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[[File:Assessing prototype reference material for testing emissions of VOCs (5940985174).jpg|right|300px]]
'''Title''': ''What standards and regulations affect a materials testing laboratory?''
'''Author for citation''': Shawn E. Douglas
'''License for content''': [https://creativecommons.org/licenses/by-sa/4.0/ Creative Commons Attribution-ShareAlike 4.0 International]
'''Publication date''': November 2023
===Materials testing to a standard test method===
A standard test method is a result-yielding analytical procedure that is "definite, unambiguous, and experimentally viable, as well as being reproducibly effective," typically developed by a collection of experts in the field of measurement being analyzed.<ref name="StableMat21">{{cite web |url=https://www.azom.com/article.aspx?ArticleID=20070 |title=Materials Testing: Should You Change from the Standard Test Method Approach? |author=Stable Micro Systems Ltd |work=AZO Materials |date=11 February 2021 |accessdate=08 November 2023}}</ref> Standard-based methods developed from the input of the international community in theory represent a more global consensus on an analytical test and lend strength to international trade and overall consumer confidence. Or as the National Research Council puts it: "Testing against specific standards provides independent data to support manufacturer's declarations of conformity to purchaser specifications or government regulations."<ref name="NRCStand95">{{Cite book |date=1995-03-15 |title=Standards, Conformity Assessment, and Trade: Into the 21st Century |author=National Research Council |url=http://www.nap.edu/catalog/4921 |chapter=Chapter 3: Conformity Assessment |publisher=National Academies Press |place=Washington, D.C. |pages=65–102 |doi=10.17226/4921 |isbn=978-0-309-05236-8}}</ref>
However, unless mandated by federal regulation or a respected international accreditation body, such standards are not compulsory, and materials testing labs may turn to a competing standard or even develop their own non-standard test methods for newly discovered materials for which existing standard-based methods can't be applied.<ref name="StableMat21" /> Even when laboratory accreditation is involved, one accrediting body may require the lab to use one set of standardized test methods, while another accrediting body may have a slightly different set of standardized test methods that are recommended. Throw in state regulations that require small modifications to existing standards, and the testing picture gets even more complex.
From this picture we realize that the landscape for materials testing, conformity assessment, and lab accreditation requirements, at least in the United States, is highly heterogeneous across cities, states, and the federal government, and this has been the case for decades.<ref name="NRCStand95" /><ref name="ArnholdConfom">{{cite web |url=https://ex-magazine.r-stahl.com/article/detail/konformitaetsbewertung-in-den-vereinigten-staaten |title=Conformity Assessment in the USA |author=Arnhold, T.; Berner, W. |work=Ex-Magazine |publisher=R. Stahl AG |accessdate=08 November 2023}}</ref><ref name="ZVEIReduction23">{{cite web |url=https://www.zvei.org/fileadmin/user_upload/Presse_und_Medien/Publikationen/user_upload/2023_04_21_ZVEI-Seiter_Abbau_technischer_Handelshemmnisse_im_Rahmen_von_TTC_en.pdf |format=PDF |title=Reduction of technical barriers to trade within the framework of the Transatlantic Trade Council (TTC) |author=Wirths, F. |publisher=ZVEI e.V |date=14 March 2023}}</ref> With testing and certification requirements for materials and the products made from them having redundancy, especially across state and local borders, the promotion of a more uniform federal-level recognition program that involves the positive assessment of conformity assessment accreditors of laboratories has been called for.<ref name="NRCStand95" /><ref name="ZVEIReduction23" /> Such federal recognition programs encourage the homogenization of laboratory conformity assessment and testing to a set of internationally-recognized standards, with the potential for reducing regulatory- and standards-based inefficiencies and increasing quality-based competition in laboratory testing and certification of materials.<ref name="NRCStand95" /> Such federal recognition programs have gradually come online, such as the U.S. Food and Drug Administration's (FDA's) Standards and Conformity Assessment Program (and the related FDA Standards Recognition Program) for those evaluating materials for and developing medical devices in the U.S.<ref name="FDAStand23">{{cite web |url=https://www.fda.gov/medical-devices/premarket-submissions-selecting-and-preparing-correct-submission/standards-and-conformity-assessment-program |title=Standards and Conformity Assessment Program |publisher=U.S. Food and Drug Administration |date=19 September 2023 |accessdate=08 November 2023}}</ref> That said, the sheer breadth of testing and certification standards in the realm of materials testing is nonetheless still highlighted through the dearth of federal recognition programs for laboratory testing and accreditation.
