Marco Rudilosso is an Italian mechanical designer and R&D engineer born in 1988. He has work experience in railway product design, aluminum alloy research and development for automotive applications, and laser-based product testing and validation. Currently he is the project manager for an ongoing 4 million euro FP7 project involving additive manufacturing and virtual characterization of aluminum alloys for automotive structural components.
Alloy development and processing; apply deposition of protective coatings; tribological assessment of surfaces; characterisation of functional and structural materials by electron microscopy; processing and characterisation of novel photonic glasses; development of biomaterials and biomedical devices and implants; bioactive and catalytic surface studies.
For more info to click here: http://www.secat.net/blog/198/Secat_Research_Featured_In_Light_Metal_Age.html
First and foremost place for metallurgical engineering jobs is the aerospace industry. This is a field where modern day materials scientists and engineers are always sought after. Because of the extreme environments of operation, materials and metallurgical engineers can always find jobs in the aerospace and defense industry.
For more info to click here: http://www.secat.net/blog/199/Secat_-_The_Beginning_of_Something_BIG!.html
Advanced Technologies Research Group
Intelligent systems – particularly neural networks, fuzzy logic and genetic algorithms
Computer systems – developing web-based systems for dyslexics, and new mobile phone applications
Corrosion monitoring – new techniques including electrochemical noise
Non-destructive testing – particularly eddy current and ultrasonics
Vibration analysis and testing
Lift Technology
Contact: phil.picton@northampton.ac.uk
stefan.kacmarczy@northampton.ac.uk
Scott.turner@northampton.ac.uk
Amorphous silicon photosensors integrated in microfluidic structures as a tec...Sherry Huang
In this paper we present a compact technological demonstrator including on the same glass substrate an electrowetting-on-dielectrics (EWOD) system, a linear array of amorphous silicon photosensor and a capillary-driven microfluidic channel.
Alloy development and processing; apply deposition of protective coatings; tribological assessment of surfaces; characterisation of functional and structural materials by electron microscopy; processing and characterisation of novel photonic glasses; development of biomaterials and biomedical devices and implants; bioactive and catalytic surface studies.
For more info to click here: http://www.secat.net/blog/198/Secat_Research_Featured_In_Light_Metal_Age.html
First and foremost place for metallurgical engineering jobs is the aerospace industry. This is a field where modern day materials scientists and engineers are always sought after. Because of the extreme environments of operation, materials and metallurgical engineers can always find jobs in the aerospace and defense industry.
For more info to click here: http://www.secat.net/blog/199/Secat_-_The_Beginning_of_Something_BIG!.html
Advanced Technologies Research Group
Intelligent systems – particularly neural networks, fuzzy logic and genetic algorithms
Computer systems – developing web-based systems for dyslexics, and new mobile phone applications
Corrosion monitoring – new techniques including electrochemical noise
Non-destructive testing – particularly eddy current and ultrasonics
Vibration analysis and testing
Lift Technology
Contact: phil.picton@northampton.ac.uk
stefan.kacmarczy@northampton.ac.uk
Scott.turner@northampton.ac.uk
Amorphous silicon photosensors integrated in microfluidic structures as a tec...Sherry Huang
In this paper we present a compact technological demonstrator including on the same glass substrate an electrowetting-on-dielectrics (EWOD) system, a linear array of amorphous silicon photosensor and a capillary-driven microfluidic channel.
Nano technology is one o the most active research areas that encompass a number of disciplines, including Civil engineering and Construction. The application of Nano technology is almost used in the field of Geotechnical Engineering,
We report the synthesis and application of graphene e-textiles towards the development of wearable sensors for acquisition, routine monitoring and processing of biopotential signals. The functionality of the developed graphene-coated textiles have been
demonstrated by non-invasive measurement of electrocardiography
(ECG) and electrooculography (EOG) signals. Excellent cross correlation of up to 97% was achieved between signals measured with the new textile electrode and that of a commercial silver/silver-chloride (Ag/AgCl) electrode. Our pioneering eorts in this eld will be demonstrated by soft, functional nanotextile platforms with embedded electronics; otherwise referred to as smart garments, which can be employed in a variety of applications ranging from personalized healthcare to human-computer interaction.
