The aim of the course is to show how typical engineering problems (in civil engineering and beyond) can be tackled in an interdisciplinary yet scientifically stringent and consistant way. The lecture is supposed to be an inspiration for the participants to re-consider complex engineering problems in the framework of biochemoporom

Recent challenges for civil engineers require interdisciplinary approaches and the combination of scientific fields which are normally dealt with seperately. For numerous civil engineering applications (hydration of concrete in massive structures, e.g. bridges and dams; shotcrete for tunneling (New Austrian Tunneling Method), behavior of concrete under chemical attacks, e.g. in bridges, dams, or nuclear waste disposals), the consistent integration of physical chemistry and applied mechanics has turned out to be extremely useful in recent years. The lecture covers latest scientific accomplishments in the field of chemoporomechanics, a discipline established some years ago on the basis of thermodynamics of reactive porous media. However, the richness of the respective theories allows generation of knowledge in fields commonly regarded to lie far beyond civil engineering: Also biology can be integrated as a third field into the general approach. As an example, for intriguing new challenges for civil engineers, an investigation of the microstructure and the nanostructure of mineralized tissues will be presented at the end of the course. The most promising field of application in this area is probably the treatment of bone diseases like osteoporosis.

Informal meeting at the start of the semester at the Institute for Mechanics of Materials and Structures (date will be announced).

Scientific paper covering some aspects of an engineering problem of the student's choice from the viewpoint of biochemoporomechanics.

Profound knowlegde of mechanics, basic knowledge of chemistry and biology.