universita` degli studi di brescia - Università degli Studi di Brescia

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METGHALCHI
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Requisiti e modalità di ammissione (in ITALIANO)
Requisiti di
ammissione
Tematiche di ricerca
Tutte le Lauree vecchio ordinamento o Laurea Specialistica/Magistrale
o analogo titolo accademico conseguito all’estero e dichiarato
equipollente o riconosciuto equivalente ai suddetti titoli accademici.
Possono presentare domanda di ammissione anche i laureandi, con
l’obbligo di sostenere l’esame di laurea entro il 31/12/2013.
Modalità di ammissione
L’obiettivo del programma DRIMI è di formare figure professionali di alto
profilo tecnico-scientifico dotati di bagaglio tecnico, esperienza, indipendenza e
leadership come necessari per assumere ruoli di responsabilità nei settori
industriali in ricerca, innovazione, sviluppo, progettazione, produzione e
logistica. L’indipendenza tecnico-scientifica viene acquisita mediante ricerca di
livello accademico, sia indirizzata ad applicazioni industriali e condotta in
collaborazione con aziende private o del settore pubblico, sia focalizzate sullo
sviluppo dei fondamenti scientifici delle tecnologie alla base delle applicazioni
industriali e del’innovazione, condotte su finanziamento istituzionale da parte di
enti nazionali ed internazionalicome il MIUR e l’ERC.
Il corso DRIMI è suddiviso in quattro Sezioni che operano rispettivamente nelle
seguenti quattro Aree tecnico-scientifiche:
A) Materiali per l’Ingegneria;
B) Meccanica Applicata;
C) Progettazione e Gestione dei Sistemi Logistici e Produttivi Integrati;
D) Tecnologie e Sistemi Energetici, Termofluidodinamici e di Lavorazione
Meccanica.
E più precisamente sulle tematiche di ricerca di seguito dettagliate.
A) Materiali per l’Ingegneria:
Il campo di studio e di ricerca della Sezione “Materiali per l’Ingegneria”
riguarda lo sviluppo e l’applicazione dei materiali nei diversi settori
dell’Ingegneria, con finalità costruttive e funzionali. In tal senso i principali
settori applicativi sono quello meccanico, civile, biomedicale, elettronico,
energetico, oltre a quello del design industriale e della conservazione dei beni
culturali. L’interesse è volto, pertanto, ad un ampio spettro di tipologie di
materiali che si diversificano sia per la loro natura (metalli, polimeri, cementi,
ceramiche, materie prime, ecc.) che per caratteristiche morfologico-strutturali o
dimensionali (compositi, nanocompositi, materiali nanostrutturati, film sottili,
ecc.). Le attività si articolano nei seguenti ambiti:
 sviluppo di tecnologie di preparazione di nuovi materiali;
 utilizzo e messa a punto di metodologie sperimentali per la
caratterizzazione chimico-fisica e morfologico-strutturale dei materiali;
 studio del comportamento meccanico dei materiali e relativa
 caratterizzazione;
 sviluppo di tecnologie di trasformazione;
 studio delle correlazioni proprietà/struttura dei materiali;
 studio dei processi di inertizzazione e delle interazioni
materiale/ambiente;
 sviluppo di procedure progettuali innovative connesse con l’utilizzo di
 materiali non convenzionali.
B) Meccanica Applicata:
Il campo di studio della Sezione è quello delle macchine, dispositivi e sistemi per
applicazioni industriali e di servizio, con riferimento sia ai sistemi nel loro
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insieme, sia ai loro componenti strutturali, di attuazione, di misura, regolazione e
controllo.
Le metodologie riguardano pertanto lo studio funzionale, cinematico e dinamico,
di sistemi complessi e relativa rappresentazione, modellizzazione e simulazione
finalizzate sia all’avanzamento delle conoscenze di settore sia alle tecniche e
procedure di progettazione.
L’articolazione disciplinare delle attività riguarda prioritariamente i seguenti
ambiti:
 robotica e automazione industriale;
 biomeccanica;
 sistemi avanzati di progettazione;
 meccanica dei sistemi;
 meccanica del veicolo;
 sistemi avanzati di manifattura;
 elaborazione e gestione della documentazione di prodotto;
 relazioni tra morfologia, funzionalità, sicurezza e percezione.
C) Progettazione e Gestione dei Sistemi Logistici e Produttivi Integrati:
La principale finalità della Sezione è di formare degli specialisti in possesso di
conoscenze tecnico scientifiche di elevato livello ed all'avanguardia del sapere ad
oggi disponibile relativo alle seguenti tematiche principali:
 i sistemi logistici e produttivi (L&PSys), le loro determinanti endogene
di tipo progettuale, organizzativo, economico, energetico e gestionale e
le loro prestazioni;
 i principali problemi connessi alla configurazione, al dimensionamento,
ed alla gestione dei L&PSys;
 le modalità attraverso le quali diversi L&PSys interagiscono tra di loro,
costituendo reti di aziende e catene di fornitura;
 i principali problemi legati all’ottimizzazione e gestione del sistema dei
trasporti aziendali interni ed inseriti nella rete logistica distributiva;
 le modalità attraverso le quali un L&PSys determina le condizioni
operative e di lavoro (condizioni ambientali, condizioni organizzative,
ecc.) e si pone in relazione con l'ambiente esterno (impatto ambientale
dei processi e dei prodotti);
 gli aspetti e le metodologie di progettazione e gestione della sicurezza e
dell’ergonomia negli impianti e nei processi di produzione;
 i principali problemi e metodi per il controllo dell’affidabilità dei sistemi
impiantistici;
 le metodologie e i sistemi tradizionali e avanzati di progettazione,
comprese le tecniche quantitative e la modellistica a supporto delle
decisioni inerenti la progettazione e la gestione dei L&PSys;
 le tecnologie e gli strumenti dell'Information & Communication
Technology di supporto alla progettazione ed alla gestione dei L&PSys.
D) Tecnologie e Sistemi Energetici, Termofluidodinamici e di Lavorazione
Meccanica:
I campi di studio e ricerca della Sezione sono i sistemi e le tecnologie
energetiche e i metodi di ingegnerizzazione di nuovi prodotti. In ambito
energetico, la ricerca è indirizzata verso il prodotto industriale e i sistemi
complessi di conversione dell’energia; al contempo, viene sostenuta e incentivata
anche l’attività di ricerca su aspetti fondamentali e di base (chimici, fisici e
matematici) senza immediate ricadute applicative. L’ambito tecnologico è volto
all'impiego di tecniche di industrializzazione di nuovi prodotti con metodologie
tradizionali e con metodologie innovative, nell'ottica del sempre più largo
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impatto delle tecniche di lavoro non convenzionali e delle innovazioni introdotte
nella lavorazione di materiali innovativi.
L’articolazione disciplinare delle attività riguarda prioritariamente i seguenti
ambiti:
 fluidodinamica sperimentale e numerica;
 flussi multifase per applicazioni industriali;
 sistemi di produzione e conversione dell’energia elettrica;
 processi e sensori per la sicurezza in ambito agro-alimentare
 cogenerazione e microgenerazione distribuita e ibrida;
 acustica;
 termodinamica dei fenomeni irreversibili e del non-equilibrio;
 metodi multiscala per fenomeni di trasporto;
 metodologie produttive per dispositivi biomedicali;
 incremental forming;
 idroformatura.
Presentazione e
valutazione della
domanda di
ammissione, delle
lettere di referenze e
degli eventuali altri
titoli
I candidati devono allegare alla domanda:
 il Curriculum Vitae, Studiorum e Scientifico dettagliato, redatto in
inglese compilando l’apposito Modulo messo a disposizione sul sito di
ateneo (file denominato DRIMI_ApplicationForm.doc che va compilato,
datato, firmato, scansito in formato PDF e rinominato
Lastname_DRIMI_ApplicationForm.pdf)
 almeno una Lettera di Referenze facendo compilare ad una persona di
riferimentol’apposito Modulo messo a disposizione sul sito di ateneo
(file denominato DRIMI_LetterOfRecommendation.doc che va
compilato, stampato su carta intestata dello scrivente, datato, firmato,
scansito in formato PDF e rinominato
Lastname_DRIMI_LetterOfRecommendation.pdf)
 tutti gli altri documenti ritenuti utili alla valutazione dovranno essere
scansiti e montati in un unico file PDF denominato
Lastname_DRIMI_OtherDocuments.pdf
Non verranno ammessi alla valutazione dei titoli i candidati con curriculum
giudicato dalla Commissione Esaminatrice “non coerente con le tematiche di
ricerca del corso di dottorato DRIMI”.
Punteggio massimo per la valutazione dei titoli: 20 punti, acquisibile come
segue:
 Tesi di laurea o successiva attività scientifica attinenti alle tematiche di
ricerca del corso: punteggio massimo 8
 Votazione di laurea (o media voti esami per i non laureati): punteggio
massimo 6
 Premi, riconoscimenti, altri titoli: punteggio massimo 3
 Attività di tipo internazionale (stage, tesi all’estero): punteggio massimo 3
Presentazione e
valutazione della
dichiarazione degli
interessi tecnicoscientifici e del progetto
di ricerca
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I candidati devono allegare alla domanda:
una breve Dichiarazione degli Interessi Tecnico-Scientifici (max 2500 caratteri
spazi inclusi) in cui il canditato:
 illustri le motivazioni generali per cui concorre all’ammissione al corso di
dottorato scelto
 indichi in quale delle quattro Aree di ricerca del corso risiede il suo
principale interesse scientifico, illustrando le motivazioni (eventualmente è
possibile indicare anche una seconda Area, specificando chiaramente
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l’ordine di priorità e le motivazioni)
deve essere sviluppata interamente in inglese o in italiano con almeno le
motivazioni generali in inglese
deve essere redatta sull’apposito Modulo messo a disposizione sul sito di
ateneo (file denominato
DRIMI_StatementOfMotivation&ResearchInterests.doc che va compilato,
firmato, scansito in formato PDF e rinominato
Lastname_DRIMI_StatementOfMotivation&ResearchInterests.pdf)
un Progetto di Ricerca con le seguenti caratteristiche:
 il progetto deve vertere su una delle tematiche di ricerca del dottorato da
indicarsi chiaramente nell'introduzione
 deve essere sviluppato in inglese o in italiano con almeno il sommario anche
in inglese
 deve essere di lunghezza non superiore ai 15000 caratteri (spazi inclusi) in
formato PDF
 deve contenere: titolo, ambito di ricerca (uno di quelli del dottorato),
sommario, scopo della ricerca, stato dell'arte, risultati attesi, metodologia
proposta, bibliografia
 deve essere redatta sull’apposito Modulo messo a disposizione sul sito di
ateneo (file denominato DRIMI_ResearchProjectProposal.doc che va
compilato, datato, firmato, scansito in formato PDF e rinominato
Lastname_DRIMI_ResearchProjectProposal.pdf)
Si precisa che il tema scelto per il Progetto non rappresenta in caso di
ammissione quella da svilupparsi nel corso del dottorato
Non verranno ammessi alla valutazione della dichiarazione e del progetto i
candidati che hanno conseguito nella “Valutazione dei titoli” un punteggio
inferiore a 12.
