Mechanical Properties | Metric | English | Comments |
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Modulus of Elasticity | >= 88.0 GPa | >= 12800 ksi | |
PEAK Werkstoff DISPAL S232 Aluminum Alloy, AlSi17Fe4Cu3Mg, Condition T6 Heat Treatment Condition T6 (Quench in water at RT). Excellent properties:abrasive stabilityhigh stiffness (E-modulus)resistance even at high temperaturesgood grindabilityPEAK DISPAL materials allo.. |
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Modulus of Elasticity | >= 88.0 GPa @Temperature 20.0 °C |
>= 12800 ksi @Temperature 68.0 °F |
Condition T6x (Quench in water at RT) |
PEAK Werkstoff DISPAL S232 Aluminum Alloy, AlSi17Fe4Cu3Mg, Condition T6 Heat Treatment Condition T6 (Quench in water at RT). Excellent properties:abrasive stabilityhigh stiffness (E-modulus)resistance even at high temperaturesgood grindabilityPEAK DISPAL materials allo.. |
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Modulus of Elasticity | >= 88.0 GPa | >= 12800 ksi | |
PEAK Werkstoff DISPAL S232 Aluminum Alloy, AlSi17Fe4Cu3Mg, Condition T6x Heat Treatment Condition T6x (Quench in water at RT). Excellent properties:abrasive stabilityhigh stiffness (E-modulus)resistance even at high temperaturesgood grindabilityPEAK DISPAL materials all.. |
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Modulus of Elasticity | >= 88.0 GPa @Temperature 20.0 °C |
>= 12800 ksi @Temperature 68.0 °F |
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PEAK Werkstoff DISPAL S232 Aluminum Alloy, AlSi17Fe4Cu3Mg, Condition T6x Heat Treatment Condition T6x (Quench in water at RT). Excellent properties:abrasive stabilityhigh stiffness (E-modulus)resistance even at high temperaturesgood grindabilityPEAK DISPAL materials all.. |
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Modulus of Elasticity | 88.4 GPa | 12800 ksi | in <100> direction |
Mateck Lithium Fluoride (LiF) Optical crystals |
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Modulus of Elasticity | 88.0 GPa | 12800 ksi | |
Schott N-SF14 Glass Information Provided by SCHOTT North America, Inc. |
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Modulus of Elasticity | 88.0 GPa | 12800 ksi | |
Schott N-SF8 Glass Information Provided by SCHOTT North America, Inc. |
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Modulus of Elasticity | 88.0 GPa | 12800 ksi | |
Schott N-SSK5 Glass Information Provided by SCHOTT North America, Inc. |
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Modulus of Elasticity | 88.3 GPa @Temperature 649 °C |
12800 ksi @Temperature 1200 °F |
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AK Steel ASTM A 463 / SAE J1392 040 AHK, Grade 40 Aluminized Carbon Steel, Structural Steel (SS) Aluminized Type 1 coating contains approximately 91% aluminum and 9% silicon that is metallurgically bonded to the low-carbon steel substrate.Information provided by AK Steel |
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Modulus of Elasticity | 88.3 GPa @Temperature 649 °C |
12800 ksi @Temperature 1200 °F |
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AK Steel SAE J1392 050 XLK, Grade 50 Aluminized Carbon Steel, High Strength Low Alloy Steel (HSLAS) Aluminized Type 1 coating contains approximately 91% aluminum and 9% silicon that is metallurgically bonded to the low-carbon steel substrate.Information provided by AK Steel |
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Modulus of Elasticity | 88.3 GPa @Temperature 649 °C |
12800 ksi @Temperature 1200 °F |
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AK Steel Aluminized Carbon Steel, Commercial Steel (CS Type B), Standard Grade Aluminized Type 1 coating contains approximately 91% aluminum and 9% silicon that is metallurgically bonded to the low-carbon steel substrate. May be moderately formed. A specimen cut in any direc.. |
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Modulus of Elasticity | 88.3 GPa @Temperature 649 °C |
12800 ksi @Temperature 1200 °F |
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AK Steel Aluminized Carbon Steel, Deep Drawing Steel (DDS Type B), Standard Grade Aluminized Type 1 coating contains approximately 91% aluminum and 9% silicon that is metallurgically bonded to the low-carbon steel substrate. DDS is made by adding aluminum to the molten steel and.. |
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Modulus of Elasticity | 88.3 GPa @Temperature 649 °C |
12800 ksi @Temperature 1200 °F |
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AK Steel Aluminized Carbon Steel, Extra Deep Drawing Steel (EDDS), Standard Grade Aluminized Type 1 coating contains approximately 91% aluminum and 9% silicon that is metallurgically bonded to the low-carbon steel substrate. Interstitial Free (I-F) steels are made by adding tita.. |
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Modulus of Elasticity | 88.3 GPa @Temperature 649 °C |
12800 ksi @Temperature 1200 °F |
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AK Steel Aluminized Carbon Steel, Extra Deep Drawing Steel Plus (EDDS+), Standard Grade Aluminized Type 1 coating contains approximately 91% aluminum and 9% silicon that is metallurgically bonded to the low-carbon steel substrate. Interstitial Free (I-F) steels are made by adding tita.. |