Senior Research Scientist, D.Sc. (Tech.) | Adjunct Professor | Additive Manufacturing and Laser Materials Processing Heidi Piili - UTU Tutkimustietojärjestelmä

Heidi Piili
Senior Research Scientist, D.Sc. (Tech.) | Adjunct Professor | Additive Manufacturing and Laser Materials Processing

- erikoistutkija Sr.,
konetekniikka (kone- ja materiaalitekniikan laitos)
- dosentti,
materiaalitekniikka (kone- ja materiaalitekniikan laitos)

heidi.piili@utu.fi

+358 29 450 3869

+358 50 473 4723

Joukahaisenkatu 3-5

Turku

Työhuone: B5089

ORCID-tunniste: https://orcid.org/0000-0002-5594-6253

	240108 CV Piili Academic Short FV.pdf
	240116 List of publications Heidi Piili PUB All FV.pdf

Page of research group

Research Gate

Asiantuntijuusalueet

Additive Manufacturing; 3D Printing; Laser Materials Processing; Materials; Metals; Polymers; Biobased Materials; Industrial Applications; Monitoring; In-Situ Process Detection; Laser Based Powder Bed Fusion; Process Metrology; Process Signature; Process Control; Quality Assurance; Laser Beam and Material Interaction; Chemical Engineering; Wood-based Materials; Cellulose; Education; Pedagogy; Sustanbility; Circular Economy; Simulation of AM, Machine learning in AM, Artificial intelligence in AM

Tutkimusyhteisö tai tutkimusaihe

Additive manufacturing (3D printing) of metals, polymers and biomaterials;Laser material processing; Camera and sensor based quality assurance; Novel industrial applications for additive manufacturing

Biografia

Degrees: D.Sc.(Tech.) - Laser Materials Processing; Adjunct Professor

Heidi Piili is working as adjunct professort in Additive Manufacturing and Laser Materials Processing in Research group of Digital Manufacturing and Surface Engineering (DMS) of Department of Mechanical and Materials Engineering of Faculty of Technology at University of Turku, Finland.

She started in this position 8/2021. She is doing academic and industrial R&D (national and international) in field of additive manufacturing (i.e. 3D printing) of metals, biobased materials and polymers, laser materials processing, camera and sensor based quality assurance and process control and novel industrial applications of additive manufacturing. She has also recently started R&D in combination of machine learning (ML) and artificial intelligence (AI) and simulation in additive manufacturing. She also educates B.Sc., M.Sc. and D.Sc students and trains industrial partners in same field of science. Piili is also doing supervising of B.Sc., M.Sc. and D.Sc. theses.

Piili is docent in UTU in field of ”Laser beam and material interaction in laser based additive manufacturing” and docent in Oulu University in field of "Industrial Applications of Laser Materials Processing and Additive Manufacturing".

Piili is currently also doing her second doctoral thesis: ”Optimization of Electrochemical Systems Manufactured by Laser Based Powder Bed Fusion for Separation Technology” in Department of Purification and Separation Technology, LUT University, Finland (in pre-examination, dissertation 11-12/23).

Piili has more than 21 years’ experience in laser materials processing and more than 14 years’ experience in additive manufacturing (AM) and 3D printing (3DP). Piili was working with industrial additive manufacturing at EOS Finland for one year in 2017.

Piili has participated to several academic and industrial projects both national and international connections. She has as well done education and training and development of them in field of laser materials processing and AM3DP more than 21 years’.

Piili has: 28 peer-reviewed refereed journal articles, 5 peer-reviewed review articles, 3 sections in research book, 18 peer-reviewed conference proceedings, 61 non-refereed conference proceedings, 15 articles in a trade journal, 13 published development or research report or study, and 3 theses (totally 146 publications); H-index by Heidi Piili (according to Google Scholar): 16, h-index by Heidi Piili (according to Scopus): 14, h-index by maiden name Heidi Malmberg (according to Scopus): 3, citations by Heidi Piili (according to Google Scholar): 1691, citations by Heidi Piili (according to Scopus): 826, citations by maiden name Heidi Malmberg (according to Scopus): 12; Writing chapter “Lisäävän valmistuksen nykytilanne ja tulevaisuus Suomessa” for book “Valmistava teollisuus 4.0: Yhteiskunta, Talous, Teknologia - Haasteet ja mahdollisuudet”; Writing chapter “Simulation and Its Use in Additive Manufacturing.” in: Neittaanmäki, P., Rantalainen, ML. (eds) Impact of Scientific Computing on Science and Society. Computational Methods in Applied Sciences, vol 58. Springer, Cham. Writing chapter “Additive Manufacturing - Past, Present, and the Future” for book “Technical, Economic, and Societal Effects of Manufacturing 4.0 - Automation, Adaption, and Manufacturing in Finland and Beyond”, Palgrave McMillan, 2020, London, UK.