Punteggio massimo per la valutazione complessiva della dichiarazione e del
progetto: 40 punti
La Commissione può contattare anche telematicamente i candidati per un
colloquio conoscitivo di approfondimento sul materiale inviato (tale colloquio
non comporta punteggio aggiuntivo).
Prova orale
Sede e data di
svolgimento della
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Dopo aver composto la graduatoria finale dei candidati ritenuti idonei per
l’ammissione al corso di dottorato, la Commissione procede a valutare l’idoneità
degli stessi per ciascuno dei temi di ricerca cui sono subordinate le borse a tema
specifico. Ai fini dell’assegnazione delle borse a tema specifico, la Commissione
terrà conto delle aree per le quali il candidato abbia dichiarato la propria
preferenza nella documentazione presentata nella domanda, inoltre la
Commissione potrà richiedere ai responsabili scientifici dei progetti a tema
specifico un parere (che sarà riportato a verbale) circa l’idoneità del candidato al
tema stesso e terrà conto delle aree per le quali il candidato abbia dichiarato la
propria preferenza, sulla base della documentazione presentata nella domanda.
Qualora nessun candidato in graduatoria risulti idoneo al tema specifico di uno
dei posti con borsa, quel posto non verrà assegnato. Qualora nessun candidato in
graduatoria risulti idoneo al tema di ricerca specifico della borsa PRIN associata
ad uno dei posti senza borsa, così come nel caso che tale progetto PRIN non
risultasse finanziato entro l’1/1/2014, quel posto verrà assegnato senza borsa.
*** NON prevista ***
*** NON prevista ***
prova orale
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Admission procedures and requirements (in INGLESE)
Admission
prerequisites
Research Areas and
Research Topics
Candidates must have an MS degree in engineering, physics, mathematics,
chemistry, economy, or an equivalent degree. Candidates who are about to
receive such degree can also apply but their admission is subject to the condition
that they obtain it by December 31st, 2013.
Admission procedures
The aim of the DRIMI PhD course program is to train professionals with the
necessary and sufficient knowledge, skills, experience, independence and
leadership that will enable them to assume responsibilities in technological,
research, innovation, development, design, production, and logistic assignments
in the industrial sectors. The scientific and technical operational independence is
acquired through academic research, either application oriented, carried out in
collaboration with private and public companies, or focused on the scientific
development of basic technologies for industrial innovation oriented and
sponsored by institutional funding bodies such as the Ministry of Scientific and
Technological Research and the European Research Council.
The DRIMI PhD program is subdivided in four Sections which operate
respectively in the following four main Research Areas:
A) Materials for Engineering;
B) Applied Mechanics;
C) Design and Management of Integrated Logistic and Production Systems;
D) Energy, Fluid&Thermal, and Manufacturing Systems and Technologies.
More precisely, the main Research Topics of the four research Areas are as
follows.
A) Materials for Engineering:
The field of study and research of the Section "Materials for Engineering" covers
the development and application of materials in different fields of Engineering,
with construction and functional purposes. Therefore, the main fields of
application are the mechanical, civil, biomedical, electronics, energy fields, as
well as the fields of industrial design and preservation of cultural heritage. The
interest is aimed, therefore, to a wide spectrum of types of materials that are
different for both their nature (metals, polymers, cements, ceramics, raw
materials, etc..) and for their morphological-structural or dimensional
characteristics (composites, nanocomposites, nanostructured materials, thin
films, etc..). The activities are divided into the following areas:
 development of technologies for the preparation of new materials;
 use and development of experimental methods for the chemical-physical
and morphological-structural characterization of materials;
 study of the mechanical behavior of materials and development of
testing methods;
 development of processing technologies;
 study of materials structure/properties correlations;
 study of inertization processes and material/environment interactions
 development of innovative design procedures associated with the use of
non-conventional materials.
B) Applied Mechanics:
the area of interest includes machines, devices and systems for industrial and
service application, with reference with the whole system and to components
(structural, actuation, measure, regulation and control).
The methodologies concerns the functional, kinematic, and dynamic studies of
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complex systems and their representation, modeling and simulation with the aim
of the knowledge advance as well as the development of techniques and
procedure of design.
The activity will be mainly focused on:
 robotics and industrial automation;
 biomechanics;
 advanced design of systems;
 mechanics of systems;
 vehicle mechanics;
 advanced manufacturing systems;
 elaboration and management of product documentation;
 relation between morphology, functionality, safety and perception.
C) Design and Management of Integrated Logistic and Production Systems:
The main purpose of the Section is to train specialists giving them the best high
level scientific and technical knowledge available today on the following main
themes:
 the logistic and production systems (L&PSys), their endogenous factors
about design, organization, economics, energy and management and
their performance;
 the main problems related to configuration, sizing, and management of
L&PSys;
 the ways in which the different L&PSys interact with each other,
creating business networks and supply chains;
 the main problems related to the optimization and management of the
transport systems, internal and inserted into the company distribution
logistic network;
 the ways in which a L&PSys determines the operating and work
conditions (environmental conditions, organizational conditions, etc..)
and affect the external environment (environmental impact of processes
and products);
 aspects and methods for the design and management of safety and
ergonomics in industrial plants and production processes;
 the main problems and methods for controlling the reliability of
industrial plant systems;
 advanced and traditional design methodologies, including quantitative
techniques and modeling to support decisions related to the design and
management of L&PSys;
 information and communication technology tools to support the design
and management of L&PSys.
D) Energy, Fluid&Thermal, and Manufacturing Systems and Technologies:
The field of study and research of this Section are energy systems, energy
technologies, mechanical technologies, methods of product engineering, heat
transfer, fluid mechanics, thermodynamics. In the energy sector, the main
research directions are toward the industrial product and complex and innovative
systems of energy conversion. Also research on basic and fundamental aspects
(chemical, physical and mathematical) without immediate effects on industrial
application are supported and encouraged. In the mechanical technologis sector,
the main research directions are aimed to the use of industrialization techniques
for new products design both with traditional and innovative methodologies,
with a view of the ever-widening impact of non-conventional techniques and
innovative materials processing. High priority in this research area is given to the
following broad topics:
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Submission procedure
and evaluation criteria
of the application form,
the letters of
recommendation, and
other documents
experimental and numerical fluid dynamics and heat transfer
multiphase flows for industrial applications
energy conversion systems and power production technologies
processes and sensors for safety in the agro-food industry
cogeneration, micro-distributed, and hybrid power facilities
applied acoustics
thermodynamics of irreversible and non-equilibrium phenomena
multiscale methods for transport phenomena
production methods for biomedical devices
incremental forming
hydroforming
All Candidates must include in their application
 a detailed Curriculum Vitae, in English; the CV has to be provided using
the form available online in the UniBS website (file: named
DRIMI_ApplicationForm.doc). The file has to be filled in, signed, dated,
scanned into a pdf document, and renamed as
“Lastname_DRIMI_ApplicationForm.pdf”;
 a working email address;
 at least one recommendation letter; to provide such letter the form
DRIMI_LetterOfRecommendation.doc has to be used. This form
(available online in the UniBS website) has to be filled in by the
reference person, printed on the reference person’s letterhead, signed,
dated, scanned and renamed as
“Lastname_DRIMI_LetterOfRecommendation.pdf”;
 any other documents deemed useful by the candidate for his/her
scientific evaluation (all such documents must be scanned and collected
in a single PDF file named “Lastname_DRIMI_OtherDucuments.pdf”)
The judging committee will not evaluate the candidates whose curriculum is not
in line with the scientific interests of the doctoral program.
Submission procedure
and evaluation criteria
of the statement of
motivation and
research interests and
of the research project
proposal
The maximum score for the evaluation of the above “titles” is 20 points, in
particular:
 MSc thesis project or subsequent scientific activities related to the
scientific interests of the doctoral program: max 8 points
 Final mark in the MSc degree: max 6 points
 Awards and other titles: max 3 points
 International activities: max 3 points
All Candidates have to include in their application the following:
A brief statement of their scientific interests and motivation (max 2500
characters, including spaces) to
 describe the motivations for the application to the doctoral program;
 indicate in which scientific area he/she aims at developing his/her
research; it is possible to indicate a second area of interest, but in that
case a priority has to be clearly stated.
The statement of motivation and research interests must be written in English (or
in Italian, with at least the general motivation in English). The Candidate must
use the form “DRIMI_StatementOfMotivation&ResearchInterests.doc”
(available online in the UniBS website); the form has to be filled in, signed,
dated, scanned in pdf and named
“Lastname_DRIMI_StatementOfMotivation&ResearchInterests.pdf”
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A research project proposal with the following features:
 The topic has to meet one of the research area developed within the
doctoral program;
 The proposal has to be in English or in Italian (in this case the abstract
has to be in English)
 The proposal can not exceed 15000 characters (including spaces)
 It has to include: title, research area, abstract, research goal, literature
review, expected results, methodology, references
 The proposal has to be written following the template available on the
university website (file: DRIMI_ResearchProjectProposal.doc); such
form has to be filled in, signed, dated, scanned in pdf and renamed
“Lastname_DRIMI_ResearchProjectProposal.pdf”
The project proposal is submitted for evaluation purposeds only and need not
coincide with the research topic that the candidate will develope during her/his
doctoral studies.
The Evaluation Committee will examine only the statements of motivation and
the research projects of those Candidates who scored at least 12 (out of 20)
points in the evaluation of their “titles”.
