CDMM
Center for Design, Manufacturind and Materials
Skolkovo
Institute of Science
and Technology
The Center for Design, Manufacturing, and Materials (CDMM) is engaged in the development of advanced manufacturing technologies that are based on fundamental science and engineering principles. Research activities are focused on the development and implementation of new simulation-driven design and manufacturing paradigms and on the creation of sustainable and reliable materials, structures, and engineering systems with enhanced lifecycle, mechanical and physical characteristics demanded in high-tech industries. Discover more >>

Professor, CREI Director
Developing practice-oriented numerical models and process digital replicas (Digital Twins) for thermal spraying processes.

Parameters optimization for aqueous suspensions and solution precursors spraying to produce multi-phase layered- and columnar- like structures.

Design of powder feedstock materials and functional coatings development intended for industrial applications and requiring resistance to wear, heat, and corrosion
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Scientists at Skoltech take a step forward in bringing carbon nanocomposites to practical industrial applications
Scientists at Skoltech take a step forward in bringing carbon nanocomposites to practical industrial applications
March 28, 18:00
Scientists at Skoltech take a step forward in bringing carbon nanocomposites to practical industrial applications
Scientists at Skoltech take a step forward in bringing carbon nanocomposites to practical industrial applications
March 28, 18:00
Scientists at Skoltech take a step forward in bringing carbon nanocomposites to practical industrial applications
Scientists at Skoltech take a step forward in bringing carbon nanocomposites to practical industrial applications
March 28, 18:00
Scientists at Skoltech take a step forward in bringing carbon nanocomposites to practical industrial applications
Scientists at Skoltech take a step forward in bringing carbon nanocomposites to practical industrial applications
March 28, 18:00
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Synergy of engineering science and digital technologies aimed at the development of a simulation-driven design of advanced materials, structures
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Senior research engineer at our Lab
We are a leading firm in providing quality and value to our customers. Each member of our team has at least 5 years of legal experience. We love what we do.
Associate Professor / Mechanical Engineering
Our managers are always ready to answer your questions. You can call us during the weekends and at night. Also, you can visit our office for a personal consultation.
Associate Professor / Mechanical Engineering
Our managers are always ready to answer your questions. You can call us during the weekends and at night. Also, you can visit our office for a personal consultation.
Project Manager
Our company works according to the principle of individual approach to every client. This method allows us to succeed in tasks of any level.
Senior research engineer at our Lab
We are a leading firm in providing quality and value to our customers. Each member of our team has at least 5 years of legal experience. We love what we do.
Our Research
Synergy of engineering science and digital technologies aimed at the development of a simulation-driven design of advanced materials, structures
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Education
Synergy of engineering science and digital technologies aimed at the development of a simulation-driven design of advanced materials, structures
Publications
Synergy of engineering science and digital technologies aimed at the development of a simulation-driven design of advanced materials, structures
Thermoplastic Pultrusion: A Review. 
Minchenkov K, Vedernikov A, Safonov A, Akhatov I. Polymers
DOI:10.3390/polym13020180
Self-diagnostic carbon nanocomposites manufactured from industrial epoxy masterbatches.
Butt H.A, Lomov S.V, Akhatov I.S, Abaimov S.G. Composit. Struct.
DOI:10.1016/j.compstruct.2020.113244
Experimental characterisation of textile compaction response: A benchmark exercise. 
A.X.H. Yong, A. Aktas, D. May, A. Endruweit, S.V. Lomov, S. Advani, P. Hubert, S.G. Abaimov, D. Abliz, I. Akhatov, M.A. Ali, S. Allaoui, T. Allen, D.C. Berg, S. Bickerton, B. Caglar, A. Chiminelli, S. Comas-Cardona, M. Danzi, J. Dittmann, C. Dransfeld, P. Ermanni, E. Fauster, A. George, J. Gillibert, Q. R. Graupner, V. Grishaev, A. et al.
DOI:10.1016/j.compositesa.2020.106243
Multiscale numerical modeling for prediction of piezoresistive effect for polymer composites with a highly segregated structure.
Lebedev O.V, Ozerin A.N, Abaimov S.G. Nanomat.
DOI:10.3390/nano11010162
Effects of pulling speed on structural performance of L-shaped pultruded profiles.
Vedernikov A, Tucci F, Carlone P, Gusev S, Konev S, Firsov D, Akhatov I, Safonov A. Composite Structures
DOI:10.1016/j.compstruct.2020.112967
4D Laser Printing of Functionally Graded Structures and Items from Mixtures of Powdered Polymers with Functional Micro- and Nanoparticles: An Autoreview.
Shishkovsky I., Scherbakov V., Kuznetsov M., Belousova O., Morozov Y. International Journal of Self-Propagating High-Temperature Synthesis
DOI:10.3103/S1061386220020132
Progress and challenges of 3D-printing technologies in the manufacturing of piezoceramics.
Smirnov, S. Chugunov, A. Kholodkova, M. Isachenkov, A. Vasin, I. Shishkovsky. Ceramics International
DOI:10.1016/j.ceramint.2020.12.243
Contact
e-mail: mail-cdmm@skoltech.ru

phone: +7 (495) 280-1481_ext.3387

address: 30с1 Bolshoi boulevard, Skolkovo, 121205, Russian Federation