Tutkimus

Adjunct Professor | Senior Research Scientist, D.Sc.(Tech.) | Additive Manufacturing and Laser Materials Processing | Department of Mechanical and Materials Engineering | University of Turku, Finland. R&D: Novel, smart industrial applications of metals, biobased materials and polymers. LPBF metrology. Industrial experience: EOS Finland, 2017, 11 months. R&D activities: Academical and industrial R&D in international and national projects, education in B.Sc. level, M.Sc. level and doctoral level, societal impact.

Opetus

Current activities in educaton:

Heidi Piili educates B.Sc., M.Sc. and D.Sc. students and trains industrial partners in same field of science. Piili is also doing supervising of B.Sc., M.Sc. and D.Sc. thesis. Piili also participates courses in pedagogy, for example:

“UNIPS Lecturing and Expertise” (3 ECTS), 20.1.2022-17.3.2022, University of Turku, Turku, Finland.
“Active methodology: flipped classroom”, 2 hours, online-course, 18.1.2022, TeacherLAB, Denmark, https://elearningindustry.com/press-releases/canopylab-launches-teacherlab-a-free-platform-for-teachers.

Education experience of Piili:

Undergraduate courses since 2002: 18 courses; post-graduate courses since 2017: 2 courses; professional teacher degree, HAMK, 2015; participation into 17 pedagogical courses; 13 pedagogical publication; 8 educational projects 2018-2023.

Interests areas of education:

Interests areas in teaching are development of pedagogy for additive manufacturing (3D printing).

Publications in education:

1. Pikkarainen, A., Piili, H., & Salminen, A. (2021). Perspectives of Mechanical Engineering Students to Learning of Additive Manufacturing -Learning through Multiple Technologies. International Journal of Innovation and Research in Educational Sciences, 8(1). https://www.ijires.org/administrator/components/com_jresearch/files/publications/IJIRES_1814_FINAL.pdf.

2. Pikkarainen, A., Piili, H., Salminen, A., Introducing Novel Learning Outcomes and Process Selection Model for Additive Manufacturing Education in Engineering. European Journal of Education Studies Volume 8, Issue 1, 2021. DOI: 10.46827/ejes.v8i1.3511.

3. Pikkarainen, A. Piili H. The design process of an occupationally safe and functional 3D printing learning environment for engineering education. European Journal of Education Studies, Vol. 7 , 2020, No. 12, pp. 80-105.

4. Editors: Piili, H., Salminen, A., Korpela, M., Kurvinen, A., Pikkarainen, A., Riikonen, N., Heiskanen, A., Westman, S. Lähtökohdat 3D-tulostuksen opetukseen ja koulutukseen, LUT Scientific and Expertise Publications, LUT University, Finland, 2019, 23 p.

5. Editors: Piili, H., Heiskanen, E., Koponen, M., Karppinen, H., Salminen, A., Digipedagogiikka: Lasten ja nuorten digitalisaatiokasvatus, LUT Scientific and Expertise Publications, LUT University, Finland, 2019, 34 p.

6. Pikkarainen, A., Piili, H., Salminen, A., Creating learning environment connecting engineering design and 3D printing. Physics Procedia 89 (2017) 122–130.

7. Editor: Piili, H., Salminen A., Näin opetan lisäävää valmistusta ja 3D-tulostusta: Pohdintoja uuden teknologian opetuksesta ja koulutuksesta, LUT Scientific and Expertise Publications, Lappeenranta University of Technology, Finland, 2016

8. Salminen, A. ja Piili, H., Lisäävän valmistuksen eli ns. 3D-tulostuksen opetuksesta ja koulutuksesta. Hitsaustekniikka Vol. 66. 2015, No 1., s. 21-24.

9. Piili, H., Matilainen, V., Salminen A., Lisäävän valmistuksen eli 3D-tulostuksen opetuksen ja koulutuksen haasteet ja mahdollisuudet. Ohutlevy 1/2016. pp. 43-46.

10. Editor: Piili, H., Näkökulmia 3D-tulostuksen opetukseen ja koulutukseen, LUT Scientific and Expertise Publications, Lappeenranta University of Technology, Finland, 2015, ISBN:978-952-265-857-9.