Maximum score for the project: 40 points
The Committee can directly contact the candidates for further details concerning
the project proposal. In that case, the Committee will send an email to the
address provided by the candidate who HAS TO REPLY within 3 working days.
If the candidate fails to do so, or the email bounces as undeliverable the
Committee will proceed as if the candidate has been unable to provide the
requested details, so that the final score on the project may be even reduced
down to 0.
Oral exam
Place and date of the
oral exam
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After having determined the final ranking of those candidates that are considered
suitable for a PhD position within the doctoral course DRIMI, the Committee
will evaluate if these candidates meet the requirements necessary for those
fellowships that are linked to a specific research topic. The Committee will do so
by taking into account the scientific interests of the Candidates (as stated in their
application forms). In addition, the Committee may ask the scientific reference
person of the specific research topic to act as independent referee on this issue.
The referee reports will be attached to the final report of the Evaluation
Committe. If no Candidates turn out to be deemed suitable for a specific topic,
the corresponding position with fellowship is not awarded. If no Candidates are
deemed suitable for the specific PRIN topic (which is linked to one of the
positions without fellowship) or if the PRIN project should not result funded by
January 1st 2014, the position will be awarded without fellowship.
*** NOT requested ***
*** N/A ***
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*Temi specifici delle Borse ministeriali fondo giovani disponibili
Ambito di indagine prioritario
Nuove applicazioni dell'industria biomedicale
Sistemi avanzati di manifattura con impatto non solo nell'industria delle
macchine utensili, ma su comparti manifatturieri del 'Made In Italy' quali
tessile, abbigliamento, meccanica strumentale
Materiali avanzati (IN particolare ceramici) per applicazioni strutturali
Potenziamento e sviluppo dell'industria motoristica incluse le due ruote con
motori a basso consumo e a basso impatto ambientale
TOTALE
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borse
1
2
1
1
5
**DETTAGLIO PROVENIENZA Borse ministeriali fondo giovani (ciclo 29 e recupero ciclo 28)
dottorato di provenienza
ciclo
borse
Ambito di indagine prioritario
Nuove applicazioni dell'industria
- MATERIALI PER L'INGEGNERIA (XXIX)
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1
biomedicale
- MECCANICA APPLICATA (XXIX)
- TECHNOLOGY FOR HEALTH (XXIX)
Sistemi avanzati di manifattura con - MECCANICA APPLICATA (XXIX)
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2
impatto non solo nell'industria
- PROGETTAZIONE E GESTIONE DEI
delle macchine utensili, ma su
SISTEMI LOGISTICI E PRODUTTIVI
comparti manifatturieri del 'Made
INTEGRATI (XXIX)
IN Italy' quali tessile,
abbigliamento, meccanica
strumentale
Materiali avanzati (IN particolare
- MATERIALI PER L'INGEGNERIA (XXIX)
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1
ceramici) per applicazioni
strutturali
Potenziamento e sviluppo
dell'industria motoristica incluse le
due ruote con motori a basso
consumo e a basso impatto
ambientale
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- MECCANICA APPLICATA (XXVIII)
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PROF. M. ALBERTI
1. Cocca P.; Alberti M. (2010). A framework to assess Performance Measurement Systems in
SMEs. THE INTERNATIONAL JOURNAL OF PRODUCTIVITY AND PERFORMANCE MANAGEMENT
(ISSN:1741-0401) p. 186 - 200 Vol. 59(2).
2. Cocca P., Marciano F., Alberti M. (2010). Towards an integrated use of video technology and
performance measurement to improve workplace safety: a preliminary framework.
PROCEEDINGS OF ESREL 2010 CONFERENCE, Rhodes, Greece. CRC Press, Taylor Francis Group,
p. 1946 – 1954. ISBN: 978-0-415-60427-7.
3. Alberti M., Cantaboni D., Tomasoni G. (2010). Issues of the goal and scope definition phase of
an LCA of a new technology for the inertization of msw fly ash. PROCEEDINGS INTERNATIONAL
SYMPOSIUM ON ENERGY FROM BIOMASS AND WASTE. (ISBN 978-88-6265-008-3) 8 - 11
November, 2010, Venice.
4. Zacco A., Gianoncelli A., Ardesi R., Sacrato S., Guerini L., Bontempi E., Tomasoni G., Alberti M.,
Depero L.E. (2012). Use of colloidal silica to obtain a new inert from municipal solid waste
incinerator (MSWI) fly ash: first results about reuse. CLEAN TECHNOLOGIES AND
ENVIRONMENTAL POLICY (ISSN:1618-954X) p. 291 - 297 Vol. 14.
5. Cocca, P., Marciano, F., Bertoloni, E., Alberti, M., (2012) “The use of video technology as an
enabling tool for risk assessment and management in a manufacturing context”,
PROCEEDINGS OF 11TH INTERNATIONAL PROBABILISTIC SAFETY ASSESSMENT AND
MANAGEMENT CONFERENCE AND THE ANNUAL EUROPEAN SAFETY AND RELIABILITY
CONFERENCE 2012 (PSAM 11 & ESREL 2012), Helsinki, Finland, 25-29 June, (ISBN: 978-162276-436-5), Curran Associates, Inc., Red Hook, NY., pp. 1329-1338.
PROF. G.P. BERETTA
1. P. Poesio and G.P. Beretta, "Minimal dissipation rate approach to correlate phase inversion
data", International Journal of Multiphase Flow, Vol.34, 684-689 (2008).
2. G.P. Beretta, "Modeling Non-Equilibrium Dynamics of a Discrete Probability Distribution:
General Rate Equation for Maximal Entropy Generation in a Maximum-Entropy Landscape with
Time-Dependent Constraints", Entropy, ISSN 1099-4300, Vol.10, 160-182 (2008).
29
3. P. Poesio, G.P. Beretta, and T. Thorsen, Dissolution of a Liquid Microdroplet in a Nonideal
Liquid-Liquid Mixture Far from Thermodynamic Equilibrium, Physical Review Letters, ISSN
0031-9007, Vol.103, 064501 (2009).
4. G.P. Beretta, “Nonlinear Quantum Evolution Equations to Model Irreversible Adiabatic
Relaxation With Maximal Entropy Production and Other Nonunitary Processes”, Reports on
Mathematical Physics, ISSN: 0034-4877, Vol. 64, 139-168 (2009). 10.1016/S00344877(09)90024-6
5. G.P. Beretta, J.C. Keck, M. Janbozorgi, and H. Metghalchi, The Rate-Controlled ConstrainedEquilibrium Approach to Far-From-Local-Equilibrium Thermodynamics, Entropy, ISSN 10994300, Vol. 14, 92-130 (2012), doi:10.3390/e14020092
PROF. E. CERETTI
1. L. Giorleo, E. Ceretti, C. Giardini (2011). ALD coated tools in micro drilling of Ti sheet. CIRP
ANNALS (ISSN:0007-8506) p. 595 - 598
2. Attanasio, E. Ceretti, A. Fiorentino, C. Cappellini, C. Giardini (2010). Investigation and FEMbased simulation of tool wear in turning operations with uncoated carbide tools. WEAR
(ISSN:0043-1648) p. 344 - 350 Vol. 269,
3. E. Ceretti, L. Fratini, F. Gagliardi, C. Giardini (2009). A new approach to study material bonding
in extrusion porthole die. CIRP ANNALS (ISSN:0007-8506) p. 259 - 262
4. ATTANASIO; E. CERETTI; C. GIARDINI; L. MAZZONI (2008). Asymmetric Two Points Incremental
Forming: Improving Surface Quality and Geometric Accuracy by Tool Path Optimization.
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY (ISSN:0924-0136) p. 59 - 67 Vol. 197,
5. P.BORTOT; E. CERETTI; C.GIARDINI (2008). The determination of flow stress of tubular material
for hydrofoming applications. JOURNAL OF MATERIALS PROCESSING TECHNOLOGY (ISSN:09240136) p. 381 - 388 Vol. 203,
PROF. L.E. DEPERO
1. Oliviero, G., Bergese, P., Canavese, G., Chiari, M., Colombi, P., Cretich, M., Damin, F.,
Fiorilli, S., Marasso, S.L., Ricciardi, C., Rivolo, P., Depero, L.E., A biofunctional polymeric
coating for microcantilever molecular recognition, Analytica Chimica Acta, Volume 630,
Issue 2, 23 December 2008, Pages 161-167
2. Bergese, P., Cretich, M., Oldani, C., Oliviero, G., di Carlo, G., Depero, L.E., Chiari, M.,
Advances in parallel screening of drug candidates, Current Medicinal Chemistry, Volume
15, Issue 17, 2008, Pages 1706-1719
3. Borgese, L., Salmistraro, M., Gianoncelli, A., Zacco, A., Lucchini, R., Zimmerman, N., Pisani,
L., Siviero, G., Depero, L.E., Bontempi, E., Airborne particulate matter (PM) filter analysis
and modeling by total reflection X-ray fluorescence (TXRF) and X-ray standing wave (XSW),
Talanta, Volume 89, 30 January 2012, Pages 99-104
4. Borgese, L., Zacco, A., Pal, S., Bontempi, E.a , Lucchini, R.b, Zimmerman, N., Depero, L.E., A
new non-destructive method for chemical analysis of particulate matter filters: The case of
30
manganese air pollution in Vallecamonica (Italy), Talanta, Volume 84, Issue 1, 15 March
2011, Pages 192-198
5. Bontempi, E., Zacco, A., Benedetti, D., Borgese, L., Colombi, P., Stosnach, H., Finzi,
G., Apostoli, P., Buttini, P., Depero, L.E., Total reflection X-ray fluorescence (TXRF) for
direct analysis of aerosol particle samples, Environmental Technology, Volume 31, Issue 5,
April 2010, Pages 467-477
PROF. G. DONZELLA
1. Donzella G., Mazzù A., Petrogalli C., Competition between wear and RCF at the wheel-rail
interface: some experimental evidences on a rail steel, Proc. Instn. Mech. Engrs., Part F, Vol.
223, pp 31-44, 2009.
2. Donzella G., Petrogalli C., A failure assessment diagram for components subjected to rolling
contact loading, International Journal of Fatigue, Vol.32, pp.256-268, 201
3. Donzella G., Faccoli M., Mazzù A., Petrogalli C., Roberti R., Progressive damage assessment in
the near-surface layer of railway wheel-rail couple under cyclic contact, Wear, Vol. 271, 408416, 2011.
