KTEK0035 Advanced Surface and Coating Technology, 5 op wb_sunnyKestävä kehitysYrittäjyysosaaminen
KTEK0035 Advanced Surface and Coating Technology, 5 op
Osaamistavoitteet
Dive into the world of innovation with our "Advanced Surface and Coating Technology" course, uniquely crafted for those with a keen interest in the transformative power of surface engineering. As industries worldwide seek to enhance component performance without altering the core/bulk of the components, surface and coating technologies emerge as the silent revolutionaries in manufacturing and surface engineering. This course is your guide through the labyrinth of traditional and avant-garde surface modifications technologies, shedding light on their critical roles in industrial sectors as varied as renewable energy, biomedical advances, transportation, and beyond.
Upon course completion, students shall:
Have Uncovered the Spectrum of Surface and Coating Technologies: Embark on a comprehensive exploration of the landscape of surface and coating methodologies. From venerable techniques to the forefront of innovation, you'll discover their applications that ripple through various domains, empowering advancements in energy, health, and mobility.
Have Decoded the Mysteries of Component Durability Due to Surface Degradation: Elevate your understanding of why and how industrial components succumb to the ravages of their environments. You'll delve into the science of surface degradation—from thermal shocks and wear to corrosion and beyond—equipping yourself with the knowledge to forecast and fortify against failure.
This course is designed not merely to impart knowledge but to inspire and invigorate learners, providing a distinctive blend of theoretical insight and practical application. Participants are encouraged to transcend traditional boundaries, to perceive beyond mere superficiality, and to pave the way for future innovations with their newfound understanding.
Sisältö
This course will cover the following aspects:
- Surface engineering of components by thin and thick coatings: for example, by using thermal and cold spray techniques etc.
- Surface engineering of components by mechanical means: for example, machining, grinding, burnishing, grit blasting, shot peening, rolling etc.
- Surface engineering by thermal means: for example, by laser etc.
- Surface degradation of components: for example, wear and corrosion types and their mechanisms
Suoritustavat
Hybrid, in-person and online (live and pre-recorded) lectures, assignments/quizzes, course project work
Toteutustavat
Hybrid, in-person and online (live and pre-recorded) lectures, assignments/quizzes, course project work
Oppimateriaalit
Primarily: 1) Lecture slides 2) Recorded video lectures and 3) Online live lectures
Secondary sources:
- Course literature (books)
- Relevant scientific publications and
- Relevant internet videos
Kurssikirjallisuus
- Martin, Peter M. (2011). Introduction to surface engineering and functionally engineered materials. Salem, MA: Scrivener Pub. 978-0-470-63927-6
- Davis, Joseph R. (2001). Surface Engineering for Corrosion and Wear Resistance. Materials Park, Ohio: Maney Publishing 0-87170-700-4
- Dwivedi, Dheerendra Kumar. (2018). Surface Engineering: Enhancing Life of Tribological Components. New Delhi: Springer India 978-81-322-3779-2
- Pierre L. Fauchais, Joachim V.R., Heberlein Maher, I. Boulos (2014), Thermal Spray Fundamentals:From Powder to Part, Springer 978-0-387-68991-3
Esitietovaatimukset
The participants should have at least a Bachelors degree in any of the engineering or science field.
Arviointiasteikko
0-5
Arviointikriteerit
Regular assignments or quizzes, along with project work and seminars, will constitute the framework of our assessment strategy. The precise allocation of grade weightage for each evaluative component will be disclosed in the inaugural session.
Please note, there will be no written examination.
Grading scheme:
Passing Threshold: 50%
Grades: 0/fail (<50%), 1 (50%-60%), 2 (60%-70%), 3 (70%-80%), 4 (80%-90%), 5 (90%-100%).
Kielet
englanti
Taso
Syventävät opinnot
Oppiaine
Konetekniikka
Vastuuhenkilöt
Ashish Ganvir
Luokittelu
Kestävä kehitys, Yrittäjyysosaaminen
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