Crack growth in conventionally manufactured pure nickel, titanium and aluminum and the cold spray additively manufactured equivalents
It has recently been shown that when the da/dN versus ΔK curves associated with crack growth in conventionally manufactured, additively manufactured (AM), and cold spray additively manufactured (CSAM) 316L stainless steel are replotted with da/dN expressed as a function of the Schwalbe crack driving...
| Main Authors: | , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Elsevier
2022-12-01
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| Series: | Additive Manufacturing Letters |
| Subjects: | |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S2772369022000184 |
| _version_ | 1797986754081325056 |
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| author | Rhys Jones Ondrej Kovarik Jan Cizek Andrew Ang Jeff Lang |
| author_facet | Rhys Jones Ondrej Kovarik Jan Cizek Andrew Ang Jeff Lang |
| author_sort | Rhys Jones |
| collection | DOAJ |
| description | It has recently been shown that when the da/dN versus ΔK curves associated with crack growth in conventionally manufactured, additively manufactured (AM), and cold spray additively manufactured (CSAM) 316L stainless steel are replotted with da/dN expressed as a function of the Schwalbe crack driving force (Δκ), then the various different curves collapsed onto a single master curve. This study reveals that this phenomenon also arises for crack growth in titanium, nickel, and aluminum. In each case, the da/dN versus Δκ relationship is shown to be independent of whether the specimen was conventionally manufactured or produced by CSAM. |
| first_indexed | 2024-04-11T07:37:51Z |
| format | Article |
| id | doaj.art-d620ffa5c08b4ae7a5b153734195e650 |
| institution | Directory Open Access Journal |
| issn | 2772-3690 |
| language | English |
| last_indexed | 2024-04-11T07:37:51Z |
| publishDate | 2022-12-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Additive Manufacturing Letters |
| spelling | doaj.art-d620ffa5c08b4ae7a5b153734195e6502022-12-22T04:36:41ZengElsevierAdditive Manufacturing Letters2772-36902022-12-013100043Crack growth in conventionally manufactured pure nickel, titanium and aluminum and the cold spray additively manufactured equivalentsRhys Jones0Ondrej Kovarik1Jan Cizek2Andrew Ang3Jeff Lang4Center of Expertise for Structural Mechanics, Department of Mechanical and Aerospace Engineering, Monash University, Clayton, Victoria 3800, Australia; ARC Industrial Transformation Training Center on Surface Engineering for Advanced Materials, Faculty of Science, Engineering and Technology, Swinburne University of Technology, John Street, Hawthorn, Victoria 3122, Australia; Corresponding author at: Center of Expertise for Structural Mechanics, Department of Mechanical and Aerospace Engineering, Monash University, Clayton, Victoria 3800, Australia.Faculty on Nuclear Sciences and Physical Engineering, Czech Technical University in Prague, Prague, Czech RepublicInstitute of Plasma Physics of the Czech Academy of Sciences, Prague, Czech RepublicARC Industrial Transformation Training Center on Surface Engineering for Advanced Materials, Faculty of Science, Engineering and Technology, Swinburne University of Technology, John Street, Hawthorn, Victoria 3122, AustraliaTitomic Limited, Building 3/270 Ferntree Gully Rd, Victoria, AustraliaIt has recently been shown that when the da/dN versus ΔK curves associated with crack growth in conventionally manufactured, additively manufactured (AM), and cold spray additively manufactured (CSAM) 316L stainless steel are replotted with da/dN expressed as a function of the Schwalbe crack driving force (Δκ), then the various different curves collapsed onto a single master curve. This study reveals that this phenomenon also arises for crack growth in titanium, nickel, and aluminum. In each case, the da/dN versus Δκ relationship is shown to be independent of whether the specimen was conventionally manufactured or produced by CSAM.http://www.sciencedirect.com/science/article/pii/S2772369022000184Cold spray additive manufacturingFatigue crack growthHartman-Schijve equation |
| spellingShingle | Rhys Jones Ondrej Kovarik Jan Cizek Andrew Ang Jeff Lang Crack growth in conventionally manufactured pure nickel, titanium and aluminum and the cold spray additively manufactured equivalents Additive Manufacturing Letters Cold spray additive manufacturing Fatigue crack growth Hartman-Schijve equation |
| title | Crack growth in conventionally manufactured pure nickel, titanium and aluminum and the cold spray additively manufactured equivalents |
| title_full | Crack growth in conventionally manufactured pure nickel, titanium and aluminum and the cold spray additively manufactured equivalents |
| title_fullStr | Crack growth in conventionally manufactured pure nickel, titanium and aluminum and the cold spray additively manufactured equivalents |
| title_full_unstemmed | Crack growth in conventionally manufactured pure nickel, titanium and aluminum and the cold spray additively manufactured equivalents |
| title_short | Crack growth in conventionally manufactured pure nickel, titanium and aluminum and the cold spray additively manufactured equivalents |
| title_sort | crack growth in conventionally manufactured pure nickel titanium and aluminum and the cold spray additively manufactured equivalents |
| topic | Cold spray additive manufacturing Fatigue crack growth Hartman-Schijve equation |
| url | http://www.sciencedirect.com/science/article/pii/S2772369022000184 |
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