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===Materials testing types=== | ===Materials testing types=== | ||
As noted prior, the diversity in materials testing methods is immense. As such, it's difficult to address all of them in an FAQ. That said, this article will provide examples of destructive and non-destructive test methods across the four property testing categories: physical, mechanical, chemical, and biological. Real-world examples from materials testing laboratories accredited to [[ISO/IEC 17025]] are used to exemplify the broad set of test methods in use. | As noted prior, the diversity in materials testing methods is immense. As such, it's difficult to address all of them in an FAQ. That said, this article will provide examples of destructive and non-destructive test methods across the four property testing categories: physical, mechanical, chemical, and biological. (Note that in a few cases, a test might be destructive or non-destructive, depending on the particulars, for example as found with hardness testing, a physical test.<ref name="BennettHard22">{{cite web |url=https://www.michlinmetals.com/hardness-testing-destructive-and-non-destructive-testing-ndt/ |title=Michael Talks Metal Video 112: Hardness Testing |author=Bennett, M. |publisher=Michlin Metals, Inc |date=08 December 2022 |accessdate=01 November 2023}}</ref> However, also note that physical tests are rarely destructive.) Real-world examples from materials testing laboratories accredited to [[ISO/IEC 17025]] are used to exemplify the broad set of test methods in use. | ||
====Physical==== | ====Physical==== | ||
A physical property of a material represents the actual physical, inconstant state of the material, with its own set of measurable and observable properties, separate from the material's chemical composition, mechanical, and biological properties.<ref name="MirandaWhatIs19">{{cite web |url=https://www.azom.com/article.aspx?ArticleID=17626 |title=What is the Difference Between a Physical Property and a Mechanical Property? |author=Miranda, G.M. |work=AZO Materials |date=14 February 2019 |accessdate=01 November 2023}}</ref> | A physical property of a material represents the actual physical, inconstant state of the material, with its own set of measurable and observable properties, separate from the material's chemical composition, mechanical, and biological properties.<ref name="MirandaWhatIs19">{{cite web |url=https://www.azom.com/article.aspx?ArticleID=17626 |title=What is the Difference Between a Physical Property and a Mechanical Property? |author=Miranda, G.M. |work=AZO Materials |date=14 February 2019 |accessdate=01 November 2023}}</ref> | ||
Destructive physical tests include: | |||
* hardness | |||
Non-destructive physical tests include: | |||
* hardness | |||
* thickness testing | |||
* https://customer.a2la.org/index.cfm?event=directory.detail&labPID=9AFC21E7-66A9-44C2-926C-A57555D4CB99 | * https://customer.a2la.org/index.cfm?event=directory.detail&labPID=9AFC21E7-66A9-44C2-926C-A57555D4CB99 | ||
| Line 115: | Line 124: | ||
* https://www.azom.com/article.aspx?ArticleID=17626 | * https://www.azom.com/article.aspx?ArticleID=17626 | ||
* tensile bond testing https://www.fhwa.dot.gov/pavement/concrete/tensile.cfm | |||
====Chemical==== | ====Chemical==== | ||
| Line 127: | Line 137: | ||
* https://search.anab.org/public/organization_files/North-American-Stainless-Melt-Shop-Laboratory-Cert-and-Scope-File-06-08-2023_1686248550.pdf | * https://search.anab.org/public/organization_files/North-American-Stainless-Melt-Shop-Laboratory-Cert-and-Scope-File-06-08-2023_1686248550.pdf | ||
Non-destructive chemical tests include: | |||
* liquid dye penetration https://www.hbbwinc.com/what-we-do/non-destructive-examination/ | |||
====Biological==== | ====Biological==== | ||
| Line 133: | Line 146: | ||
* https://www.arlok.com/2992-01_0.pdf | * https://www.arlok.com/2992-01_0.pdf | ||
* https://customer.a2la.org/index.cfm?event=directory.detail&labPID=38E3BFEF-645D-4A67-A921-873EEBAEEFED | * https://customer.a2la.org/index.cfm?event=directory.detail&labPID=38E3BFEF-645D-4A67-A921-873EEBAEEFED | ||
* https://pubs.aip.org/aip/acp/article/2102/1/020033/888534/Non-destructive-evaluation-of-biological-cells | |||
==Conclusion== | ==Conclusion== | ||
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Title: What types of testing occur within 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: The basics
Materials science and its associated tests are largely considered a part of the applied science branch of sciences, as the study and testing of the properties of materials are put to use in the manufacture and construction of a wide variety of items. Testing methodologies can be divided into physical, mechanical, chemical, and biological property testing, with each test falling under the category of destructive or non-destructive. Testing of a material may involve one or more of these methodologies, and occasionally all of them may be used as part of a comprehensive analytical approach towards a material.[1][2]
Material testing may happen under the umbrella of materials discovery and research, or materials quality/suitability testing. In the case of the former, computational methods may initially be used to search through existing materials databases, as well as virtually develop new material models for potential real-life development, before any actual real-world materials testing begins. In the case of the latter, the material is already discovered or created, and materials testing occurs to verify that its properties are suitable or of sufficient quality for their intended purpose. Technological systems such as laboratory information management systems (LIMS) may be used in both cases to better manage the associated data and information coming from their materials science activities.
