18 July 202510:00 - 17:00 BST
Institution of Structural Engineers International HQ & Online View on Google Maps
Student: from £15 + VAT Member: from £30 + VAT Standard: from £50 + VAT
The Institution is delighted to announce the Young Engineers conference 2025 taking place at our London headquarters and online.
This year’s conference explores how young engineers can drive change and proactively collaborate to ensure a safer and more regenerative built environment. It is an invaluable opportunity for students and graduate engineers to gain technical and professional updates. Workshop and networking sessions offer an unrivalled opportunity to connect and share knowledge.
Case studies on collaborating for buildability and safety
Practical examples of reusing timber and testing non-standard materials such as bamboo
An interactive workshop embracing digital transformation and how to use it to rationalise and optimise the use of digital tools
Guidance on the various routes to professional membership and an update on the recent changes to the Chartered member exam, PRI, and Associate grade
An open-forum discussion exploring the ethical considerations and our responsibilities behind minimising ecological and environmental impacts
Explore possibilities for better communication and cooperation between structural engineers and contractors
Understand how to apply new digital tools to day-to-day work and rationalise the results
Gain an insight into reusing materials and testing non-standard materials
Consider the intrinsic value of building more regenerative structures
Confidently progress towards chartership with the Institution
Early career structural engineers from practices of all sizes
Structural engineering students and graduates
Recently chartered members and those working towards chartership
Built environment professionals with an interest in learning more about the emerging trends in structural engineering
Join us in-person or online via our fantastic hybrid conference platform. The virtual attendee hub offers a fully interactive hybrid experience with virtual networking, speaker Q&A and much more. Both in-person and online attendees will have access to the conference hub and recorded presentations on-demand for 3 months post-event
Interested in sponsoring or exhibiting? Contact [email protected] to find out more.
Online Student: £15 + VAT Member: £30 + VAT Standard: £50 + VAT In-person Student: £25 + VAT Member: £45 + VAT Standard: £65 + VAT
Email - [email protected]
Practical, hands-on workshops led by digital engineering practitioners and experts.
This half-day in-person course provides guidance to early-career structural engineers to develop a better understanding of geotechnical engineering and use that knowledge to enhance and promote sustainable design.
The Institution is delighted to announce our upcoming hybrid conference, focusing on managing existing structures and extending their life span.
This one-day course introduces timber as an engineering material, with a focus on its use in historic structures. It covers non-destructive techniques for condition assessment and strategies for the reuse of heritage structures.
Bringing together construction leaders, this conference focuses on managing risk effectively and creating a safer built environment for all.
This course equips attendees with practical knowledge about structural design with bamboo stems (culms). The course considers aspects of concept design, detailed design and durability by design.
This popular course offers a series of interactive sessions, supported by individual study. It is designed to empower participants with the skills and knowledge needed to design structures that achieve net-zero emissions.
This practical course helps structural engineers to confidently approach a refurbishment or reuse project, looking at the initial steps to understand an existing structure, how to apply basic conservation principles and the design implications and considerations.
This course introduces key concepts in vibration serviceability of building floors. Techniques for analysis, design and mitigation for satisfactory vibration performance are outlined, as well as their potential impact on sustainability of floor construction.