4. Donzella G., Faccoli M., Mazzù A., Petrogalli C., Desimone H.,Influence of inclusion content on
rolling contact fatigue in a gear steel: experimental analysis and predictive modeling,
Engineering Fracture Mechanics, Vol. 78, 2761-2774, 2011
5. Donzella G., Mazzù A., Extension to finite life of a failure assessment diagram for contact
fatigue loading, International Journal of Fatigue, 44 (2012) 217–224
PROF. G. LEGNANI
1. Legnani, G., Fassi, I., Giberti, H., Cinquemani, S., Tosi, D. A new isotropic and decoupled 6-DoF
parallel manipulator (2012) Mechanism and Machine Theory, 58, pp. 64-81.
2. Legnani, G., Tosi, D., Fassi, I., Giberti, H., Cinquemani, S. The "point of isotropy" and other
properties of serial and parallel manipulators (2010) Mechanism and Machine Theory, 45 (10),
pp. 1407-1423.
3. Giberti, H., Cinquemani, S., Legnani, G. Effects of transmission mechanical characteristics on
the choice of a motor-reducer (2010) Mechatronics, 20 (5), pp. 604-610.
4. Tosi, D., Legnani, G., Pedrocchi, N., Righettini, P., Giberti, H. Cheope: A new reconfigurable
redundant manipulator (2010) Mechanism and Machine Theory, 45 (4), pp. 611-626.
5. Visioli, A., Ziliani, G., Legnani, G. Iterative-learning hybrid force/velocity control for contour
tracking (2010) IEEE Transactions on Robotics, 26 (2), art. no. 5419059, pp. 388-393
PROF. T. RICCO’
1. S. Pandini, S. Passera, M. Messori, K. Paderni, M. Toselli, A. Gianoncelli, E. Bontempi, T. Ricco,
“Two-way reversible shape memory behaviour of crosslinked poly(epsilon-caprolactone)”,
Polymer, 2012, 53(9), 1915-1924
31
2. F. Baldi, S. Agnelli, T. Ricco, “On the applicability of the load separation criterion in determining
the fracture resistance (J(Ic)) of ductile polymers at low and high loading rates”, International
Journal of Fracture, 2010, 165(1), 105-119
3. G. Ramorino, S. Agnelli, R. De Santis, T. Ricco, “Investigation of fracture resistance of natural
rubber/clay nanocomposites by J-testing”, Engineering Fracture Mechanics, 2010,
77(10),1527-1536
4. G. Ramorino, F. Bignotti, S. Pandini, T. Ricco, “Mechanical reinforcement in natural
rubber/organoclay nanocomposites”, Composites Science and Technology, 2009, 69 (78),1206-1211
5. F. Baldi, A. Franceschini, F. Bignotti, G. Tieghi, T. Ricco, “Rheological behaviour of nanocomposites based on polyamide 6 under shear and elongational flow at high strain rates”,
Rheologica Acta, 2009, 48(1), 73-88
PROF. L. ZAVANELLA
1. Zanoni S., Jaber M.Y., Zavanella L. (2012). Vendor Managed Inventory (VMI) with consignment
considering learning and forgetting effects. INTERNATIONAL JOURNAL OF PRODUCTION
ECONOMICS (ISSN:0925-5273) p. 721 - 730 Vol. 140,
2. Zavanella L., Zanoni S. (2012). Chilled or frozen? Decision strategies for sustainable food
supply chains. INTERNATIONAL JOURNAL OF PRODUCTION ECONOMICS (ISSN:0925-5273) p.
731 - 736 Vol. 140,
3. R. Kleber, S. Zanoni, L. Zavanella (2011). On how buyback and remanufacturing strategies
affect the profitability of spare parts supply chains. INTERNATIONAL JOURNAL OF
PRODUCTION ECONOMICS (ISSN:0925-5273) p. 135 - 142 Vol. 133(1),
4. Zavanella L; Zanoni S (2009). A one-vendor multi-buyer integrated production-inventory
model: The "Consignment stock" case. INTERNATIONAL JOURNAL OF PRODUCTION
ECONOMICS (ISSN:0925-5273) p. 225 - 232 Vol. 118,
5. L. Zavanella; Zanoni S (2009). Inventory and Energy. In: EDITOR M. JABER, Inventory
Management: Non-Classical Views. Taylor & Francis - CRC Press, BOCA RATON (FL) p. 73 – 95
PROF. F. BIGNOTTI
1. Bignotti, F.; Borsacchi, S.; de Santis, R.; et al. Interrelation between preparation conditions,
structure, and mechanical reinforcement in isoprene rubber filled with in situ generated silica,
JOURNAL OF APPLIED POLYMER SCIENCE Volume: 125 Special Issue: SI Supplement: 1
Pages: E398-E412 DOI: 10.1002/app.36337 Published: JUL 25 2012. Times Cited: 2 (from
Web of Science)
2. Bignotti, Fabio; Pandini, Stefano; Baldi, Francesco; et al. Effect of the Resin/Hardener Ratio on
Curing, Structure and Glass Transition Temperature of Nanofilled Epoxies, POLYMER
COMPOSITES Volume: 32 Issue: 7 Pages: 1034-1048 DOI: 10.1002/pc.21120 Published:
JUL 2011. Times Cited: 2 (from Web of Science)
3. Messori, Massimo; Bignotti, Fabio; De Santis, Riccardo; et al. Modification of isoprene rubber
by in situ silica generation, POLYMER INTERNATIONAL Volume: 58 Issue: 8 Pages: 880-887
DOI: 10.1002/pi.2606 Published: AUG 2009. Times Cited: 10 (from Web of Science)
32
4. Ramorino, Giorgio; Bignotti, Fabio; Pandini, Stefano; et al. Mechanical reinforcement in natural
rubber/organoclay nanocomposites, COMPOSITES SCIENCE AND TECHNOLOGY Volume: 69
Issue: 7-8 Pages: 1206-1211 DOI: 10.1016/j.compscitech.2009.02.023 Published: JUN 2009.
Times Cited: 28 (from Web of Science)
5. Baldi, Francesco; Franceschini, Anika; Bignotti, Fabio; et al. Rheological behaviour of nanocomposites based on polyamide 6 under shear and elongational flow at high strain rates,
RHEOLOGICA ACTA Volume: 48 Issue: 1 Pages: 73-88 DOI: 10.1007/s00397-008-0315-y
Published: JAN 2009. Times Cited: 12 (from Web of Science)
PROF. C. INVERNIZZI
6. Costante M. Invernizzi, Teus van der Stelt, SUPERCRITICAL AND REAL GAS BRAYTON CYCLES
OPERATING WITH MIXTURES OF CARBON DIOXIDE AND HYDROCARBONS, Proceedings of the
Institution of Mechanical Engineers - Part A - Journal of Power and Energy, 2012, 226(5), 682693.
7. Invernizzi C M, Iora P, Sandrini R, BIOMASS COMBINED CYCLES BASED ON EXTERNALLY FIRED
GAS TURBINES AND ORGANIC RANKINE EXPANDERS, Proceedings of the Institution of
Mechanical Engineers, Vol. 225, Part A. Journal of Power and Energy, 2011, pp. 1066-1075.
8. Angelino G., Invernizzi C. M.,THE ROLE OF REAL GAS BRAYTON CYCLES FOR USE OF LIQUID
NATURAL GAS PHYSICAL EXERGY, Applied Thermal Engineering, Vol. 31, 2011, pp. 827-833.
9. Invernizzi C. M., STIRLING ENGINES USING WORKING FLUIDS WITH STRONG REAL GAS EFFECTS,
Applied Thermal Engineering, Vol. 30, 2010, pp. 1703-1710.
10. Bombarda P, Invernizzi C. M., Pietra C., HEAT RECOVERY FROM DIESEL ENGINES: A
THERMODYNAMIC COMPARISON BETWEEN KALINA AND ORC CYCLES, Applied Thermal
Engineering, Vol. 30, 2009, pp. 212-219.
PROF. P. IORA
1. Iora P., Thangavelautham J., 2012. Design of a mobile PEM power backup system through
detailed dynamic and control analysis. International Journal of Hydrogen Energy 37, pp. 1719117202.
2. Iora P., Thaer M., Chiesa. P., Brandon N.P., 2012. A one dimensional solid oxide electrolyzerfuel cell stack model and its application to the analysis of a high efficiency system for oxygen
production. Chemical Engineering Science, vol. 80, pp. 293-305.
3. Beretta, G.P., Iora, P., Ghoniem, A.F., 2012. Novel approach for fair allocation of primary
energy consumption among cogenerated energy-intensive products based on the actual local
area production scenario. Energy 44 (2012) pp.1107-1120.
4. Invernizzi C.M., Iora P., Sandrini R., 2011. Biomass combined cycles based on externally fired
gas turbines and organic Rankine expanders. Proceedings of the Institution of Mechanical
Engineers. Part A, Journal of Power and Energy, Volume 225, issue 8, 2011, pp. 1066-1075.
33
5. Iora P., Thaer M., Chiesa. P., Brandon N.P., 2010. A novel system for the production of pure
hydrogen from natural gas based on SOFC-SOEC technology. International Journal of Hydrogen
Energy 35, pp. 12680-12687.
PROF. P. POESIO
11. B. Grassi, D. Strazza, and P. Poesio, "Experimental validation of theoretical models in twophase high-viscosity ratio liquid-liquid flows in horizontal and slightly inclined pipes". Int. J.
Multiphase Flow, 34(10):950-965, 2008.
12. M. Demori, D. Strazza, V. Ferrari, and P. Poesio. "A Capacitive Sensor System for the Analysis of
Two-Phase Flows of Oil and Conductive Water". Sensors and Actuators A, 163:172-179, 2010.
13. M. Demori, V. Ferrari, and P. Poesio, D. Strazza. "A microfluidic capacitance sensor for
discrimination and characterization". Sensors and Actuators A: Physical, 172(1):212-219, 2011.
14. C. Foletti, S. Farise, B. Grassi, D. Strazza, M. Lancini, and P. Poesio. "Experimental investigation
on two-phase air-high viscosity oil flow in a horizontal pipe". Chem. Eng. Sci., 66(23):59685975, 2011.
15. F. Di Fede, P. Poesio, and G.P. Beretta, "Heat transfer enhancement in a small pipe by spinodal
decomposition of a low viscosity, liquid-liquid, strongly non-regular mixture". Int. J. Heat &
Mass Transfer, 55(4):897-906, 2012.
