A proof-of-concept analysis relating dimensions of a melt pool to its vibrational behavior to control a laser-based additive manufacturing process Article Swipe

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Galid Arroud , Julien Ertveldt , Patrick Guillaume ·

YOU? · · 2020 · Open Access · · DOI: https://doi.org/10.1016/j.procir.2020.09.154

The formation of a melt pool, during an additive manufacturing process, is a complex multi-physical process. Apparent factors, contributing to its complexity, are among others: the high temperatures, the existence of the material in multiple physical states and the involved high dynamics. However, it is a challenge to have full real-time control over all these factors. In this contribution, we will present our results and shed light, on the basis of measurements with a scanning laser doppler vibrometer, on how the vibrational behavior of the melt pool relates to its penetration depth into the substrate.

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Laser Doppler vibrometer Process (computing) Laser Process control Proof of concept Materials science Mechanical engineering Control (management) Substrate (aquarium) Laser beams Computer science Optics Engineering Physics Geology Artificial intelligence Operating system Oceanography

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Type: article
Language: en
Landing Page: https://doi.org/10.1016/j.procir.2020.09.154
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Cited By: 2
References: 13
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DOI: https://doi.org/10.1016/j.procir.2020.09.154

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Title: A proof-of-concept analysis relating dimensions of a melt pool to its vibrational behavior to control a laser-based additive manufacturing process

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Publication year: 2020

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Authors: Galid Arroud, Julien Ertveldt, Patrick Guillaume

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Concepts: Laser Doppler vibrometer, Process (computing), Laser, Process control, Proof of concept, Materials science, Mechanical engineering, Control (management), Substrate (aquarium), Laser beams, Computer science, Optics, Engineering, Physics, Geology, Artificial intelligence, Operating system, Oceanography

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Cited by: 2

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abstract_inverted_index.physical	35
abstract_inverted_index.process,	10
abstract_inverted_index.process.	15
abstract_inverted_index.scanning	74
abstract_inverted_index.challenge	46
abstract_inverted_index.dynamics.	41
abstract_inverted_index.existence	29
abstract_inverted_index.formation	1
abstract_inverted_index.real-time	50
abstract_inverted_index.substrate.	94
abstract_inverted_index.complexity,	21
abstract_inverted_index.penetration	90
abstract_inverted_index.vibrational	81
abstract_inverted_index.vibrometer,	77
abstract_inverted_index.contributing	18
abstract_inverted_index.measurements	71
abstract_inverted_index.contribution,	58
abstract_inverted_index.manufacturing	9
abstract_inverted_index.temperatures,	27
abstract_inverted_index.multi-physical	14
cited_by_percentile_year.max	94
cited_by_percentile_year.min	89
corresponding_author_ids	https://openalex.org/A5017960103
countries_distinct_count	1
institutions_distinct_count	3
corresponding_institution_ids	https://openalex.org/I13469542
citation_normalized_percentile.value	0.42944997
citation_normalized_percentile.is_in_top_1_percent	False
citation_normalized_percentile.is_in_top_10_percent	False