Materials testing is as diverse as the available material types and industrial applications of those material types. Material testing domains include:
- Aerospace
- Automotive
- Carbon
- Coatings, linings, and sealants
- Construction and engineering
- Insulation, foam, and composites
- Lubricants and thickeners
- Medical devices
- Metals
- Packaging and labeling
- Paints and oils
- Paper
- Polymers and plastics
- Raw materials
- Reference materials
- Rubbers
- Electronics and energy devices
- Textiles
- Wood
Optimally, materials testing is performed by a laboratory that is accredited to a relevant set of standards and test methods, making materials testing more standardized and reliable, in turn adding confidence to any items made or constructed from those tested materials.
Materials testing types
As noted prior, the diversity in materials testing methods is immense. As such, it's difficult to address all of them in an FAQ. That said, this article will provide examples of destructive and non-destructive test methods across the four property testing categories: physical, mechanical, chemical, and biological. (Note that in a few cases, a test might be destructive or non-destructive, depending on the particulars, for example as found with hardness testing, a physical test.[3] However, also note that physical tests are rarely destructive.) Real-world examples from materials testing laboratories accredited to ISO/IEC 17025 are used to exemplify the broad set of test methods in use.
Physical
A physical property of a material represents the actual physical, inconstant state of the material, with its own set of measurable and observable properties, separate from the material's chemical composition, mechanical, and biological properties.[4]
Destructive physical tests include:
- hardness
Non-destructive physical tests include:
- hardness
- thickness testing
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=9AFC21E7-66A9-44C2-926C-A57555D4CB99
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=90975A9E-26BB-4DCC-921A-9786F504539D
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=E380DF60-DB17-42BA-A46F-63C2878FCFEE
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=76692A99-1A84-4915-AF6C-16521E541AD0
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=8D04803D-427F-4698-8541-3E1FBF27EF05
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=C07768C0-6BB2-4FAB-9D6D-C5D4F9D93403 and https://www.vartest.com/tech
- https://www.iasonline.org/wp-content/uploads/2017/05/TL-388-CERT-NEW.pdf
- https://www.iasonline.org/wp-content/uploads/2017/05/TL-566-Cert-New.pdf
- https://www.iasonline.org/wp-content/uploads/2017/05/TL-350-cert-New.pdf
- https://search.anab.org/public/organization_files/Charter-Coating-Service-2000-Ltd-Cert-and-Scope-File-11-07-2022_1667841835.pdf (Non-destructive)
- https://search.anab.org/public/organization_files/Product-Assurance-Services-Inc-Cert-and-Scope-File-11-02-2021_1635864735.pdf (Non-destructive)
- https://search.anab.org/public/organization_files/Product-Evaluation-Systems-Inc-Cert-and-Scope-File-11-02-2022_1667403150.pdf (Non-destructive)
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=90975A9E-26BB-4DCC-921A-9786F504539D (Non-destructive)
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=A3C7BB80-EFEF-47EF-A7C6-CB4389D35AF4 (Non-destructive)
Optical and Thermal
- https://search.anab.org/public/organization_files/Integrated-Technologies-Inc-Cert-and-Scope-File-08-02-2023_1690996216.pdf
- https://search.anab.org/public/organization_files/ABC-Technologies-Inc-dba-Salflex-Polymers-Cert-and-Scope-File-10-16-2023_1697484740.pdf
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=76692A99-1A84-4915-AF6C-16521E541AD0
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=8D04803D-427F-4698-8541-3E1FBF27EF05
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=C07768C0-6BB2-4FAB-9D6D-C5D4F9D93403 and * https://www.vartest.com/tech
- https://www.iasonline.org/wp-content/uploads/2017/05/TL-388-CERT-NEW.pdf
- https://www.iasonline.org/wp-content/uploads/2017/05/TL-566-Cert-New.pdf
- https://search.anab.org/public/organization_files/Charter-Coating-Service-2000-Ltd-Cert-and-Scope-File-11-07-2022_1667841835.pdf
- https://en.wikipedia.org/wiki/Infrared_non-destructive_testing_of_materials
- https://www.aimplas.net/test-types/thermal-properties/