DOTT. I. ALESSANDRI
1. I. Alessandri, Writing, self-healing, and self-erasing on conductive pressure-sensitive
adhesives, Small, Volume 6, Issue 15, 2 August 2010, Pages 1679-1685
2. Alessandri, I., Zucca, M., Ferroni, M., Bontempi, E., Depero, L.E. Tailoring the Pore Size and
Architecture of Ce02/Ti02 Core/Shell Inverse Opals by Atomic Layer Deposition, Small, Volume
5, Issue 3, 6 February 2009, Pages 336-340
3. Sinha, G., Depero, L.E., Alessandri, I. Recyclable SERS substrates based on Au-Coated ZnO
nanorods, ACS Applied Materials and Interfaces, Volume 3, Issue 7, 27 July 2011, Pages 25572563
4. Alessandri, I., Ferroni, M., Depero, L.E., In situ plasmon-heating-induced generation of Au/TiO2
hot spots on colloidal crystals, ChemPhysChem, Volume 10, Issue 7, 11 May 2009, Pages 10171022
5. Alessandri, I., Plasmonic heating assisted deposition of bare Au nanoparticles on titania
nanoshells, Journal of Colloid and Interface ScienceVolume 351, Issue 2, November 2010,
Pages 576-579
ING. M. GELFI
34
1. R. Roberti, G. Cornacchia, M. Faccoli, M. Gelfi, On the strengthening mechanisms of 18 carat
yellow gold and its mechanical behaviour, MATERIALS SCIENCE AND ENGINEERING A, 488, pp.
50–54, 2008
2. A. Arrighini, M. Gelfi, A. Pola and R. Roberti, Effect of ultrasound treatment of AlSi5 liquid alloy
on corrosion resistance, MATERIALS AND CORROSION-WERKSTOFFE UND KORROSION Vol. 61
Is. 3, pp. 218-221, MAR 2010
3. L. Borgese, E. Bontempi, M. Gelfi, L.E. Depero, P. Goudeau, G. Geandier, D. Thiaudiere,
Microstructure and elastic properties of atomic layer deposited TiO(2) anatase thin films, ACTA
MATERIALIA, Vol. 59, Is. 7, pp. 2891-2900, APR 2011
4. Borgese, L., Gelfi, M., Bontempi, E., Goudeau, P., Geandier, G., Thiaudière, D., Depero, L.E.,
Young modulus and Poisson ratio measurements of TiO 2 thin films deposited with Atomic
Layer Deposition, SURFACE AND COATINGS TECHNOLOGY, Volume 206, Issue 8-9, 15 January
2012, Pages 2459-2463
5. Gelfi, M., Pola, A., Roberti, R., La Vecchia, G.M., Galli, E., Failure analysis of an electric arc
furnace off-gas system, ENGINEERING FAILURE ANALYSIS, Volume 25, October 2012, Pages 4248
PROF. A. MAZZU’
1. G. Donzella, M. Faccoli, A. Mazzù, C. Petrogalli, H. Desimone, Influence of inclusion content on
rolling contact fatigue in a gear steel: Experimental analysis and predictive modelling,
Engineering Fracture Mechanics, 2011, Vol. 78, pp. 2761-2774.
2. G. Donzella, M. Faccoli, A. Mazzù, C. Petrogalli, R. Roberti, Progressive damage assessment in
the near-surface layer of railway wheel – rail couple under cyclic contact, Wear, 2011, Vol.
271, pp. 408-416.
3. G. Donzella, A. Mazzù, C. Petrogalli, Competition between wear and rolling contact fatigue at
the wheel rail interface: some experimental evidence on rail steel, Proceedings of IMechE, Vol
223, Part F: Journal of Rail and Rapid Transit, 2009, pp. 31-44
4. Mazzù, Surface plastic strain in contact problems: prediction by a simplified non linear
kinematic hardening model, Journal of Strain Analysis for Engineering Design, 2009, Vol. 44,
Issue 3, pp. 187-199.
5. Mazzù, A simplified non-linear kinematic hardening model for ratcheting and wear assessment
in rolling contact, Journal of Strain Analysis for Engineering Design, 2008, Vol. 43, Issue 5, pp.
349-360.
PROF. S. ZANONI
1. Zanoni S., Segerstedt A., Tang O., Mazzoldi L. (2012). Multi-product economic lot scheduling
problem with manufacturing and remanufacturing using a basic period policy. COMPUTERS &
INDUSTRIAL ENGINEERING (ISSN:0360-8352) p. 1025 - 1033 Vol. 62,
2. Zavanella L., Zanoni S. (2012). Chilled or frozen? Decision strategies for sustainable food
supply chains. INTERNATIONAL JOURNAL OF PRODUCTION ECONOMICS (ISSN:0925-5273) p.
731 - 736 Vol. 140,
35
3. Ian M. Langella, Simone Zanoni (2011). Eco-efficiency in Logistics: A Case Study on Distribution
Network Design. INTERNATIONAL JOURNAL OF SUSTAINABLE ENGINEERING (ISSN:1939-7038)
p. 115 - 126 Vol. 4(2),
4. Zavanella L; Zanoni S (2009). A one-vendor multi-buyer integrated production-inventory
model: The "Consignment stock" case. INTERNATIONAL JOURNAL OF PRODUCTION
ECONOMICS (ISSN:0925-5273) p. 225 - 232 Vol. 118,
5. M. Perona; Saccani N; Zanoni S (2009). Combining make-to-order and make-to-stock inventory
policies: an empirical application to a manufacturing SME. PRODUCTION PLANNING &
CONTROL (ISSN:0953-7287) p. 559 - 575 Vol. 20,
36
PROF. E. BONTEMPI
1. A. Vomiero, V. Galstyan, A. Braga, I. Concina, M. Brisotto, E. Bontempi, G. Sberveglieri,
"Flexible dye sensitized solar cells using TiO 2 nanotubes", Energy and Environmental Science,
vol. 4, no. 9, pp. 3408-3413, 2011.
2. H.L. Meyerheim, J.M. Tonnerre, L. Sandratskii, H.C.N. Tolentino, M. Przybylski, Y. Gabi, F. Yildiz,
X.L. Fu, E. Bontempi, S. Grenier, J. Kirschner, "New model for magnetism in ultrathin fcc Fe on
Cu(001)", Physical Review Letters, vol. 103, no. 26, 2009,
3. L. Borgese, A. Zacco, E. Bontempi, M. Pellegatta, L. Vigna, L. Patrini, L. Riboldi, F.M. Rubino, L.E.
Depero, "Use of total reflection X-ray fluorescence (TXRF) for the evaluation of heavy metal
poisoning due to the improper use of a traditional ayurvedic drug", Journal of pharmaceutical
and biomedical analysis, vol. 52, no. 5, pp. 787-790, 2010.
4. V. Galstyan, A. Vomiero, I. Concina, A. Braga, M. Brisotto, E. Bontempi, G. Faglia, G.
Sberveglieri, "Vertically aligned TiO 2 nanotubes on plastic substrates for flexible solar cells",
Small, vol. 7, no. 17, pp. 2437-2442, 2011.
5. I. Alessandri, M. Zucca, M. Ferroni, E. Bontempi, L.E. Depero, "Tailoring the Pore Size and
Architecture of Ce02/Ti02 Core/Shell Inverse Opals by Atomic Layer Deposition", Small, vol. 5,
no. 3, pp. 336-340, 2009.
PROF. F. DOCCHIO
1. Rizzoni D., Porteri E., Duse S., De Ciuceis C., Rosei CA., La Boria E., Semeraro F., Costagliola C.,
Sebastiani A., Danzi P., Tiberio G.A., Giulini S.M., Docchio F., Sansoni G., Sarkar A., Rosei E.A.
(2012). Relationship between media-to-lumen ratio of subcutaneous small arteries and wallto-lumen ratio of retinal arterioles evaluated noninvasively by scanning laser Doppler
flowmetry. JOURNAL OF HYPERTENSION, vol. 30(6), p. 1169-1175, ISSN: 0263-6352, doi:
10.1097/HJH.0b013e328352f81d
2. Fumagalli Luca, Tomassini Paolo, Zanatta Marco, Docchio Franco (2011). A 400-kHz HighAccuracy Laser Telemeter for Distributed Measurements of 3-D Profiles. IEEE TRANSACTIONS
ON INSTRUMENTATION AND MEASUREMENT, vol. 60, p. 1054-1060, ISSN: 0018-9456
3. Giovanna Sansoni, Paolo Bellandi, Franco Docchio (2011). Design and development of a 3D
system for the measurement of tube eccentricity. MEASUREMENT SCIENCE & TECHNOLOGY,
vol. 22, ISSN: 0957-0233, doi: 10.1088/0957-0233/22/7/075302
4. G. SANSONI, CAVAGNINI G, DOCCHIO F, GASTALDI G (2009). Virtual and physical prototyping
by means of a 3D optical digitizer: application to facial prosthetic reconstruction. VIRTUAL AND
PHYSICAL PROTOTYPING, vol. 4, p. 217-226, ISSN: 1745-2759, doi:
10.1080/17452750903236658
5. G. SANSONI, TREBESCHI M, DOCCHIO F (2009). State-of-The-Art and Applications of 3D Imaging
Sensors in Industry, Cultural Heritage, Medicine, and Criminal Investigation. SENSORS, vol. 9, p.
568-601, ISSN: 1424-8220, doi: 10.3390/S90100568
PROF. R. FAGLIA
37
1. Borboni, A., Aggogeri, F., Faglia, R. “Design and analysis of a fibre-shaped micro-actuator for
robotic gripping”, International Journal of Advanced Robotic Systems 10 , art. no. 149, 2013.
2. Borboni, A., Aggogeri, F., Pellegrini, N., Faglia, R. “Precision point design of a cam indexing
mechanism, Advanced Materials Research 590 , pp. 399-404”, 2012.
3. Borboni, A., De Santis, D., Faglia, R. “Large deflection of a non-linear, elastic, asymmetric
Ludwick cantilever beam.”, ASME 2010 10th Biennial Conference on Engineering Systems
Design and Analysis, ESDA2010 2 , pp. 99-106, 2010.
