International projects

Sustainable building technologies for economic class housing


supported by Russian Ministry of Education and Science (Governmental decree No. 218)

Project goal

Researching, developing, testing and integrating in mass-production the sustainable building technologies for earthquake-resistant and energy-efficient multistoried building based on framed universal prefabricated systems.

Project partners

  • Tomsk Building Company, JSC (TDSK), Tomsk, Russia.
  • Tomsk State University of Architecture and Building, Tomsk, Russia.
  • Research Institute of Building Physics of Russian Academy of Architecture and Construction Science, Moscow, Russia.
  • Fraunhofer Institute for Building Physics IBP, Stuttgart, Germany.
  • Institute of Information and Communication Technologies at the Bulgarian Academy of Sciences, Sofia, Bulgaria. 


€14,284 mln., including subsidies €7,145 mln. The project’s duration is 3 years.

Anticipated project results

  • 10..15% reduction of used building materials
  • 40 % reduction of energy consumption
  • up to magnitude & earthquake-resistance
  • new technologies of lightweight concrete with high-performance
  • automated building management systems
  • more than 400 000 m² of housing
  • 195 young scientists and researchers in the project
  • 3 115 workplaces
  • 3 mln. m² of housing within 2016…2020

Studying deformation behavior of the alloy Ni3Ge as a base for production of novel high-temperature indutrial materials in aerospace engineering (2014-2016)

supported by Russian Foundation for Basic Research

Project goal

Finding out the physical mechanisms forming the basis of deformation behavior of intermetallic alloy Ni3Ge under the different temperature and force conditions.

Project partner

Department of Materials Science & Metallurgy University of Cambridge (Great Britain)


750 000 rubles

Anticipated project results

  • On the basis of electron microscopy studies experimental data on the evolution of the dislocation structure of deformed samples will be obtained, the parameters of the dislocation structure will be defined.
  • Original approach to the conduction of thermal-activation analysis for alloys with superstructure L12 having abnormal temperature dependence of mechanical properties will be developed.