Alloy Design Workshop

2020: Exploring limits of the TRIP effect: Towards steels with exceptional damage resistance

The 2020 Alloy Design Workshop will be held on Dec. 4th, 2020.
Link to register: TBD
Deadline to Register: TBD

2019: Micro-mechanics informed alloy design: overcoming scale-transition challenges 

The last two decades witnessed the development of several micro- and nano-mechanical testing techniques. Simultaneously, there have been tremendous developments in electron microscopy detector technologies, full-field mapping techniques, and data analytics algorithms. These new tools and methods provide new insights regarding the mechanical behavior of metals. Initially, the research focus has specifically been on the fundamental mechanisms of plasticity, damage and fracture; and the role of size effects therein. More recently, more complex alloys with multiple phases, gradient structures or compositions, and hierarchical microstructures have also been explored with these tremendously improved tools. The fundamental question we would like to discuss in Alloy Design 2019 is whether it is possible to bridge the gap between the scales, utilizing what we learn at the nano- and micro-scale to guide alloy and microstructure design.

2018: New guidelines in alloy design: from atomistic simulations to combinatorial metallurgy

There is tremendous interest in the development of new metallic materials with improved property combinations. Fortunately, an enormous portion of the compositional space of metallic materials is virtually unexplored. In the last decade, introduction of compositionally-complex and high-entropy alloys created a widespread effort to explore this space more efficiently. Such efforts are further motivated by the development of additive manufacturing, severe plastic deformation, incremental forming and other advanced processing methods, which enable various new microstructures. This vastly-increased degree of freedom in metals design, calls for new guidelines. This workshop aims to initiate discussions on new approaches developed for this purpose. Presentations delivered by leading researchers in the field will follow this focused theme, covering a wide scope of approaches ranging from atomistic simulations to high-throughput combinatorial metallurgy methods.

2017: Sustainability through alloy design: challenges and opportunities

Metallic materials have enabled the vast majority of the key technological advances of the history of humankind. Going forward, our understanding of alloy design has the potential to help tackle critical sustainability challenges, by designing lighter-weight steels, formable magnesium alloys, fatigue-resistant aluminum alloys, repairable superalloys, and others. Yet, what is urgently needed is a comprehensive overview of the most urgent scientific questions in the design of metallic materials, to help orchestrate present efforts to address the most critical sustainability challenges. This focused workshop aims to identify the most important sustainability challenges and opportunities for each key metallic material, and discuss corresponding scientific research  questions and current findings in a Gordon Conference style meeting. To trigger material specific discussions, world leading experts are invited to deliver overview talks on different classes of metallic materials. The presenters are invited also to join in as co-authors to a joint overview manuscript on alloy design, to be published in Progress in Materials Science.