ASTM E 2371 : 2021
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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Standard Test Method for Analysis of Titanium and Titanium Alloys by Direct Current Plasma and Inductively Coupled Plasma Atomic Emission Spectrometry (Performance-Based Test Methodology)
Hardcopy , PDF
22-01-2022
English
16-08-2021
Important note : Users cannot be edited or removed once added to your Multi user PDF.| Committee |
E 01
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| DocumentType |
Test Method
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| Pages |
14
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| PublisherName |
American Society for Testing and Materials
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| Status |
Superseded
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| SupersededBy | |
| Supersedes |
1.1This method describes the analysis of titanium and titanium alloys, such as specified by committee B10, by inductively coupled plasma atomic emission spectrometry (ICP-AES) and direct current plasma atomic emission spectrometry (DCP-AES) for the following elements:
| Element | Application | Quantitative |
| Aluminum | 0–8 | 0.009 to 8.0 |
| Boron | 0–0.04 | 0.0008 to 0.01 |
| Cobalt | 0-1 | 0.006 to 0.1 |
| Chromium | 0–5 | 0.005 to 4.0 |
| Copper | 0–0.6 | 0.004 to 0.5 |
| Iron | 0–3 | 0.004 to 3.0 |
| Manganese | 0–0.04 | 0.003 to 0.01 |
| Molybdenum | 0–8 | 0.004 to 6.0 |
| Nickel | 0–1 | 0.001 to 1.0 |
| Niobium | 0-6 | 0.008 to 0.1 |
| Palladium | 0-0.3 | 0.02 to 0.20 |
| Ruthenium | 0-0.5 | 0.004 to 0.10 |
| Silicon | 0–0.5 | 0.02 to 0.4 |
| Tantalum | 0-1 | 0.01 to 0.10 |
| Tin | 0–4 | 0.02 to 3.0 |
| Tungsten | 0-5 | 0.01 to 0.10 |
| Vanadium | 0–15 | 0.01 to 15.0 |
| Yttrium | 0–0.04 | 0.001 to 0.004 |
| Zirconium | 0–5 | 0.003 to 4.0 |
1.2This test method has been interlaboratory tested for the elements and ranges specified in the quantitative range part of the table in 1.1. It may be possible to extend this test method to other elements or broader mass fraction ranges as shown in the application range part of the table above provided that test method validation is performed that includes evaluation of method sensitivity, precision, and bias. Additionally, the validation study shall evaluate the acceptability of sample preparation methodology using reference materials or spike recoveries, or both. Guide E2857 provides information on validation of analytical methods for alloy analysis.
1.3Because of the lack of certified reference materials (CRMs) containing bismuth, hafnium, and magnesium, these elements were not included in the scope or the interlaboratory study (ILS). It may be possible to extend the scope of this test method to include these elements provided that method validation includes the evaluation of method sensitivity, precision, and bias during the development of the testing method.
1.4Units—The values stated in SI units are to be regarded as the standard. No other units of measurement are included in this standard.
1.5This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. Specific safety hazards statements are given in Section 9.
1.6This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.