Nano technology is one o the most active research areas that encompass a number of disciplines, including Civil engineering and Construction. The application of Nano technology is almost used in the field of Geotechnical Engineering,
We report the synthesis and application of graphene e-textiles towards the development of wearable sensors for acquisition, routine monitoring and processing of biopotential signals. The functionality of the developed graphene-coated textiles have been
demonstrated by non-invasive measurement of electrocardiography
(ECG) and electrooculography (EOG) signals. Excellent cross correlation of up to 97% was achieved between signals measured with the new textile electrode and that of a commercial silver/silver-chloride (Ag/AgCl) electrode. Our pioneering eorts in this eld will be demonstrated by soft, functional nanotextile platforms with embedded electronics; otherwise referred to as smart garments, which can be employed in a variety of applications ranging from personalized healthcare to human-computer interaction.
ITMA Materials Technology is a Research and Technology Organization, aiming at providing solutions to industry by means of R&D Projects, Technical Assistances and Technological Services. Check out more info at our website.
Pre-processing of data coming from a laser-EMAT system for non-destructive te...ISA Interchange
Non destructive test systems are increasingly applied in the industrial context for their strong potentialities in improving and standardizing quality control. Especially in the intermediate manufacturing stages, early detection of defects on semi-finished products allow their direction towards later production processes according to their quality, with consequent considerable savings in time, energy, materials and work. However, the raw data coming from non destructive test systems are not always immediately suitable for sophisticated defect detection algorithms, due to noise and disturbances which are unavoidable, especially in harsh operating conditions, such as the ones which are typical of the steelmaking cycle. The paper describes some pre-processing operations which are required in order to exploit the data coming from a non destructive test system. Such a system is based on the joint exploitation of Laser and Electro-Magnetic Acoustic Transducer technologies and is applied to the detection of surface and sub-surface cracks in cold and hot steel slabs.
Energy Harvesting IN VENTO 2014 - Petrini StroNGER.comStroNGER2012
Piezoelectric Energy Harvesting under Air Flow Excitation
by
Francesco Petrini, Konstantinos Gkoumas and Franco Bontempi.
This study focuses on the numerical analysis of a high efficiency Energy Harvesting device, based on
piezoelectric materials, for the sustainability of smart buildings, structures and infrastructures. Before that, a
comprehensive literature review on the topic takes place. The device consists in an aerodynamic fin attached to a
piezoelectric element that makes use of the air flow to harvest energy. The principal utilization of this device is
for energy autonomous sensors, with applications inbridges, transportation networks and smart buildings. The results are corroborated by advanced analytical and numerical analyses (in ANSYS®) that demonstrate the energy harvesting capacity.
The Impact of Artificial Intelligence on Modern Society.pdfssuser3e63fc
Just a game Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?Assignment 3
1. What has made Louis Vuitton's business model successful in the Japanese luxury market?
2. What are the opportunities and challenges for Louis Vuitton in Japan?
3. What are the specifics of the Japanese fashion luxury market?
4. How did Louis Vuitton enter into the Japanese market originally? What were the other entry strategies it adopted later to strengthen its presence?
5. Will Louis Vuitton have any new challenges arise due to the global financial crisis? How does it overcome the new challenges?
NIDM (National Institute Of Digital Marketing) Bangalore Is One Of The Leading & best Digital Marketing Institute In Bangalore, India And We Have Brand Value For The Quality Of Education Which We Provide.
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Exploring Career Paths in Cybersecurity for Technical CommunicatorsBen Woelk, CISSP, CPTC
Brief overview of career options in cybersecurity for technical communicators. Includes discussion of my career path, certification options, NICE and NIST resources.
