Christian Ricciuti
About Christian Ricciuti
Christian Ricciuti is a Structural Engineer currently employed at Hatch in Melbourne, Australia, where he has worked since 2017. He specializes in designing effective and constructible solutions for both new and existing structures, and he has experience in advising on remedial solutions to extend the lifespan of structures.
Work at Hatch
Christian Ricciuti has been employed at Hatch as a Structural Engineer since 2017. In this role, he focuses on designing solutions that prioritize both effectiveness and constructability for new and existing structures. His work involves advising on remedial solutions to extend the lifespan of structures, utilizing detailed defect information. Ricciuti engages in hands-on inspections, employing various methods to assess structural conditions, which enhances the quality of his engineering solutions.
Previous Experience in Structural Engineering
Before joining Hatch, Christian Ricciuti worked at Nuttall Engineering Consultants as a Structural Engineer from 2016 to 2017. His experience also includes a position as a Site Engineer at McConnell Dowell in 2015, where he worked for four months in Kuala Lumpur, Malaysia. These roles contributed to his expertise in structural engineering and project management.
Education and Expertise
Christian Ricciuti studied at RMIT University, where he earned a Bachelor of Civil Engineering (Honours) and a Bachelor of Business (Management) from 2010 to 2014. His academic background includes a focus on Structural Engineering and Geotechnical Engineering. Prior to university, he attended St Joseph's College Geelong, achieving an ENTER score of 96.45.
Specialization in Structural Analysis
Christian Ricciuti specializes in advising on remedial solutions to extend the lifespan of structures. He utilizes finite element modeling to integrate inspection data, allowing for comprehensive structural analysis. His approach includes hands-on inspections using various methods such as climbing, kayaking, and boom lifts to assess structural conditions effectively.