Description
Alloy Geek Hastelloy G-35 Standard
Alloy G-35, a member of the esteemed Hastelloy family, stands as a testament to exceptional corrosion resistance. Its chemical composition, thoughtfully engineered for superior performance, makes it the ultimate choice for industries grappling with the most aggressive corrosive environments.
Chemical Composition Range:
- Nickel (Ni): 45.0% min
- Chromium (Cr): 22.0% - 26.0%
- Iron (Fe): 20.0% - 23.0%
- Molybdenum (Mo): 6.0% - 8.0%
- Cobalt (Co): 2.5% max
- Tungsten (W): 2.5% max
Key Properties:
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Peerless Corrosion Resistance: Alloy G-35 excels in battling a wide spectrum of corrosive substances, including sulfuric acid, phosphoric acid, and hydrochloric acid. It is a cornerstone in the chemical processing, petrochemical, and pharmaceutical sectors.
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High-Temperature Stability: The alloy retains its structural integrity and mechanical strength even when exposed to elevated temperatures, ensuring unwavering performance in demanding conditions.
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Creep Resistance: Alloy G-35 boasts excellent creep resistance, making it an ideal choice for high-temperature applications, such as heat exchangers and furnace components.
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Ease of Fabrication: Alloy G-35 is highly formable and weldable, simplifying manufacturing and repair processes.
Other Names for Alloy G-35:
- Hastelloy G-35: The most widely recognized alternate name for Alloy G-35, synonymous with top-notch corrosion resistance.
Differences Between Alloy G-30 and G-35:
- Alloy G-30: Known for its excellent resistance in oxidizing and reducing environments and is particularly effective against sulfuric acid.
- Alloy G-35: Provides enhanced resistance to phosphoric acid and hydrochloric acid compared to G-30. It is an ideal choice for applications involving extreme chemical processing.
Alloy G-35 stands tall as the ultimate solution to corrosive challenges, offering unbeatable corrosion resistance, high-temperature stability, and ease of fabrication. Choose G-35 for projects demanding resilience and longevity in the face of corrosion.
XRF Samples are thinner samples approximately 1/4 inch thick. OES Standards are thicker in nature and are approximately 1 inch thick. Please Contact Us if you would like to know the specific dimensions of a sample.
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In summary, the main difference between a reference material and a certified reference material lies in the level of characterization, validation, and certification. CRMs have undergone a more comprehensive and rigorous testing process, resulting in certified values and uncertainties that can be confidently used for instrument calibration, quality control, and research. Reference materials, on the other hand, can provide a point of comparison but might not have the same level of certification and traceability as CRMs. When accuracy and traceability are critical, certified reference materials are preferred.