4. Amici, C., Borboni, A., Faglia, R. “A compliant PKM mesomanipulator: Kinematic and dynamic
analysis, Advances in Mechanical Engineering 2010 , art. no. 706023”, 2010.
5. Borboni, A., Bussola, R., Faglia, R., Magnani, P.L., Menegolo, A. “Movement optimization of a
redundant serial robot for high-quality pipe cutting.”, Journal of Mechanical Design,
Transactions of the ASME 130 (8) , pp. 0823011-0823016, 2008.
PROF. C. GIARDINI
1. A. Attanasio, E. Ceretti, C. Giardini, L. Mazzoni, “Asymmetric two points incremental forming:
Improving surface quality and geometric accuracy by tool path optimization”. Journal of
Material Processing Technology, vol. 197, n. 1-3: 59-67, 2008.
2. P. Bortot, E. Ceretti, C. Giardini, “The determination of flow stress of tubular material for
hydrofoming applications”. Journal of Material Processing Technology, vol. 203, n. 1-3: 381388, 2008.
3. E. Ceretti, L. Fratini, F. Gagliardi, C. Giardini, “ new approach to study material bonding in
extrusion porthole dies”. Annals of the CIRP, Vol. 58/1: 259-262, 2009.
4. E. Ceretti, C. Giardini, “Influence of geometrical parameters on material welding in porthole
die extrusion: FE analysis”. Trans. Of the North American Manufacturing Research Institution
of SME, vol. 38: 467-474, 2010.
5. L. Giorleo, E. Ceretti, C. Giardini, “ALD coated tools in micro drilling of Ti sheet”. Annals of the
CIRP, Vol. 60/1: 595-598, 2011.
PROF. G.M. LA VECCHIA
1. G.M. La Vecchia and N. Lecis, Impact test and tribological behaviour of duplex-treated lowalloy steel, Surface Coatings Techn. Vol. 205 614-619(2010)
2. M. Gelfi, A. Pola, G.M. La Vecchia and E. Galli, Failure analysis o fan electric arc furnace off-gas
system, Engineering Failure Analysis, Vol. 25 42-48(2012)
3. A. Pola, L. Montesano, M. Gelfi and G.M. La Vecchia, Effect of ultrasound treatment on Cu-Zn
alloys, La Metall. It. N. 9 45-49(2012)
4. A. Pola, M. Gelfi and G.M. La Vecchia, Simulation and validation of spray quenching applied to
heavy forgings, J. Mater. Processing Techn. 213 2247– 2253 (2013)
5. A. Pola, A. Attanasio, E. Ceretti and G.M. La Vecchia, Thixoforging of Ultrasound Treated 6060
Aluminum alloy, Key Engineering Materials Vols. 554-557 572-581, (2013)
doi:10.4028/www.scientific.net/KEM.554-557.572
PROF. A.M. LEZZI
38
1. D. Luscietti, A.M. LEZZI, “Metodo di calcolo delle trasmittanze lineiche in pannelli prefabbricati
in calcestruzzo alleggeriti”. Atti 19° Congresso C.T.E.: 563-572, 2012.
2. D. Petrocelli, A.M. LEZZI, “Experimental study of a pellet stove”. Proceedings of 30th UIT Heat
Transfer Conference: 349- 354, 2012.
3. S. Parmigiani, D. Zani, C.M. Invernizzi, A. Mazzù, V. Villa, A.M. LEZZI, “A biomass powered
Ringbom-Stirling engine for developing countries: a low-budget solution for distributed
electricity generation”. VIII International Conference on Renewable Energie and Power Quality
(ICREPQ'10): Paper 432-1-4, 2010.
4. D. Luscietti, A.M. LEZZI, “Sulla stima dei ponti termici in pannelli di tamponamento
prefabbricati”. Proceedings of 28th Heat Transfer Conference: 531- 536, 2010.
5. C.M. Invernizzi, G. Incerti G., A.M. LEZZI, A. Mazzù, S. Parmigiani, D. Petrocelli, V. Villa, D. Zani,
“Distributed electricity generation using an external combustion Ringbom-Stirling engine
heated by agricultural wastes”. Proceedings of 28th UIT Transfer Conference: 469-472, 2010.
PROF. M. MUTINELLI
1. S. Mariotti, M. Mutinelli, “Italia Multinazionale 2010”. Rubbettino, Soveria Mannelli, 2010.
2. S. Mariotti, M. Mutinelli, “Italia Multinazionale 2010”. Rubbettino, Soveria Mannelli, 2012.
3. M. Mutinelli, L. Piscitello, “Inward FDI in Italy and its policy context”. Columbia FDI Profiles,
Vale Columbia Center on Sustainable International Investment, December 2, 2011.
4. M. Mutinelli, L. Piscitello, “Italy - Outward FDI from Italy and its policy context”, in Sauvant
K.P., Jost T., Davies K., Poveda Garcés A.M., “Inward and Outward FDI Country Profiles”,
Chapter 9:157-169. Vale Columbia Center on Sustainable International Investment, January
2011.
5. S. Mariotti, M. Mutinelli, “Investimenti diretti esteri in Italia. Un preoccupante declino”.
Economia e Politica Industriale, 37:119-129, 2010.
PROF. M. PERONA
1. M. PERONA, F. PIROLA, M. TASSI, A. TURANO, “Assessing information systems practices in
manufacturing SMEs”, XV working seminar on production economics, Vol. 2, , 61-75,
INNSBRUCK, 4-7 Marzo 2008.
2. M. PERONA, N. SACCANI, S. ZANONI, “Combining make-to-order and make-to-stock
inventory policies: an empirical application to a manufacturing SME”, Production Planning
& control, 20(7):559-575, 2009.
3. BACCHETTI, M. PERONA, N. SACCANI, “Spare parts inventory and demand management.
Comparing theoretical approaches with managerial practice”, XVI Euroma Conference,
Göteborg, Sweden, 14-17 June 2009.
4. W. GANZ, M. PERONA, N. SACCANI, “The development of information-based services as a
value added for durable goods. A case study” XIX INTERNATIONAL RESER CONFERENCE
"PUBLIC AND PRIVATE SERVICES IN THE NEW GLOBAL ECONOMY, September 24th-26th
BUDAPEST, HUNGARY, 2009.
5. M. PAIOLA, N. SACCANI, H. GEBAUER, M. PERONA, “The servitization of manufacturing
firms: four strategic approaches”, XVII EUROMA CONFERENCE - Managing Operations in
Service Economies, 6-9 June, Porto, 2010.
39
PROF. S. REBAY
1. G. Persico, S. Rebay (2012). A penalty formulation for the throughflow modeling of
turbomachinery. COMPUTERS & FLUIDS, vol. 60, p. 86-98.
2. Bassi F., Botti L., Colombo A., Rebay S. (2012). Agglomeration baseddiscontinuous Galerkin
discretization of the Euler and Navier-Stokesequations. COMPUTERS & FLUIDS, vol. unico, p.
77-85, ISSN: 0045-7930, doi: 10.1016/j.compfluid.2011.11.002 ISSN: 0045-7930
3. F. Bassi, A. Ghidoni, S. Rebay (2011). Optimal Runge-Kutta smoothers for the p-multigrid
discontinuous Galerkin solution of the 1D Euler equations. JOURNAL OF COMPUTATIONAL
PHYSICS, vol. 230, p. 4153-4175, ISSN: 0021-9991, doi: 10.1016/j.jcp.2010.04.030
4. HARINCK J, COLONNA P, GUARDONE A, S. REBAY (2010). Influence of thermodynamic models
in 2D flow simulations of turboexpanders. JOURNAL OF TURBOMACHINERY, vol. 132, ISSN:
0889-504X, doi: 10.1115/1.3192146
5. COLONNA P, HARINCK J, S. REBAY, GUARDONE A (2008). Real-gas effects in Organic Rankine
Cycle turbine nozzles. JOURNAL OF PROPULSION AND POWER, vol. 24, issue 2, p. 282-294,
ISSN: 0748-4658, doi: 10.2514/1.29718
PROF. L. SARTORE
1. L. Sartore, M. Barbaglio, M. Penco, P. Bergese, E. Bontempi, P. Colombi, and L. E. Depero.
“Polymer-coated quartz crystal microbalance chemical sensor for heavy cations in water”.
Journal of Nanoscience and Nanotechnology, 9: 1164-1168, 2009.
2. L. Sartore, M. Barbaglio, L. Borgese, and E. Bontempi. “Polymer-grafted QCM chemical sensor
and application to heavy metal ions real time detection”. Sensors and Actuators B: Chemical,
155: 538-544, 2011.
3. E. Schettini, L. Sartore, M. Barbaglio, and G. Vox. “Hydrolyzed protein based materials for
biodegradable spray mulching coatings”. Acta Horticulturae, 952: 359-366, 2012.
4. L. Sartore, M. Penco, A. Sassi, M.C. Neresini M.C. Candido. “Biodegradable Blends Based on
Hydrolyzed Proteins and Functionalized Ethylene Copolymers”. International Patent
PCT/EP08/002838, 2008.
5. L. Sartore, M. Barbaglio, M.C. Neresini M.C. Candido. “Biocomposite Fertiliser Materials”.
International Patent EP12159237.2, 2012.
PROF. M. TIBONI
6. Legnani G., Tiboni M., Adamini R., Tosi D.,"Meccanica degli Azionamenti B ",Editrice Esculapio
(Bologna), seconda edizione Aprile 2008
7. Legnani G., Tiboni M., "Calibration of a 6 DOF robotic manipulator based on a low-cost wire
sensors measuring system.", 10th International Workshop on Research and Education in
Mechatronics (REM2009), September 10th-11st 2009, Glasgow, UK.
8. Legnani, G., Tiboni, M., Improved Kinematics Calibration of Industrial Robots by Neural
Network, IJAA International Journal Automation Austria, ISSN 1562-2793, Anno 18 (2010), pp.
97-116.
40
9. M Tiboni, A Borboni, M Mor, and D Pomi, An innovative pneumatic mini-valve actuated by
SMA Ni-Ti wires: design and analysis, Proceedings of the Institution of Mechanical Engineers,
Part I: Journal of Systems and Control Engineering, May 2011; vol. 225, 3: pp. 443-451.
10. H. Giberti, S. Cinquemani, G. Legnani, M. Tiboni, S. Ruggeri, Selezione di un motoriduttore con
le caratteristiche meccaniche della trasmissione, Automazione e Strumentazione, ISSN 00051284, Fiera Milano Editore Spa, Luglio/Agosto 2011, Anno LIX – N. 6, pp. 66-74.
