Publication result detail

Prediction of the risks of design and development of new building materials by fuzzy inference systems

VYMAZAL, T.; ŽIŽKOVÁ, N.; MISÁK, P.

Original Title

Prediction of the risks of design and development of new building materials by fuzzy inference systems

English Title

Prediction of the risks of design and development of new building materials by fuzzy inference systems

Type

Peer-reviewed article not indexed in WoS or Scopus

Original Abstract

The team of workers dealt with a process of design and development of new building materials based on the secondary raw materials. The secondary raw materials can, due to their variable properties, unpredictably influence physico-mechanical characteristic of the resulting material. In order to eliminate these risks, many preventive methods are applied. The best-known method is FMEA (FAILURE MODE AND EFFECTS ANALYSIS). The work was performed in two parts. The first part deals with mathematical models of tensile cohesion in dependence on percentage substitution of fly ash for milled limestone using fuzzy logic theory. In the second part the possibilities of an extension of FMEA methodology by using fuzzy inference systems (FIS) is shown. Practical applications show that using FIS for modelling of physico-mechanical properties of materials with secondary raw substances and for quantification of risks is acceptable.

English abstract

The team of workers dealt with a process of design and development of new building materials based on the secondary raw materials. The secondary raw materials can, due to their variable properties, unpredictably influence physico-mechanical characteristic of the resulting material. In order to eliminate these risks, many preventive methods are applied. The best-known method is FMEA (FAILURE MODE AND EFFECTS ANALYSIS). The work was performed in two parts. The first part deals with mathematical models of tensile cohesion in dependence on percentage substitution of fly ash for milled limestone using fuzzy logic theory. In the second part the possibilities of an extension of FMEA methodology by using fuzzy inference systems (FIS) is shown. Practical applications show that using FIS for modelling of physico-mechanical properties of materials with secondary raw substances and for quantification of risks is acceptable.

Keywords

fuzzy inference systems, polymer-cemented adhesive agent, secondary raw material

Key words in English

fuzzy inference systems, polymer-cemented adhesive agent, secondary raw material

Authors

VYMAZAL, T.; ŽIŽKOVÁ, N.; MISÁK, P.

RIV year

2010

Released

01.11.2009

Publisher

Department of Glass and Ceramics (Institute of Chemical Technology in Prague)

Location

Prague

ISBN

0862-5468

Periodical

CERAMICS-SILIKATY

Volume

53

Number

3

State

Czech Republic

Pages from

216

Pages to

224

Pages count

230

BibTex

@article{BUT48089,
  author="Tomáš {Vymazal} and Nikol {Žižková} and Petr {Misák}",
  title="Prediction of the risks of design and development of new building materials by fuzzy inference systems",
  journal="CERAMICS-SILIKATY",
  year="2009",
  volume="53",
  number="3",
  pages="216--224",
  issn="0862-5468"
}