Tesi etd-07302014-153210 |
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Tipo di tesi
Tesi di laurea magistrale
Autore
LUPI, MARTA
URN
etd-07302014-153210
Titolo
Lean Kitting
Dipartimento
INGEGNERIA DELL'ENERGIA, DEI SISTEMI, DEL TERRITORIO E DELLE COSTRUZIONI
Corso di studi
INGEGNERIA GESTIONALE
Relatori
relatore Dott. Ball, Peter
tutor Carroll, Andrew
relatore Prof. Dini, Gino
tutor Carroll, Andrew
relatore Prof. Dini, Gino
Parole chiave
- Methodology.
- Problem Analysis
- Cost Benefit Analysis
- Proposed Solution Plan
- Lean Manufacturing
- Kitting Best Practices
- Kitting Process
Data inizio appello
24/09/2014
Consultabilità
Completa
Riassunto
Il processo di kitting è una pratica utilizzata da ogni tipo di azienda per guidare le operazioni di assemblaggio. Potenziali sprechi e inefficienze che possono rallentare il ritmo di questo processo multi-livello, causando problemi di produttività e qualità, sono il punto di partenza per l'applicazione dei concetti di lean manufacturing e riflessione sul concetto di lean kitting. Tuttavia, mentre la letteratura si è sempre concentrata sul miglioramento della produzione di massa, poca attenzione è stata prestata ad ambienti lavorativi diversi. Questa rappresenta la sfida affrontata dal progetto di tesi e il gap dove si inserisce l’ obiettivo di creare di una metodologia per affrontare e risolvere i problemi più comuni del processo di kitting. La necessità di risultati di valore ha innescato l'utilizzo di un caso di studio industriale, che ha contribuito a costruire il quadro generale del processo di kitting e ottenere una più profonda comprensione del tema lean kitting. La metodologia creata spazia dalla ricerca delle best practices alla proposta di soluzioni ideali e realistiche, includendo un’analisi dei problemi con approccio bottom-up, la comprensione dei requisiti ed eventuali vincoli industriali del processo stesso.
The kitting process is a practice used by all kinds of companies to drive the assembly operations. Wastes and inefficiencies can slow down the pace of this process, causing quality and productivity issues, and the understanding of this problem is the starting point for the application of the lean concepts and creation of a leaner kitting process. However, while the literature has always focused on studying the best practices for the improvement of high-volume/low-variety environments, little attention have been paid to how the lean features may fit to opposite types of environments. This represents the challenge faced by the research and the gap where the creation of a methodology to evaluate and address the most common kitting issues fits as the main objective. In order to gain a deep understanding of the lean kitting process, an industrial case study was used to support the development and the test of the research. The methodology created incorporates the research of the best practice and a bottom-up problem analysis. Furthermore, the definition of the kitting requirements and possible industrial constraints has been essential steps for the creation of an ideal and a realistic solution proposal.
The kitting process is a practice used by all kinds of companies to drive the assembly operations. Wastes and inefficiencies can slow down the pace of this process, causing quality and productivity issues, and the understanding of this problem is the starting point for the application of the lean concepts and creation of a leaner kitting process. However, while the literature has always focused on studying the best practices for the improvement of high-volume/low-variety environments, little attention have been paid to how the lean features may fit to opposite types of environments. This represents the challenge faced by the research and the gap where the creation of a methodology to evaluate and address the most common kitting issues fits as the main objective. In order to gain a deep understanding of the lean kitting process, an industrial case study was used to support the development and the test of the research. The methodology created incorporates the research of the best practice and a bottom-up problem analysis. Furthermore, the definition of the kitting requirements and possible industrial constraints has been essential steps for the creation of an ideal and a realistic solution proposal.
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| Tesi_Lup...tting.pdf | 4.02 Mb |
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