PROF. D. VETTURI
1. David Vetturi, Matteo Lancini, Ileana Bodini, Arnaldo Delli Carri (2012). Mathematical method
for the definition of a non linear multi input - one output calibration diagram of laser
positioning sensor. In: F. Pavese. Advanced Mathematical and Computational Tools in
Metrology and .... vol. UNICO, p. 396-404, World Scientific, ISBN: 9789814397940
2. MATERNINI G., VETTURI D., LANCINI M., BODINI I. (2012). On-board comfort measurement
system development for buses. In: CAMPAGNA M., DE MONTIS A., ISOLA F., LAI S., PIRA
C.,ZOPPI C.. Planning support tools: policy analysis, implementation and evaluation
proceedings of the Seventh International Conference on Informatics and Urban and Regional
Planning INPUT 2012. p. 1277-1286, Milano:Ed. Franco Angeli, ISBN: 9788856875973
3. Simone Passera, Stefano Pandini, Fabio Bignotti, Alberto Borboni, Ileana Bodini, David Vetturi,
Luca Dassa, Danilo Cambiaghi, Katia Paderni, Micaela Degli Esposti, Massimo Messori, Maurizio
Toselli, Francesco Pilati, Theonis Riccò (2012). TAILORED ONE-WAY AND TWO-WAY SHAPE
MEMORY BEHAVIOR OF CROSS-LINKED POLY(e-CAPROLACTONE) FOR SMART BIOMEDICAL
DEVICES. In: -. 1st INTERNATIONAL CONFERENCE ON DESIGN AND PROCESSES FOR MEDICAL
DEVICES - PROMED. Padenghe sul Garda, vol. UNICO, p. 333-336, Elisabetta Ceretti, Antonio
Fiorentino, Luca Giorleo, Claudio Giardini, ISBN: 9788866080589
4. D. Vetturi, M. Lancini, I. Bodini (2010). How geometrical tolerances affect the measurement of
reciprocal alignment of two different assemblies: a case study. In: -. Proceedings of the ASME
2010 10th Biennial Conference on Engineering Systems Design and Analysis ESDA2010 . vol.
UNICO, ASME, ISBN: 9780791838778
5. Matteo Lancini, Ileana Bodini, David Vetturi (2009). Enhancing micropositioning accuracy of a
six axis hexapod through uncertainty evaluation. ANNALS OF DAAAM FOR ... & PROCEEDINGS
OF THE ... INTERNATIONAL DAAAM SYMPOSIUM ..., vol. UNICO, p. 0529-0530, ISSN: 1726-9679
PROF. A. ATTANASIO
11. Attanasio,D. Umbrello,C. Cappellini,G. Rotella,R. M'Saoubi (2012). Tool wear effects on
white and dark layer formation in hard turning of AISI 52100 steel. WEAR (ISSN:0043-1648) p.
98 - 107 Vol. 286-287;
12. Attanasio, E. Ceretti, A. Fiorentino, C. Cappellini, C. Giardini (2010). Investigation and FEMbased simulation of tool wear in turning operations with uncoated carbide tools. WEAR
(ISSN:0043-1648) p. 344 - 350 Vol. 269;
13. Attanasio, E. Ceretti, C. Giardini (2009). 3D FE MODELLING OF SUPERFICIAL RESIDUAL
STRESSES IN TURNING OPERATIONS. MACHINING SCIENCE AND TECHNOLOGY (ISSN:10910344) p. 317 – 337;
14. ATTANASIO; E. CERETTI; S. RIZZUTI; D. UMBRELLO; F. MICARI (2008). 3D finite element
analysis of tool wear in machining. CIRP ANNALS (ISSN:0007-8506) p. 61 - 64 Vol. 57 (1);
41
15. ATTANASIO; E. CERETTI; C. GIARDINI; L. MAZZONI (2008). Asymmetric Two Points Incremental
Forming: Improving Surface Quality and Geometric Accuracy by Tool Path Optimization.
JOURNAL OF MATERIALS PROCESSING TECHNOLOGY (ISSN:0924-0136) p. 59 - 67 Vol. 197.
PROF. A. AVANZINI
1. A. Avanzini, "Mechanical characterization and FEA modelling of cyclic stress-strain behaviour of
UHMWPE". Materials & Design, 29:330-343, 2008.
2. A. Avanzini, "A computational procedure for prediction of structural effects of Edge-to-Edge
repair on mitral valve". Journal of Biomechanical Engineering, 130: 031015-1 - 031015-10,
2008.
3. A. Avanzini, D. Gallina, "Effect of cyclic strain on the mechanical behavior of a thermoplastic
polyurethane". Journal of Engineering Materials and Technology, 133:021005-021014, 2011.
4. A. Avanzini, "Effect of cyclic strain on the mechanical behavior of virgin ultra-high molecular
weight polyethylene". Journal of the Mechanical Behavior of Biomedical Materials, 4:12421256, 2011.
5. A. Avanzini, G. Donzella, L. Libretti, "Functional and structural effects of percutaneous edge-toedge double-orifice repair under cardiac cycle in comparison with suture repair". Proceedings
of the Institution of Mechanical Engineers. Part H, Journal of Engineering in Medicine,
225:959-971, 2011.
PROF. F. BALDI
1. F. Baldi, A. Franceschini, F. Bignotti, G. Tieghi, and T. Riccò. “Rheological behaviour of
nanocomposites based on polyamide 6 under shear and elongational flow at high strain rates”.
Rheologica Acta, 48:73-88, 2009.
2. F. Baldi, S. Agnelli, and T. Riccò. “On the applicability of the load separation criterion in
determining the fracture resistance (JIc) of ductile polymers at low and high loading rates”.
International Journal of Fracture, 165:105-119, 2010.
3. F. Baldi, A. Franceschini, and F. Bignotti. “On the measurement of the high rate flow properties
of organo-clay platelet filled polyamide 6 melts by capillary rheometer”. Polymer Testing, 30,
765-772, 2011.
4. S. Pandini, F. Baldi, R. De Santis, and F. Bignotti. “Effect of the resin/hardener ratio on yield,
post-yield, and fracture behavior of nanofilled epoxies”. Polymer Composites, 32:1461-1472,
2011.
5. F. Baldi, F. Bignotti, I. Peroni, S. Agnelli, and T. Riccò. “On the measurement of the fracture
resistance of polyacrylamide hydrogels by wire cutting tests”. Polymer Testing, 31:455-465,
2012.
PROF. P. BERGESE
1. 1. D. Maiolo, S. Mitola, D. Leali , G. Oliviero, C. Ravelli, A. Bugatti, L.E. Depero, M. Presta, P.
Bergese. “The role of nanomechanics in canonical and non-canonical pro-angiogenic
ligand/VEGF Receptor-2 activation”. Journal of the American Chemical Society, 134: 1457314579, 2012.
42
2. 2. S. Federici, G. Oliviero, D. Maiolo, Depero L. E., Colombo I., Bergese P. “On thermodynamics
of biomolecule surface transformations”. Invited feature article on Journal of Colloid and
Interface Science 375: 1-11, 2012.
3. 3. M. Dionisio, G. Oliviero, D. Menozzi, S. Federici, Yebeutchou R. M., Schmidtchen P.,
Dalcanale E., Bergese P. “Nanomechanical Recognition of N-Methylammonium Salts”. Journal
of the American Chemical Society 134: 2392-2398, 2012.
4. 4. de Puig Guixe H., Federici S., Baxamusa, S. H., Bergese P.,* Hamad-Schifferli K.,*
“Quantifying the nanomachinery of the nanoparticle-biomolecule interface” Small 7, 24772484: 2011
5. 5. Oliviero G., Maiolo D., Leali D., Federici S., Depero L.E., Presta M., Mitola S., Bergese P.
“Nanoliter contact angle probes tumor angiogenic ligand-receptor protein interactions”.
Biosensors & Bioelectronics 26: 1571-1575, 2010.
PROF. C. CARNEVALE
1. C. Carnevale, E. Pisoni, and M. Volta. "A multi-objective nonlinear optimization approach to
designing effective air quality control policies ". Automatica, 44(6):1632-1641, 2008.
2. C. Carnevale, G. Finzi, E. Pisoni, and M. Volta. "Neuro-Fuzzy and neural network systems for air
quality control". Atmospheric Environment, 43(31):4811-4821, 2009.
3. C. Carnevale, E. Pisoni, and M. Volta. "A nonlinear analysis to detect the origin of PM10
concentrations in Northern Italy". Science of the Total Environment, 409(1):182-191, 2010.
4. C. Carnevale, G. Finzi, G. Guariso, E. Pisoni, and M. Volta. "Surrogate models to compute
optimal air quality planning policies at a regional scale". Environmental Modelling and
Software, 34:44-50, 2012.
5. C. Carnevale, G. Finzi, E. Pisoni, P. Thunis, and M. Volta. "The impact of thermodynamic
module in the CTM performances". Atmospheric Environment, 61:652-660, 2012.
PROF. M. FACCOLI
1. R. Roberti, G. Cornacchia, M. Faccoli and M. Gelfi, “On the strengthening mechanisms of 18
carat yellow gold and its mechanical behaviour”. Materials Science & Engineering A, 488: 5054, 2008. [DOI: 10.1016/j.msea.2007.10.054]
2. G. Donzella, M. Faccoli, A. Mazzù, C. Petrogalli and R. Roberti, “Progressive damage
assessment in the near-surface layer of railway wheel-rail couple under cyclic contact”. Wear,
271: 408-416, 2011. [DOI: 10.1016/j.wear.2010.10.042]
3. G. Donzella, M. Faccoli, A. Mazzù, C. Petrogalli and H. Desimone, “Influence of inclusion
content on rolling contact fatigue in a gear steel: experimental analysis and predictive
modelling”.
Engineering
Fracture
Mechanics,
78:
2761-2774,
2011.
