Projekty

Doktorat_R.Błoniarz » Grupa Badawcza » Projekty

Manufacturing of innovative products on a hybrid technological line for the production of pipes with and without metallic coatings, with the simultaneous tightening of dimensional tolerances, using the dispersed magnetic flux for qualitative tests. Grant NCBiR POIR. 01.01.01-00-0510/18.

 

Development of a technology for the production of thin profiled wires from hard-to-deform steel with narrowed dimensional tolerances and a significant improvement in surface quality with the use of precision wedge wire screens with new properties, including precise screens. Grant NCBiR POIR.01.01.01-00-0961/19.

 

Innovative technology of manufacturing large-size rings for use in the most difficult operating conditions in the shipbuilding and offshore industry. Grant NCBiR POIR.01.02.00-00-0086/19.

 

Development of low-waste explosive cladding technology and processing technology of multilayer, high strenght, light and super light materials with reactive and functional layers as well as plates cladded explosively with reactive metalls and its alloys. TechMatStrateg Grant: National Centre for Research and Develoment Poland.

 

Development of an innovative technology of thermomechanical rolling of microalloyed steels, required to manufacture innovative long products with unique combination of mechanical and technological properties, with emphasis put on high strength (Re=355-700MPa) and impact resistance guaranteed to temperature of -40°C. Grant: National Centre for Research and Develoment Poland  POIR.01.02.00-00-0204/17-00.

 

Development and implementation of innovative technology of production of rolled products aimed for precise forging for automotive industry. Grant: National Centre for Research and Develoment Poland POIR.01.01.01-00-1077/17.

 

An innovative technology for manufacturing new generation profiles for construction industry for housing and industrial requirements.  Grant: National Centre for Research and Develoment Poland POIR.01.02.00-00-0160/16.

 

Tailored Strength of ultrafine-grained and nanostructured materials for Dynamic Loading Applications. Grant: National Science Centre Poland 2015/17/B/ST8/00051.

 

Development of a comprehensive methodology for determination of the through scale rheological properties under accelerated microstructure recovery conditions of advanced Ti alloys for areospace applications. Grant: National Science Centre Poland 2015/19/B/ST8/01079.

 

Implementation of the "top-down" techniques in processing of nanoscale multilayered materials. Grant: National Science Centre Poland 2015/19/N/St8/01263.

 

Inhomogeneous work hardening in multiphase and precipitation strengthened materials. Grant: National Science Centre Poland 2013/09/N/ST8/00250.

 

Advanced, precipitation strengthened materials created by deformation-induced fine-scale multilayered nanostructure. Grant: National Science Centre Poland 2012/05/B/ST8/00215, 2013-2016.

 

Unconventional, nonlinear and dynamic deformation conditions of austenite as a way of shaping the morphology of its transformation products. Grant: National Science Centre Poland

 

New wire drawing technology by using the effects of changed strain path (Angular Accumulative Drawing - AAD). Grant MNiSW N N508 398237, 2009-2012.

 

Through process experimental simulation, IMMPETUS Phase III New Framework for Hybrid Through Process Modelling, Process Simulation and Optimisation in the Metals Industry, Research project funded by Engineering and Physical Sciences Research Council, Sheffield, UK, 2008-2011.

 

The effect of non-linear and dynamic process conditions on microstructure, IMMPETUS Phase III New Framework for Hybrid Through Process Modelling, Process Simulation and Optimisation in the Metals Industry, Research project funded by Engineering and Physical Sciences Research Council, Sheffield, UK, 2008-2011.

 

Model development and computer simulation of the microstructure evolution in the production processes of the ultrafine-grained materials. Grant MNiSW Nr N N508 3812 33, 2007-2009.

 

Optimisation of finishing processes for eliminating rectification of plate and section products. EC RFCS project, RFSR-CT-2007-00014, TGS4.01/07, 2007-2010.

 

Influence of grain refinement on strengthening mechanisms of low-carbon steels as an effect of plastic deformation. Grant MNiSW N507 148 31/0029, 2006-2007.

 

Modeling of strengthening of multiphase microalloyed steels in order to increase their formability under dynamic loading. KBN 3 T08B 042 27, 2004-2007.

 

Modeling of microstructure evolution of low carbon and microalloyed steels deformed under hot and warm conditions in order to increase their plasticity for subsequent cold forming. KBN 7 T08B 055 21, 2001-2003.