äquivalente?

Sehen Sie alle 296 äquivalenten Werkstoffgüten mit detaillierter Zuordnung nach Norm, Hersteller und Äquivalenzkategorie.

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Kostenlose Registrierung erforderlich • Sofortiger Zugriff

Kostenlose Registrierung erforderlich • Sofortiger Zugriff

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  • 296Querverweise

  • 23Zusammensetzung
  • 1079Mechanische Eigenschaften
  • 225Physikalische Eigenschaften
  • 8Wärmebehandlung
  • 35Metallographie
  • 1Zerspanbarkeit

  • 349Spannung-Dehnung
  • 21Umformbarkeit
  • 262Ermüdung
  • 64Fraktur
  • 7Schleicher

  • 4Verbindungen
  • -Beschichtungen
  • -Abmessungen
  • 1Tribologie

  • 14Korrosion
  • 406Alterung
  • -Witterungsbeständigkeit
  • 2Bestrahlung

  • 134Gesamtzahl der Lieferanten