[DOI:
10.1016/j.engfracmech.2011.07.011]
4. G. Cornacchia, M. Gelfi, M. Faccoli, R. Roberti, “Influence of aging on microstructure and
toughness of die casting die steels”, International Journal of Microstructure and Materials
Properties, Vol.3, Nos. 2/3, 2008, pp.195 – 205. [DOI: 10.1504/IJMMP.2008.018727]
5. M. Faccoli, A. Ghidini, R. Roberti, “A study of strengthening mechanisms in the novel
precipitation hardening Keylos 2001 steel”, International Journal of Microstructure and
Materials Properties, Vol.3, Nos. 2/3, 2008, pp.424 – 438.[DOI: 10.1504/IJMMP.2008.018757]
43
PROF. A. GHIDONI
1. Bassi, F., Franchina, N., Ghidoni, A., Rebay, S, “Spectral p-multigrid discontinuous Galerkin
solution of the Navier-Stokes equations”. International Journal for Numerical Methods in
Fluids, 67 (11), pp. 1540-1558, 2011.
2. Bassi, F., Ghidoni, A., Rebay, S, “Optimal Runge-Kutta smoothers for the p-multigrid
discontinuous Galerkin solution of the 1D Euler equations”. Journal of Computational Physics,
230 (11), pp. 4153-4175, 2011.
3. Bassi, F., Botti, L., Colombo, A., Crivellini, A., Franchina, N., Ghidoni, A., Rebay, S. “Very highorder accurate discontinuous Galerkin computation of transonic turbulent flows on
aeronautical configurations”. Notes on Numerical Fluid Mechanics and Multidisciplinary
Design, 113, pp. 25-38, 2010.
4. Bassi, F., Colombo, A., Franchina, N., Ghidoni, A., Rebay, S. “Robust and efficient
implementation of very high-order discontinuous Galerkin methods in CFD”. Notes on
Numerical Fluid Mechanics and Multidisciplinary Design, 113, pp. 287-299, 2010.
5. Bassi, F., Ghidoni, A., Rebay, S., Tesini, P. “High-order accurate p-multigrid discontinuous
Galerkin solution of the Euler equations”. International Journal for Numerical Methods in
Fluids, 60 (8), pp. 847-865, 2009.
PROF. E. PIANA
1. E. Piana and M. Fisogni. "Acoustic characterisation of a CPAP device for the treatment of sleep
apnoea". Proc. ISMA2008, Leuven, 2008.
2. E. Piana and A.C. Nilsson. "Prediction of the sound transmission loss of sandwich structures
based on a simple test procedure". Proc. ICSV 17, Cairo, 2010.
3. E. Piana and G. Piana. "Implementation and performances of a GNSS based system for the
determination of the pass-by noise produced by vehicles". Proc. ISMA2010, Leuven, 2010.
4. A. Marchesini and E. Piana. "Noise reduction on yachts". Proc. ICSV 19, Vilnius, 2012.
5. E. Piana and A. Marchesini. "A simple test procedure to determine the sound transmission loss
of precast panels". Proc. ISMA2012, Leuven, 2012.
PROF. M. PILOTELLI
1. P. Borioli and M. Pilotelli, “Effect of test conditions on the experimental determination of
thermal conductivity of walls by means of heat flow meters”, Proceedings of the 28th UIT Heat
Transfer Congress, 515-519, 2010.
2. P. Borioli and M. Pilotelli, “Valutazione degli errori di misura della resistenza termica di
componenti per l’edilizia mediante l’utilizzo del termoflussimetro”, Atti XVI Convegno A.I.P.T.,
31-41, 2010.
3. D. Luscietti and M. Pilotelli, “Proposal of a procedure for experimental determination of the
solar reflection coefficient”, Proceedings of the 29th UIT Heat Transfer Congress, 519-522,
2011.
4. D. Luscietti and M. Pilotelli, “Procedura per la determinazione sperimentale del coefficiente di
riflessione solare”, Atti XVII Convegno A.I.P.T., 35-44, 2011.
44
5. D. Luscietti and M. Pilotelli, “Chimney in wood-frame houses: preliminary thermal analysis in
relation to the fire hazard”, Proceedings of the 30th UIT Heat Transfer Conference, 337-342,
2012.
PROF. A. POLA
1. P. Kapranos, T. Haga, E. Bertoli, A.Pola and Z. Azpilgain, I. Hurtado, “Thixo-extrusion of 5182
aluminium alloy”, Solid State Phenomena, Trans Tech Publications, Vols. 141-143, 2008, ISBN13: 3-908451-59-0 / 978-3-908451-59-4, pp. 115-120.
2. R. Roberti, A. Pola, M. Gilles, D. Rollez, “Primary and steady state creep deformation in Zamak5
die-casting alloy at 80°C”, Material Characterization, Elsevier, Vol.59-12, 2008, ISSN 1044-5803.
pp. 1747-1752.
3. A. Arrighini, M. Gelfi, A. Pola and R. Roberti, “Effect of ultrasound treatment of AlSi5 liquid
alloy on corrosion resistance”, Materials and Corrosion - Werkstoffe und Korrosion , Vol. 613, 2010, ISSN: 0947-5117, pp. 218-221.
4. M. Modigell, A. Pola, “Modeling of Shear Induced Coarsening Effects in Semi-Solid Alloys”,
Transactions of Nonferrous Metals Society of China Elsevier - English Edition, Vol. 20-9, 2010,
ISSN 1003-6326, pp. 1696-1701.
5. M. Gelfi, A. Pola, R. Roberti, G.M. La Vecchia and E. Galli, Failure analysis of an Electric Arc
Furnace off-gas system, Engineering Failure Analysis, Vol. 25, 2012, ISSN: 13506307, pp. 42-48.
PROF. L. SOLAZZI
1. L. Solazzi, “Design of an aluminium boom and arm for an excavator”, Journal of
Terramechanics n°47: pag. 201-207, 2010.
2. L. Solazzi, “Wheel rims for industrial vehicles: comparative and experimental analyses”,
International Journal of Heavy Vehicle Systems, Vol. 18, No. 2, pag. 214 – 225, 2011.
3. L. Solazzi, “Applied research for Weight Reduction of an industrial Trailer”, FME Transactions
ISSN 1451-2092 n°40, page 57-62, 2012.
4. L. Solazzi, R. Scalmana, M. Gelfi, G.M. La Vecchia, “Effect of Different Corrosion Levels on the
Mechanical Behavior and Failure on Threaded elements”, Journal of Failure Analysis and
Prevention 2012, DOI:10.1007/s11668-012-9593-x, 2012
5. L.Solazzi, R.Scalmana, “New Design Concept for a Lifting Platform made of Composite
Material”, Applied Composite Materials, An International Journal for Science and Application
of Composite Materials, ISSN 0929-189X Appl. Compos. Mater. DOI 10.1007/s10443-012-92872, 2012.
45
DR. I. FASSI
1. G. Legnani, I. Fassi, H. Giberti, S. Cinquemani, D. Tosi, ‘A new isotropic and decoupled 6-DoF
parallel manipulator’, Mechanism and Machine Theory, vol.58, Dec. 2012, DOI:
10.1016/j.mechmachtheory.2012.07.008
2. F. Modica, V. Marrocco, G. Copani and I. Fassi, “Sustainable Micro-Manufacturing of MicroComponents via Micro Electrical Discharge Machining”, Sustainability 2011, 3(12), 2456-2469;
doi:10.3390/su3122456.
3. G. Legnani, D. Tosi, I. Fassi, H. Giberti, S. Cinquemani, The “point of isotropy” and other
properties of serial and parallel manipulators, Mechanism and Machine Theory, vol. 45, n.10,
pp 1407-1423, 2010.
4. E. Ferraris, I. Fassi, M. Del Sarto, ‘Fatigue life investigation of the 15 mm thick ThELMA Epitaxial
Polysilicon’, Sensor letters, vol. 6, n.1, pp57-68, 2008
5. D. Zhang, Zhen Gao, I. Fassi, Design optimization of a spatial parallel mechanism for
micromanipulation, vol.7 n.1, pp 55-70, 2011, International Journal of Mechanics and
Materials in Design, DOI 10.1007/s10999-011-9149-3
PROF. H. METGHALCHI
1. Janbozorgi, M., Ugarte, S., Metghalchi, H., and Keck, J. C., “Combustion Modelling of MonoCarbon Fuels Using the Rate-Controlled Constrained-Equilibrium Method”, Combustion and
Flame 156 (2009) 1871-1885.
2. Eisazadeh-Far, K., Parsinejad, F., and Metghalchi, H., “Flame Structure and Laminar Burning
Speeds of JP-8/Air Premixed Mixtures at High Temperatures and Pressures” Fuel 89 (2010)
1041-1049.
3. Eisazadeh-Far, K., Parsinejad, F., Metghalchi, H., and Keck, J.C., “On Flame Kernel Formation
and Propagation in Premixed Gases”. Combustion and Flame, 2010, 157: 2211-2221.
4. Eisazadeh-Far, K., Moghaddas, A., Al-Mulki, J., and Metghalchi, H., “Laminar Burning Speeds of
Ethanol/Air/Diluent Mixtures”. Proceedings of the Combustion Institute, Volume 33, Issue 1,
2011, Pages 1021 – 1027.
5. Eisazadeh-Far, K., Moghaddas, A., Metghalchi, H., and Keck, J. C., “The Effect of Diluent on
Flame Structure and Laminar Burning Speed of JP-8/Oxidizer/Diluent Premixed Flames’. Fuel
90 (2011) 1476-1486.
DR. N. PEDROCCHI
1. S. Pellegrinelli, N. Pedrocchi, L. Molinari Tosatti, and Tullio Tolio, “Integrated approach for
multi-robot spot-welding cell design and welding-point allocation”. Key Engineering Materials
Vol. 572, 648-651 (2014)
46
2. N. Pedrocchi, F. Vicentini, M. Matteo and L. Molinari Tosatti, “Safe Human-Robot Cooperation
in an Industrial Environment”. International Journal of Advanced Robotic Systems, ISBN: 17298806, (2013)
3. F. Vicentini, N. Pedrocchi, M. Malosio, L. Molinari Tosatti, "High-accuracy hand-eye calibration
from motion on manifolds," Intelligent Robots and Systems (IROS), 2011 IEEE/RSJ International
Conference on , 3327-3334 (2011)
4. D. Tosi, G. Legnani, N. Pedrocchi, P. Righettini, H. Giberti, “Cheope: A new reconfigurable
redundant manipulator”, Mechanism and Machine Theory, Volume 45(4), 611-626 (2010)
5. N. Pedrocchi, M. Malosio, L. M. Tosatti, “Safe Obstacle Avoidance for Industrial Robot Working
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