1. Marco Rudilosso
Adress: 15 via Scarlatti, Milano, 20124, Italy
Birth: 16/09/1988, Florence
Mobile: +39 351 540 5472
Mail: marco.rudilosso88@gmail.com
Work Experiences
Mechanical designer and R&D engineer at Microelettrica Scientifica
Jan 2018 – present
Industry field: railway
Products: contactors, disconnectors, extrarapid breaker, relè
High/medium voltage switches design and material managment
Geometry and working improvement of mechanical parts
Surface and thermal treatments managment on electromechanical components
Product development and components validation
R&D engineer at NewOlef S.r.l
Gen 2016 - Oct 2017
Industry field: Aluminum foundry and machining for Automotive
Products: Automotive, Truck, Motorcycles mechanical parts
2. Research on premium Al-Si-Mg alloys for supercar frames; heat treatments managment.
New costumers project management; risk analysis and FMEA identification
Gravity die casting, High pressure Die Casting
Head of lab: tensile test, micrographs, hardness test, SDAS evaluation on Al alloys
Heat treatments of ipo/hypereutectic AlSi, AlMg alloys
Fast prototyping (DMLS)
Weldability of die casted Al alloys
3D modeling (CATIA V5, VERO VISI, SOLIDWORKS)
Author and progress managment of financed FP7: S.L.A.P. 4.0
“Virtualizzazione totalee additive manufacturing per la Smart Foundry 4.0”
Financing by: Trentino alto Adige
Amount (€): 4 mln
Status: Ongoing
Partner:
PARTNER RUOLO RIFERIMENTI
Istituto Italiano di Tecnologia Linee additive, DMLS, sintesi
(CSHR, Center for Space polveri metalliche Manfredi Diego
Human Robotic)
FBK, Additive manufacturing, area
Fondazione Bruno Kessler testing Collini Amos, Zen Mario
(MNF, Micro Nano Facility)
Rilievo e caratterizzazione
SMART3K componenti in DMLS Alessandro Rizzi
Geomatic Solution
Progettazione e analisi leghe,
Università degli studi di reologia, raw materials, Bonollo Franco
Padova (DTG, Dipartimento di indagini microstrutturali e
Tecnica e Gestione dei processi difettologiche, messa a punto
industriali) modelli di trattamento termico
ENGINSOFT (sede di Trento) Simulazione processi Gramegna Nicola, Messina
Angelo
QuesTek INNOVATION Lcc Progettazione simulata lega
(Evaston, Illinois) Chris Kern
Istituto Italiano di Saldatura Saldatura e controllo qualità Michele Murgia,
(IIS) Matteo Pedemonte
3. Scope: Progettazione di una nuova lega da pressofusione che soddisfi
particolari proprietà meccaniche (alti allungamenti, carichi di rottura e
snervamento medio-alti) altamente saldabile, e sottoponibile a trattamento
termico. Sostituire il processo fusorio della prototipazione in sabbia (terra
verde) con la tecnica di manifattura additiva DMLS e allo stesso tempo
estendere il know how di tale tecnica, soprattutto dal punto di vista
metallurgico dei pezzi sinterizzati. Virtualizzazione completa del
comportamento termico e meccanico di componenti strutturali in lega di
alluminio per space frame di supercar, dalla composizione della lega fino al
Body in White saldato. Impostare e implementare un sistema di
monitoraggio in tempo reale tramite un network di sensori e di un sistema
metrologico integrato.
Internship in Datalogic S.p.A.
Jan 2012 - Jun 2012
Industry field: Optics
Products: Fiber and CO2 laser
Responsible for quality of industrial mechanical optical fiber laser for industrial engraving
and marking.
Design and implementation of laser-based marking solutions upon different material
substrate.
Microscopic analysis of spot dimension and shape; identification of marking related
problems.
Technical support on testing 20W pulsed optical fiber laser and validation of marking
capability upon different substrates. Reports writing and presentation
4. Academic education
Technische Universiteit Delft
single course on "FEM linear modeling", 2016 – 2016
Politecnico di Milano
Master's degree, MATERIAL ENGINEERING and NANOTECHNOLOGY, 2012 – 2015,
102/110
Thesis work at National University of Singapore (NUS)
Title:Toward warable electronic: Modified Bombyx mori silk characterization
Supervisor: Prof. Siew Lok Toh, NUS, Singapore
Advisor: Prof. Pasquale Vena, Politecnico di Milano
Scope: Structural, mechanical and electrical characterization of chemically
modified silk fibers designed for biocompatible electronic devices thought for
IOT market.
Design of an amperometric remote RFID sensor for wellness purpose;
Università degli Studi di Milano-Bicocca
Bachelor's degree, MATERIAL SCIENCE, 2008 – 2011, 99/110
Liceo scientifico Leonardo Da Vinci
Piano Nazionale Informatico, 2002 – 2007, 100/100
Publications, seminars and presentations
September 2013 -Assistant on compilation of web article “The Ising problem solved
in the simplest case: “1D without external field” with Assistant Professor
Massimiliano Bestetti (Dipartimento di Chimica, Materiali ed Ingegneria)
Presentation with title: “Lubricants, Roughness, SAMs and Graphene: a panoramic
on actual strategies to reduce adhesion, wear and stiction on MEMS devices” with
the supervision of Prof . Alberto Corigliano (Dipartimento di Ingegneria Civile)
Photochromism of Diarylethene Molecules and Crystals : An Approach to Molecular
Machinery February 27th, 2013 10.30 a.m. (Dipartimento di Chimica)