Q235B Steel

microstructural control of additively manufactured

microstructural control of additively manufactured

microstructural control of additively manufactured

(PDF) Interpass Rolling of Ti-6Al-4V Wire + Arc Additively

Application of bulk deformation methods for microstructural and material property improvement and residual stress and distortion control in additively manufactured components Article Full-text (PDF) Ordered nitrogen complexes overcoming strength Nov 11, 2020 · off in an additively manufactured high-entropy alloy, Virtual and Physical Prototyping, DOI:10.1080/17452759.2020.1840783 To link to this article:https://doi.or g/10.1080/17452759.2020.1840783

Application of bulk deformation methods for

Jul 01, 2017 · Application of bulk deformation methods for microstructural and material property improvement and residual stress and distortion control in additively manufactured components. Author links open overlay panel Paul A. Colegrove a Jack Donoghue b Filomeno Martina a Jianglong Gu c Philip Prangnell b Jan Hönnige a. Applications of Microscopy in Additive ManufacturingMicrostructural Evolution of Additively Manufactured Components with ZEISS Axio Imager.Z2m Light microscopes are powerful tools to check the microstruc - ture of additively manufactured components. Microstructural defects, inhomogenities and phase distributions are of particular interest as they influence the usage properties appreciably. Identifying microstructural features that control fracture Sep 26, 2020 · A unique fractographic technique, FRASTA, was applied to additively manufactured IN718 J-R fracture test specimens to determine the microstructural failure mechanism. The results clearly showed that the material failed by nucleation, growth, and coalescence of microfailures in the highly stressed process zone in advance of the macrocrack front.

In situ tailoring microstructure in additively

Feb 15, 2017 · Presented here are our latest research findings on microstructural control of additively manufactured Ti-6Al-4V by SLM. We show that, by designing innovative SLM processing routes, it is practical to attain significant in-situ martensite decomposition to produce lamellar (+) microstructures with a tuneable lath width ranging from 0 Microstructural Characterization and Thermomechanical Alhammadi A., Khan K.A., Al-Ketan O., Ali M.I.H., Rowshan R., Abu Al-Rub R.K. (2020) Microstructural Characterization and Thermomechanical Behavior of Additively Manufactured AlSi10Mg Material and Architected Cellular Structures. In:The Minerals, Metals & Materials Society (eds) TMS 2020 149th Annual Meeting & Exhibition Supplemental Proceedings. Microstructural Control of Additively Manufactured In additively manufactured (AM) metallic materials, the fundamental interrelationships that exist between composition, processing, and microstructure govern these materials properties and potential improvements or reductions in performance. For example, by using AM, it is possible to achieve highly desirable microstructural features (e.g., highly refined precipitates) that could not

Microstructural Control of Additively Manufactured

Microstructural Control of Additively Manufactured Metallic Materials Year Published:2016. microstructural_control_of_additively_manufactured_metallic_materials.pdf (format PDF / 4 MB) Ames Laboratory (AL) Agency. Dept. of Energy. Region. Mid-Continent. State:Iowa. Lab Profile Modeling of Microstructural Irregularities in Additively Nov 28, 2018 · Modeling of Microstructural Irregularities in Additively Manufactured Materials. Agency:Department of Defense OBJECTIVE:Develop a modeling framework to predict the mechanical properties of additively manufactured structures accounting for microstructure . DESCRIPTION:The additive manufacturing (AM) process often produces parts with Modeling of Microstructural Irregularities in Additively Nov 28, 2018 · Modeling of Microstructural Irregularities in Additively Manufactured Materials. Agency:Department of Defense OBJECTIVE:Develop a modeling framework to predict the mechanical properties of additively manufactured structures accounting for microstructure . DESCRIPTION:The additive manufacturing (AM) process often produces parts with

Phase transformation - induced strengthening of an

Oct 01, 2020 · Phase transformation - induced strengthening of an additively manufactured multi- principal element CrMnFeCoNi alloy Author links open overlay panel Jinfeng Li a 1 Hengwei Luan b 1 2 Linsen Zhou a Abdukadir Amar c Rui Li a Liufei Huang c Xue Liu a Guomin Le a Xiaoying Wang a Jian Wu a Chunli Jiang a Research Alloy Design and Development Laboratories This research is useful for microstructural designing of as-fabricated samples and will improve the performance of additively manufactured components. Ankur also aims to couple his work with modeling and machine learning techniques to understand the fundamentals of laser-powder interaction and to predict the optimal processing conditions for The Hardness of Additively Manufactured Alloys (Journal @article{osti_1671, title = {The Hardness of Additively Manufactured Alloys}, author = {Zuback, J. S. and DebRoy, T.}, abstractNote = {The rapidly evolving field of additive manufacturing requires a periodic assessment of the progress made in understanding the properties of metallic components. Although extensive research has been undertaken by many investigators, the data on properties

Microstructural Control of Additively Manufactured

In additively manufactured (AM) metallic materials, the fundamental interrelationships that exist between composition, processing, and microstructure govern these materials' properties and

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