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| ASTM F 3046 : 2013 | Standard Specification for Wrought Titanium-3Aluminum-2.5Vanadium Alloy for Surgical Implant Applications (UNS R56320) |
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| ASTM B 988 : 2018 | Standard Specification for Powder Metallurgy (PM) Titanium and Titanium Alloy Structural Components |
| ASTM F 620 : 2020 | Standard Specification for Titanium Alloy Forgings for Surgical Implants in the Alpha Plus Beta Condition |
| ASTM F 1295 : 2016 | Standard Specification for Wrought Titanium-6Aluminum-7Niobium Alloy for Surgical Implant Applications (UNS R56700) |
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| ASTM B 863 : 2019 | Standard Specification for Titanium and Titanium Alloy Wire |
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| ASTM B 862 : 2019 | Standard Specification for Titanium and Titanium Alloy Welded Pipe |
| ASTM F 2146 : 2013 | Standard Specification for Wrought Titanium-3Aluminum-2.5Vanadium Alloy Seamless Tubing for Surgical Implant Applications (UNS R56320) |
| ASTM F 3049 : 2014 | Standard Guide for Characterizing Properties of Metal Powders Used for Additive Manufacturing Processes |
| ASTM F 1713 : 2008 : R2013 | Standard Specification for Wrought Titanium-13Niobium-13Zirconium Alloy for Surgical Implant Applications (UNS R58130) |
| ASTM B 381 : 2013 : R2019 | Standard Specification for Titanium and Titanium Alloy Forgings |
| ASTM F 67 : 2013 : R2017 | Standard Specification for Unalloyed Titanium, for Surgical Implant Applications (UNS R50250, UNS R50400, UNS R50550, UNS R50700) |
| ASTM F 2066 : 2018 | Standard Specification for Wrought Titanium-15 Molybdenum Alloy for Surgical Implant Applications (UNS R58150) |
| ASTM B 265 : 2020 : REV A | Standard Specification for Titanium and Titanium Alloy Strip, Sheet, and Plate |
| ASTM F 3001 : 2014 | Standard Specification for Additive Manufacturing Titanium-6 Aluminum-4 Vanadium ELI (Extra Low Interstitial) with Powder Bed Fusion |
| ASTM F 136 : 2013 | Standard Specification for Wrought Titanium-6Aluminum-4Vanadium ELI (Extra Low Interstitial) Alloy for Surgical Implant Applications (UNS R56401) |
| ASTM F 3302 : 2018 | Standard for Additive Manufacturing – Finished Part Properties – Standard Specification for Titanium Alloys via Powder Bed Fusion |
| ASTM F 1472 : 2020 : REV A | Standard Specification for Wrought Titanium-6Aluminum-4Vanadium Alloy for Surgical Implant Applications (UNS R56400) |
| ASTM F 136 : 2013 : R2021 : EDT 1 | Standard Specification for Wrought Titanium-6Aluminum-4Vanadium ELI (Extra Low Interstitial) Alloy for Surgical Implant Applications (UNS R56401) |
| ASTM B 348/B348M : 2021 | Standard Specification for Titanium and Titanium Alloy Bars and Billets |
| ASTM B 381 : 2021 | Standard Specification for Titanium and Titanium Alloy Forgings |
| ASTM B 338 : 2017 : R2021 | Standard Specification for Seamless and Welded Titanium and Titanium Alloy Tubes for Condensers and Heat Exchangers |
| ASTM F 3046 : 2021 | Standard Specification for Wrought Titanium-3Aluminum-2.5Vanadium Alloy for Surgical Implant Applications (UNS R56320) |
| ASTM F 2924 : 2014 : R2021 | Standard Specification for Additive Manufacturing Titanium-6 Aluminum-4 Vanadium with Powder Bed Fusion |
| ASTM F 3001 : 2014 : R2021 | Standard Specification for Additive Manufacturing Titanium-6 Aluminum-4 Vanadium ELI (Extra Low Interstitial) with Powder Bed Fusion |
| ASTM F 1813 : 2021 | Standard Specification for Wrought Titanium-12Molybdenum-6Zirconium-2Iron Alloy for Surgical Implant (UNS R58120) |
| ASTM F 3049 : 2014 : R2021 | Standard Guide for Characterizing Properties of Metal Powders Used for Additive Manufacturing Processes |
| ASTM F 2989 : 2021 | Standard Specification for Metal Injection Molded Unalloyed Titanium Components for Surgical Implant Applications |
| ASTM F 1713 : 2008 : R2021 : EDT 1 | Standard Specification for Wrought Titanium-13Niobium-13Zirconium Alloy for Surgical Implant Applications (UNS R58130) |
| SAE AMS4895:2023 | Titanium Alloy, Round Bars 5Al - 1Fe Annealed |
| ASTM E 691 : 2020 | Standard Practice for Conducting an Interlaboratory Study to Determine the Precision of a Test Method |
| ASTM E 2857 : 2011 : R2021 : EDT 1 | Standard Guide for Validating Analytical Methods |
| ASTM E 691 : 2021 | Standard Practice for Conducting an Interlaboratory Study to Determine the Precision of a Test Method |
| ASTM E 2857 : 2011 : R2016 | Standard Guide for Validating Analytical Methods |
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