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So with that and everybody. Um and made
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the long and I made my project at its
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image in should from as you can see
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here the goal of my project was to
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improve rolling capabilities of
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different metal for the investigation
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of their remote mechanical properties.
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But starting starting from the
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beginning when it became time for me to
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look for master thesis project I
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decided to look for an industrial
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project in the field of matters. So why
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industry mainly because all these
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trends transversal skills we build so
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much about to date. And wind energy
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well it was just personal interest it
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was then my EPFL supervisor who
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suggested me to contact PX group yeah
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one of the former PHD student of the
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directory of mechanical met under. And
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that's how I got the opportunity the
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opportunity to work at a customer
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"'kay" segment maybe part of the X
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group they're producing semi finished
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products made out of non precious
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metals under the form of precision prof
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I have or precision tools. And this
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prods products are then used in the
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what's making industry or in the make
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medical industry for example all these
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products are fabricated using using
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called the formation techniques or
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continuous merely now the problem is
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that when you use all the formation not
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all materials can be shaped property in
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the case of call routing for examples
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you can have edge cracking I'll
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training or well different problems
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appearing and although in some cases
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you might have a chance to overcome the
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problem by increasing the number of
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running past or increasing the number
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of the kneeling treatments it reduces
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significantly predictive it based on
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this statement and the idea of my
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project was to evaluate how I moderate
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increase in temperature two hundred to
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four hundred degrees which is not too
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complicated to implement in the
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production line could help overcoming
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this problem to tackle this problem. Um
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it was really a collaboration between
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yeah yeah and I met in the first part
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of the project I carried then side. S
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at EPFL at different temperatures to
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evaluate the evolution of a mechanical
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properties of the different materials I
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was studying and this allowed choosing
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a running temperature once this was
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done it was time to move to press
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cement production line. And today up
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keeping matter that was able to reach
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the temperature we chose. Um and that
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was compatible with the production line
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and finally when all this was done we
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carried I were rolling that and each
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sample brought sample was than a light
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in terms of well hardness
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microstructure dimensions a crack size
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exception here is an example of the
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test the results that were obtained for
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titanium great to which is basically
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pure sliding it on the left side you
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can see the rest of that was obtained
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for sixty eight percent are we are
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reduction under cold running conditions
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and on the rights the rest of that was
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obtained using the same rolling past
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but under what were rolling conditions.
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And we found that in that case or
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rolling a Lowes read using cracks that
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edge right size significantly in in
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numbers it was actually observed that
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for our we have reductions bigger than
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fifty eight percent we have extract
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side that is actually three times
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smaller in the case of form rolling
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compared to call routing. And we also
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up there that bigger that can be used
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without affecting see few significantly
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the edge crack size which means that in
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this case we're rolling seems to be
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quite efficient unique increasing
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productivity a titanium great at least
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it has the potential to increase the
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productivity not coming to my in
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personal impressions so making a matter
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of these this project industry is
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really a great and maybe unique
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opportunity to combine production
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problematic with academic research
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approach. Um and it's also a very good
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opportunity to acquire skills that are
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not to look at EPF concerning well
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devices. Um if you don't have a project
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it's there is the box they just that
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but if you don't find anything they're
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just don't hesitate and ask professors
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that's what I didn't well it worked
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well and once you have a project just
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be sure that's the object itself the
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projects are well established between
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your academic supervise or you and your
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industrial supervisor because well
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sometimes you can have beverages in my
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kids everything was defined well and it
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works there. So thank you for your

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Conference Program

Message de Bienvenue
Demetri Psaltis, Doyen de la Faculté STI
May 18, 2016 · 10:03 a.m.
418 views
Message de Bienvenue
Pierre Vandergheynst, Vice-Provot pour la formation EPFL
May 18, 2016 · 10:14 a.m.
288 views
Introduction pour le professeur Nico de Rooij
Demetri Psaltis, Doyen de la Faculté STI
May 18, 2016 · 10:19 a.m.
291 views
Manier la recherche et les collaboration industrielles
Nico de Rooij, Laboratoire des capteurs, actionneurs et microsystèmes (SAMLAB), Institut de Microtechnique, EPFL
May 18, 2016 · 10:21 a.m.
239 views
Profiter de la recherche académique au sein d'une PME - Expérience de Melexis SA
Caroline Heid, Melexis SA, Bevaix
May 18, 2016 · 10:54 a.m.
473 views
Profiter de la recherche académique au sein d'une PME - Expérience de Andritz Hydro
Manfred Sallaberger, Chief Engineer, Andritz Hydro, Vevey
May 18, 2016 · 11:10 a.m.
Les outils de soutien à l'innovation - présentation par Mme la Vice Présidente pour l'Innovation et la Valorisation
Adrienne Corboud Fumagalli, Vice Présidente pour l'Innovation et la Valorisation
May 18, 2016 · 11:30 a.m.
Les outils de soutien à l'innovation - présentation par la CTI
Catherine Jean, Alliance, Coordinatrice CTI pour l'EPFL
May 18, 2016 · 11:36 a.m.
110 views
Les outils de soutien à l'innovation - présentation par Innovaud
Jean-Michel Stauffer, Innovaud, Conseiller en Innovation
May 18, 2016 · 11:44 a.m.
Les outils de soutien à l'innovation - présentation la STI
Sebastian Gautsch, Coordinateur des stage STI
May 18, 2016 · 11:53 a.m.
124 views
Les activités de recherches au sein de l'Institut de Génie Mécanique
John Botsis, Directeur de l'institut de Génie Mécanique
May 18, 2016 · 1:19 p.m.
274 views
Les activités de recherches au sein de l'Institut de Microtechnique
Christian Enz, Directeur de l'Institut de Microtechnique
May 18, 2016 · 1:38 p.m.
266 views
Les activités de recherches au sein de l'Institut de Génie Electrique
Giovanni de Micheli, Directeur de l'Institut de Génie Electrique
May 18, 2016 · 2:18 p.m.
Life Sciences at EPFL
Bart Deplancke, Institut de Bio-ingénieurie
May 18, 2016 · 2:34 p.m.
224 views
Témoignage d'étudiants: Chloé Waeber, chez Dentsply Sirona
Chloé Waeber, Materials Engineer
May 18, 2016 · 2:52 p.m.
300 views
Témoignage d'étudiants: Etienne Thalmann, au CSEM
Etienne Thalmann, EPFL Graduate in Mechanical Engineering
May 18, 2016 · 2:58 p.m.
244 views
Témoignage d'étudiants: Pierre Fechting, chez ABB
Pierre Fechting, Corporate Research, ABB Switzerland
May 18, 2016 · 3:05 p.m.
149 views
Témoignage d'étudiants: Rebekka Anker, chez Gait Up
Rebekka Anker, Support Manager, Gait Up
May 18, 2016 · 3:11 p.m.
304 views

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