Prof Dr Marco Carati | Real-world Case Studies - Alma Mater Studiorum - University of Bologna
Prof Dr Marco Carati : Real-world Case Studies
Professional profile:
Early Academic Pursuits:
Prof Dr. Marco Carati's academic journey began with a Bachelor's Degree in Mechanical Engineering from the University of Bologna, where he investigated the effects of persistence in temperature on the mechanical properties of the aluminum alloy A356 T6. His exceptional work earned him a high final grade of 106/110.
He furthered his studies with a Master's Degree in Mechanical Engineering, focusing on Industrial Plants, Materials, and Energetic Systems. His thesis, conducted under the supervision of Prof. Jon Gibbins and Prof. Cesare Saccani, delved into the techno-economic assessment of Post Combustion Carbon Capture and Storage power plants with heat storage. Marco graduated with top honors (110/110 cum laude).
Marco's academic pursuits continued with a Ph.D. in Civil, Chemical, Environmental, and Materials Engineering. His doctoral thesis, titled "Handling of molten Poly(ethylene terephthalate) cylinders for preforms compression molding machines," showcased his expertise in the field. His work was highly regarded, earning him excellent marks in thesis novelty, research methodology, results quality, and knowledge of the research topic.
He diversified his academic experience through an Executive Master in Technology Innovation Management at Bologna Business School, focusing on R&D management. His exceptional performance in courses such as Cost Management, Operations Strategy, and Leadership reflected his commitment to continuous learning and professional growth.
Professional Endeavors:
Prof Dr. Marco Carati's professional journey has been marked by significant contributions to the field of engineering and research, particularly in the development of high-tech industrial automatic machines.
He commenced his career as a Researcher at the Industrial Mechanical Systems Engineering Department at the University of Bologna, focusing on CCS and Fossil Fuel Free Power Plants.
His tenure at SACMI, a world-leading company in automatic machines and plants design and manufacturing, included roles such as Stretch Blow Molding Machines R&D Mechanical Designer, Preform Advanced Compression Molding Machines R&D Manager, and PET Mechanical Design Manager. Marco played a pivotal role in solving mechanical technical issues, designing innovative machines, and significantly improving machine reliability and productivity.
He later took on roles as Mold Steels Heat Treatment Optimization R&D Manager and PET Preform Division Mechanical R&D Coordinator, showcasing his ability to lead and coordinate complex research and development activities.
Currently, he serves as the Training Development Manager at SACMI's Corporate Academy, demonstrating his versatility in managing training programs and contributing to the company's revenue streams.
Contributions and Research Focus:
Prof Dr. Marco's research contributions extend across various domains, including mold steels heat treatment optimization, stretch blow molding machines, and preform advanced compression molding machines. His work has resulted in improved machine productivity, reliability, and the design of groundbreaking technologies.
As an Adjunct Professor at the Alma Mater Studiorum University, Marco imparts his knowledge to the next generation of engineers, teaching courses in the Department of Electrical, Electronic, and Information Engineering.
His involvement in international collaborations, R&D projects, and partnerships with top-level universities underscores his commitment to advancing technology and innovation in the engineering field.
Accolades and Recognition:
Prof Dr. Marco Carati's outstanding academic and professional achievements have garnered recognition from various institutions. He is a recipient of grants of merit from the University of Bologna and other European and Italian public and private institutions.
His role as an Adjunct Professor and contributions to the development of new technologies and machines have established him as a respected figure in academia and the industrial sector.
Impact and Influence:
Marco's leadership roles in R&D, mechanical design, and training development at SACMI have contributed to the company's success and prominence in the industry. His ability to lead teams, solve complex technical challenges, and drive innovation has left a lasting impact on the products and processes within the organization.
His involvement in international conferences, seminars, and collaborations with leading research centers has expanded his influence globally, fostering connections with top-level universities and research institutions.
Legacy and Future Contributions:
Prof Dr. Marco Carati's legacy is characterized by his significant contributions to the advancement of technology in the engineering field. As an educator, researcher, and industry leader, his influence will continue to shape the development of high-tech industrial machines and inspire future generations of engineers.
Looking forward, Marco's commitment to innovation and education positions him to make further contributions to the field, whether through continued research, academic mentorship, or leadership in the development of cutting-edge technologies. His multidisciplinary approach, combining hard and soft skills, underscores his potential to drive positive change in the engineering landscape.
Notable Publications:
- Effect of metal temperature on the short contact time adhesion of molten poly(ethylene terephthalate), 2023-12, DOI: 10.1016/j.polymer.2023.126570
- Analisi dinamica di un meccanismo a ginocchiera per processo di stampaggio Analisi e Calcolo , 2020-10-01 | Journal article
- Effect of Heat Treatment Conditions on Retained Austenite and Corrosion Resistance of the X190CrVMo20-4-1 Stainless Steel Metals and Materials International , 2020-09 | Journal article | DOI: 10.1007/s12540-019-00384-2
- Handling of molten Poly(ethylene terephthalate) cylinders for preforms compression molding machines amsdottorato 2018 | Journal articl DOI: 10.6092/UNIBO/AMSDOTTORATO/8372
- Analisi tecnico-economica di impianti per la cattura e lo stoccaggio di anidride carbonica con stoccaggio di energia termica Alma Mater Studiorum - Università di Bologna 2011 | Journal article DOI: 10.6092/UNIBO/AMSACTA/3099