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Topical issue: Geopolymers
(2017)
Geopolymers have gained very much momentum in recent years, in science and in industry. These highly promising and versatile materials have been researched with a view to applications as diverse as fire-resistant/refractory materials, as precursors for ceramics, in waste stabilization/immobilization, and as novel building materials. The great interest in these materials is reflected, inter alia, by the installment of a session on geopolymers at the 92nd Annual Meeting of the Deutsche Keramische Gesellschaft (DKG; German Ceramic Society) in March 2017. Therefore this Special Issue is dedicated to disseminating some of the recent findings on these materials. In addition, it contains reviews by highly experienced researchers in the field, highlighting very different aspects such as fiber reinforcement and synchrotron-based characterization methods.
Partly due to the interest from very different fields, the term „geopolymer“ is used with two different meanings. Sometimes it is used in the sense to denote the ceramic-like materials produced by activation of metakaolin with alkali silicate solutions, and closely related materials. On the other hand, sometimes it is used in a much broader sense to refer to any material that is produced by alkali-activation of many different aluminosilicate precursors, such as fly ash and granulated blast furnace slag waste materials, often serving as a cementitious binder. The present issue focusses on applications and materials that may be classified as ceramic, but also contains a review on the use of alkali-activated materials as construction materials to make the reader familiar with this approach too. Additionally, some of the materials described in this issue may be regarded as being „on the borderline“ between ceramics and cements, which is something that can be said about many studies in the geopolymer field.
The editors are very grateful to each of the authors of the articles in the present issue, as all of them have contributed high quality research based on their extensive experience. In particular, the historial perpectives on the origins and developments of geopolymers and of alkali activated materials have been authoritatively documented in contributions, by Joseph Davidovits and Pavel Krivenko. Dr. Krivenko was the Ph.D. student of Viktor D. Glukhovsky who first introduced alkali activated cements in 1957. It is hoped that the readers of this issue will enjoy reading it as much as the editors enjoyed putting it together, and that the issue will stimulate more high quality studies of geopolymers, perhaps even from research groups that have not yet been active in this area.
Components in the Aerospace, Power and Automotive engineering sectors are frequently subjected to cyclic stresses induced by thermal fluctuations and mechanical loads. For the design of such components, reliable material property data are required which need to be acquired using well accepted and reproducible test procedures for thermo-mechanical fatigue (TMF) loading. There is limited availability of proven TMF data indicating there is need for further research and testing. The TMF behaviour of materials is often desired to be simulated in models which describe the cyclic stress-strain behaviour, the fatigue life and the cyclic crack growth behaviour. There is a continuous need for the development and amendment of such models. Models can be validated by using materials in industrial applications which are subjected to TMF loading.
The 3rd Workshop on Thermo-Mechanical Fatigue was held on 27–29 April 2016 at BAM, Berlin, Germany. The workshop was attended by 90 attendees coming from 17 countries in the world. 38 presentations including five poster presentations were held.
The following topics were covered by the workshop:
– TMF of materials coated with Thermal Barrier Coatings.
– Thermal Gradient Mechanical Fatigue.
– TMF crack growth.
– TMF + High Cycle Fatigue.
– TMF Modelling and Lifetime Prediction.
– TMF Properties of steels, cast iron, Al-, Mg- and Ni-alloys
– Advanced TMF Testing Techniques.
– Industrial Applications.
A panel discussion was held regarding the present state of TMF testing standards (ISO and ASTM) and their potential for improvement. The discussion and contributions were summarized and forwarded to the standard committees. The 3rd TMF-Workshop ensured the continuation of international exchange of knowledge providing a forum to present and discuss all recent developments in the field of thermo-mechanical fatigue.
The current special issue publishes eleven selected papers of the 3rd TMF-Workshop 2016. The papers were peer reviewed by a number of experts in the Thermo-Mechanical Fatigue sector. I hope you will enjoy reading papers of this special issue.