- https://www.azom.com/article.aspx?ArticleID=18848
- https://byjus.com/physics/thermal-properties-of-materials/
Fire and flammability (Destructive)
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=C07768C0-6BB2-4FAB-9D6D-C5D4F9D93403 and https://www.vartest.com/tech
- https://www.rst-labs.com/en/fire-laboratory/
- https://www.vteclabs.com/testing/fire-flammability-testing/
Acoustical
- https://search.anab.org/public/organization_files/Blachford-Incorporated-dba-Blachford-Acoustics-Laboratory-Cert-and-Scope-File-06-21-2023_1687370807.pdf
- https://www.mdpi.com/1996-1944/12/19/3237
Mechanical
A mechanical property of a material represents the functional, inconstant state of the material, particularly in how it reacts when a load is applied to it. Measuring mechanical properties gives a better idea of the materials realistic service life or performance under mechanical stresses.[4]
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=9AFC21E7-66A9-44C2-926C-A57555D4CB99
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=90975A9E-26BB-4DCC-921A-9786F504539D
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=E380DF60-DB17-42BA-A46F-63C2878FCFEE
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=76692A99-1A84-4915-AF6C-16521E541AD0
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=8D04803D-427F-4698-8541-3E1FBF27EF05
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=C07768C0-6BB2-4FAB-9D6D-C5D4F9D93403 and https://www.vartest.com/tech
- https://www.iasonline.org/wp-content/uploads/2017/05/TL-388-CERT-NEW.pdf
- https://www.iasonline.org/wp-content/uploads/2017/05/TL-566-Cert-New.pdf
- https://www.iasonline.org/wp-content/uploads/2017/05/TL-350-cert-New.pdf
- https://www.azom.com/article.aspx?ArticleID=17626
- tensile bond testing https://www.fhwa.dot.gov/pavement/concrete/tensile.cfm
Chemical
Spectroscopy Wet chemistry
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=A3C7BB80-EFEF-47EF-A7C6-CB4389D35AF4
- https://aspenresearch.com/aspen-research-home/analytical-lab/ and * https://customer.a2la.org/index.cfm?event=directory.detail&labPID=A3C7BB80-EFEF-47EF-A7C6-CB4389D35AF4
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=3A2B89BA-4A8B-4D9F-872C-217AE166DB8B
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=90975A9E-26BB-4DCC-921A-9786F504539D
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=9A2B77F6-41BA-4BE9-8A31-D9E070280D53
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=C07768C0-6BB2-4FAB-9D6D-C5D4F9D93403 and https://www.vartest.com/tech
- https://search.anab.org/public/organization_files/North-American-Stainless-Melt-Shop-Laboratory-Cert-and-Scope-File-06-08-2023_1686248550.pdf
Non-destructive chemical tests include:
- liquid dye penetration https://www.hbbwinc.com/what-we-do/non-destructive-examination/
Biological
Biological (raw materials)
- https://dyadlabs.com/wp-content/uploads/2023/04/Dyad-Labs-L23-93.pdf
- https://www.arlok.com/2992-01_0.pdf
- https://customer.a2la.org/index.cfm?event=directory.detail&labPID=38E3BFEF-645D-4A67-A921-873EEBAEEFED
- https://pubs.aip.org/aip/acp/article/2102/1/020033/888534/Non-destructive-evaluation-of-biological-cells
Conclusion
References
- ↑ Shen, Ya; Peng, Bin; Yang, Yan; Ma, Jingzhi; Haapasalo, Markus (1 May 2015). [* https://onlinelibrary.wiley.com/doi/10.1111/etp.12076 "What do different tests tell about the mechanical and biological properties of bioceramic materials?"] (in en). Endodontic Topics 32 (1): 47–85. doi:10.1111/etp.12076. ISSN 1601-1538.
- ↑ Kang, Tae-Yun; Choi, Ji-Won; Seo, Kyoung-Jin; Kim, Kwang-Mahn; Kwon, Jae-Sung (30 March 2021). [* https://www.mdpi.com/1996-1944/14/7/1693 "Physical, Chemical, Mechanical, and Biological Properties of Four Different Commercial Root-End Filling Materials: A Comparative Study"] (in en). Materials 14 (7): 1693. doi:10.3390/ma14071693. ISSN 1996-1944. PMC PMC8036496. PMID 33808262.
- ↑ Bennett, M. (8 December 2022). "Michael Talks Metal Video 112: Hardness Testing". Michlin Metals, Inc. https://www.michlinmetals.com/hardness-testing-destructive-and-non-destructive-testing-ndt/. Retrieved 01 November 2023.
- ↑ 4.0 4.1 Miranda, G.M. (14 February 2019). "What is the Difference Between a Physical Property and a Mechanical Property?". AZO Materials. https://www.azom.com/article.aspx?ArticleID=17626. Retrieved 01 November 2023.