Julkaisut

2/6

Designing of aluminium case lid of prismatic battery cell for laser powder bed fusion (2022)
- Journal of Laser Applications
Saariluoma Heikki, Piiroinen Aki, Immonen Eero, Piili Heidi, Salminen Antti
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Effects of manufacturing parameters, heat treatment, and machining on the physical and mechanical properties of 13Cr10Ni1·7Mo2Al0·4Mn0·4Si steel processed by laser powder bed fusion (2022)
- Materials Science and Engineering A
Afkhami Shariar, Javaheri Vahid, Dabiri Edris, Piili Heidi, Björk Timo
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Mechanical performance and design optimisation of metal honeycombs fabricated by laser powder bed fusion (2022)
- Thin-Walled Structures
Afkhami Shahriar, Amraei Mohsen, Gardner Leroy, Piili Heidi, Wadee M.Ahmer, Salminen Antti, Björk Timo
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Mechanical properties of butt-welded ultra-high strength steels at elevated temperatures (2022)
- Journal of Constructional Steel Research
Ghafouri Mehran, Amraei Mohsen, Pokka Aki-Petteri, Björk Timo, Larkiola Jari, Piili Heidi, Zhao Xiao-Lin
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Microstructure, Mechanical Properties and Cross-sectional Behaviour of Additively Manufactured Stainless Steel Cylindrical Shells (2022)
- ce/papers
SDSS 2022: The International Colloquium on Stability and Ductility of Steel Structures Zhang Ruizhi, Amraei Mohsen, Piili Heidi, Gardner Leroy
(A4 Vertaisarvioitu artikkeli konferenssijulkaisussa)
Review of Micro and Mesoscale simulation methods for Laser Powder Bed Fusion (2022)
- WCCM-ECCOMAS Congress
ECCOMAS Congress 2022 - 8th European Congress on Computational Methods in Applied Sciences and Engineering Gopaluni Aditya, Piili Heidi, Ganvir Ashish, Salminen Antti
(B3 Vertaisarvioimaton artikkeli konferenssijulkaisussa)
Strategic application of digital tools to enhance lifecycle cost: product design and optimization in metal based powder bed fusion (2022)
- WCCM-ECCOMAS Congress
ECCOMAS Congress 2022 - 8th European Congress on Computational Methods in Applied Sciences and Engineering Nyamekye Patricia, Lakshmanan Rohit, Piili Heidi
(B3 Vertaisarvioimaton artikkeli konferenssijulkaisussa)
Thermomechanical simulation of the heat-affected zones in welded ultra-high strength steels: Microstructure and mechanical properties (2022)
- Materials and Design
Afkhami Shahriar, Javaheri Vahid, Amraei Mohsen, Skriko Tuomas, Piili Heidi, Zhao Xiao-Ling, Björk Timo
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Effects of manufacturing parameters and mechanical post-processing on stainless steel 316L processed by laser powder bed fusion (2021)
- Materials Science and Engineering A
Afkhami Shahriar, Dabiri Mohammad, Piili Heidi, Björk Timo
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Effects of notch-load interactions on the mechanical performance of 3D printed tool steel 18Ni300 (2021)
- Additive Manufacturing
Afkhami Shahriah, Dabiri Edris, Lipiäinen Kalle, Piili Heidi, Björk Timo
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Introducing Novel Learning Outcomes and Process Selection Model for Additive Manufacturing Education in Engineering (2021)
- European Journal of Education Studies
Pikkarainen Ari, Piili Heidi, Salminen Antti
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Mechanical properties and microstructure of additively manufactured stainless steel with laser welded joints (2021)
- Materials and Design
Zhang Ruizhi, Buchanan Craig, Matilainen Ville-Pekka, Daskalaki-Mountanou Dafni, Britton T. Ben, Piili Heidi, Salminen Antti, Gardner Leroy
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Optimisation and compressive testing of additively manufactured stainless steel corrugated shells (2021)
- ce/papers
Zhang Ruizhi, Gardner Leroy, Meng Xin, Buchanan Craig, Matilainen Ville‐Pekka, Piili Heidi, Salminen Antti
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Prospects for laser based powder bed fusion in the manufacturing of metal electrodes: A review (2021)
- Applied Materials Today
Nyamekye Patricia, Nieminen Pinja, Bilesan Mohammad Reza, Repo Eveliina, Piili Heidi, Salminen Antti
(A2 Vertaisarvioitu katsausartikkeli tieteellisessä lehdessä)
Testing and analysis of additively manufactured stainless steel CHS in compression (2021)
- Thin-Walled Structures
Zhang Ruizhi, Gardner Leroy, Buchanan Craig, Matilainen Ville-Pekka, Piili Heidi, Salminen Antti
(A1 Vertaisarvioitu alkuperäisartikkeli tieteellisessä lehdessä )
Additive Manufacturing—Past, Present, and the Future (2020) Korpela Markus , Riikonen Niko , Piili Heidi , Salminen Antti , Nyrhilä Olli
(F1 Taiteellinen erillisjulkaisu)
An approach for a better understanding of spattering phenomena: Spatter analysis system development for direct metal laser sintering (2020) Kivirasi E, Piili H, Ylander P, Kotila J
(F1 Taiteellinen erillisjulkaisu)
Characterization of part deformations in laser powder bed fusion of stainless steel 316L (2020) Riikonen N, Piili H
(F1 Taiteellinen erillisjulkaisu)
Design of electrode for electrochemical gold separation process manufactured via laser-based powder bed fusion (2020) Heiskanen A, Repo E, Piili H
(F1 Taiteellinen erillisjulkaisu)
Detecting spattering phenomena by using high speed imaging in L-PBD of 316 L (2020) Kivirasi E, Piili H, Minet-Lallemand K, Kotila J
(F1 Taiteellinen erillisjulkaisu)