Home Archive News Contact
PDF download
Cite article
Share options
Informations, rights and permissions
Issue image
Vol 10, Issue 1, 2014
Pages: 263 - 270
Professional paper
Nonmetallic materials
See full issue

This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 

Metrics and citations
Abstract views: 26
PDF Downloads: 21
Google scholar: See link
Article content
  1. Abstract
  2. Disclaimer
Published: 24.04.2014. Professional paper Nonmetallic materials

DESIGN OF METALLURGICAL CEMENTS ON THE BASE OF ALTERNATIVE MATERIALS

By
Zehrudin Osmanović ,
Zehrudin Osmanović
Contact Zehrudin Osmanović

Faculty of Technology, University of Tuzla , Tuzla , Bosnia and Herzegovina

Nedzad Haračić
Nedzad Haračić

Tvornica cementa Kakanj , Kakanj , Bosnia and Herzegovina

Abstract

When considers about design/development of products then it must be objectify one of the following aspects, development of completely new products, development of new product lines, addition of existing product lines, improvements and revisions of existing products, repositioning and cost reduction. When you design a product, it is necessary to make the plan for design, which consists of six points: collecting of new ideas, ideas selection, development of new product, cost-effectiveness analysis, testing of new product and new product introduction.In this paper is presented design of metallurgical cement based on domestic raw materials, type CEM III which is defined according to European standard EN 197-1, respectively objectified the development of product and realized all points from plan of design except introduction of newproduct. 

References

1.
1982;
2.
Kotler P. 1997;
3.
Ahmad M, Benson R. 1999;
4.
Chauvel A. Manual ofprocesseconomicevaluation EditionsTechnip. 2003;
5.
Newnan D, Eschenbach T, Lavelle J. 2004;
6.
Osmanović Z, Zelić J. Proizvodnja Portland cementa. 2010;
7.
Bhatty J. Alternativesusesof cement kilndust. RP. 1995;
8.
Ehrenberg A. CO2 emissionsandenergyconsumptionofgranulatedblastfurnaceslag. 2003;(2):151–66.
9.
Dietmar S. Possibilities for theutilizationof cement kilndust, Heidelbergtechologycenter. 2000;
10.
2000;
11.
Haračić N. Razvoj i proizvodnja metalurških cemenata. 2014;

The statements, opinions and data contained in the journal are solely those of the individual authors and contributors and not of the publisher and the editor(s). We stay neutral with regard to jurisdictional claims in published maps and institutional affiliations.