Main Goals:

  • Modification and development of equipment for high-energy grinding of crushed rubber (equipment and production process must allow simultaneous grinding and mixing of vulcanized or devulcanized rubber with suitable chemical additives or plasticizers, as well as in the final stage of mixing rubber with additives and asphalt binder in one step).

  • Development of stable asphalt binders modified with crushed rubber (CRmB, MRmB) with emphasis on sufficient functional characteristics and especially product homogeneity during storage.

  • Development and innovative solutions of various types of acoustic asphalt layers or systems usable in urban areas and on capacity roads in the vicinity of cities and municipalities. Based on foreign knowledge, it is expected to gradually develop our own solutions, especially for abrasive pavement layers.

   Achieved results of the project solution

  • TA02030639V001: High-energy grinding equipment for the production of rubber microgranulate - utility model - achieving results 03/2013

  • TA02030639V001: High-energy grinding equipment for the production of rubber microgranulate prototype - achieving results 03/2013

  • TA02030639V001: Knives for grinding and activating rubber powder and microgranulate - patent - achieving result 08/2014

  • TA02030639V002: Modified and additive microgranulates (TA02030639V002) - utility model - achievement June 2013

  • TA02030639V003: Asphalt binder modified with microgranulate (MRmB) - proven technology - 12/2013

  • TA02030639V004: Methodology for noise measurement of laboratory samples of acoustic asphalt layers - utility model - 06/2014

  • TA02030639V004: Methodology for noise measurement of laboratory samples of acoustic asphalt layers - certified methodology - 12/2014

  • TA02030639V005: Asphalt mixtures for acoustic abrasive layers of roads - proven technology - achievement 09/2012 and 06/2013

  • TA02030639V006: Technical regulation for acoustic asphalt layers - methodology - 12/2014

Project 1-1
Project 1
Project 1-2
Project 1-3

Project 1

ID: TA020306369

Project coordinator: Faculty of Civil Engineering CTU in Prague