An arguably representative sample of entities developing standardized test methods for materials testing includes:
* Aerospace Industries Association (AIA/NAS/NASM)
* American Architectural Manufacturers Association (AAMA)
* American Association of Textile Chemists and Colorists (AATCC)
* American National Standards Institute (ANSI)
* American Petroleum Institute (API)
* AOAC International (Association of Official Agricultural Chemists; AOAC)
* ASTM International (ASTM)
* Automakers (Ford, GM, Honda, PACCAR, Peugeot, Subaru, Tesla, Toyota, Volvo, etc.)
* Canadian Standards Association (CSA)
* Deutsches Institut für Normung (DIN)
* European Telecommunications Standards Institute (ETSI)
* Government and military entities (Consumer Product Safety Commission, CSFA, EPA, FDA, MIL, MMM, NAVSEA, United Nations Economic Commission for Europe, etc.)
* Industrial Fasteners Institute (IFI)
* International Electrotechnical Commission (IEC)
* International Maritime Organization (IMO)
* International Organization for Standardization (ISO)
* International Safe Transit Association (ISTA)
* Japanese Standards Association (JAS/JIS)
* NACE International (National Association of Corrosion Engineers; NACE)
* National Fire Protection Association (NFPA)
* New York State Department of Transportation (NNSSCM/SCM)
* Pressure Sensitive Tape Council (PSTC)
* Suppliers of Advanced Composite Materials Association (SACMA)
* SAE International (SAE/AMS/AS)
* TAPPI (Technical Association of the Pulp and Paper Industry; TAPPI)
* Truss Plate Institute (TPI)
* United States Pharmacopeia Convention (USP)
From these entities we find standard-based methods such as:
* AATCC TM035-TM35-TM 35 ''Test Method for Water Resistance: Rain''<ref name="AATCC_TM035_21">{{cite web |url=https://members.aatcc.org/store/tm35/492/ |title=AATCC TM035-TM35-TM 35 ''Test Method for Water Resistance: Rain'' |publisher=American Association of Textile Chemists and Colorists |date=2021 |accessdate=08 November 2023}}</ref>
* DIN 25410 ''Nuclear facilities - Surface cleanliness of components''<ref name="DIN25410_23">{{cite web |url=https://www.din.de/en/getting-involved/standards-committees/nmp/publications/wdc-beuth:din21:373091485 |title=DIN 25410 ''Nuclear facilities - Surface cleanliness of components'' |publisher=DIN Deutsches Institut für Normung e.V |date=December 2023 |accessdate=08 November 2023}}</ref>
* IFI-124:2002 ''Test Procedures for the Performance of Nonmetallic Resistant Element Prevailing-Torque Screws''<ref name="IFI124_13">{{cite web |url=https://www.indfast.org/shop/product_detail.asp?id=119 |title=IFI-124:2002 ''Test Procedures for the Performance of Nonmetallic Resistant Element Prevailing-Torque Screws'' |publisher=Industrial Fasteners Institute |date=2013 |accessdate=08 November 2023}}</ref>
* PSTC 101 ''Peel Adhesion of Pressure Sensitive Tape''<ref name="PSTC101_07">{{cite web |url=https://53tape.com/downloads/pstc101.pdf |format=PDF |title=PSTC 101 ''Peel Adhesion of Pressure Sensitive Tape'' |publisher=Pressure Sensitive Tape Council |date=May 2007 |accessdate=08 November 2023}}</ref>
* TAPPI/ANSI T 804 OM:2020 ''Compression test of fiberboard shipping containers''<ref name="TAPPI804_20">{{cite web |url=https://infostore.saiglobal.com/en-us/standards/tappi-ansi-t-804-om-2020-1062852_saig_tappi_tappi_2871920/ |title=TAPPI/ANSI T 804 OM:2020 ''Compression test of fiberboard shipping containers'' |publisher=Technical Association of the Pulp & Paper Industry |date=09 August 2020 |accessdate=08 November 2023}}</ref>
===Regulations involving materials testing===
==Conclusion==
==References==
{{Reflist|colwidth=30em}}

Latest revision as of 21:57, 15 June 2024

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