Publication detail

Application of methods of disintegration theory by recycling of aggregates

ŠKOPÁN, M.

Original Title

Application of methods of disintegration theory by recycling of aggregates

English Title

Application of methods of disintegration theory by recycling of aggregates

Type

conference paper

Language

Czech

Original Abstract

The paper deals with problems of recycling of aggregates from railway bed. The question is about application of methods of disintegration theory in impact crushers by increasing quality of out-product. It means to crash soft rocks at fraction 0/32 and to do angularity of requested product 32/63. The theory is confirmed experiments, which were executed at testing crusher in co-operation with Technical University Otto-von Guericke in Magdeburg (Germany), and the application by pilot plant of building of railway corridor in Czech Republic.

English abstract

The paper deals with problems of recycling of aggregates from railway bed. The question is about application of methods of disintegration theory in impact crushers by increasing quality of out-product. It means to crash soft rocks at fraction 0/32 and to do angularity of requested product 32/63. The theory is confirmed experiments, which were executed at testing crusher in co-operation with Technical University Otto-von Guericke in Magdeburg (Germany), and the application by pilot plant of building of railway corridor in Czech Republic.

Key words in English

recyklace, železniční lože, drtiče, třídiče

Authors

ŠKOPÁN, M.

RIV year

1999

Released

24. 6. 1999

Publisher

VŠB TU Ostrava

Location

Ostrava, ČR

ISBN

80-7078-670-1

Book

News trends in mineral processing III

Pages from

43

Pages to

50

Pages count

8

BibTex

@inproceedings{BUT69,
  author="Miroslav {Škopán}",
  title="Application of methods of disintegration theory by recycling of aggregates",
  booktitle="News trends in mineral processing III",
  year="1999",
  pages="8",
  publisher="VŠB TU Ostrava",
  address="Ostrava, ČR",
  isbn="80-7078-670-1"
}