Autor: |
Kuhnt, Sonja, Becker‐Emden, Eva‐Christina, Schade, Tim, Eden, Wolfgang, Middendorf, Bernhard |
Předmět: |
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Zdroj: |
Quality & Reliability Engineering International; Mar2021, Vol. 37 Issue 2, p391-408, 18p |
Abstrakt: |
Calcium silicate units are versatile and widely used construction materials for edifices. Their production process involves several factors that concern either the mixture of the raw materials or the curing process. The understanding of how raw materials and process variables interact in achieving the compressive strength of the final product enables a cost‐ and energy‐efficient layout of the production process. In this paper, we use mixture‐process experiments to derive a prediction model for compressive strength. We compare computer‐generated D‐optimal designs with different numbers of center points by various criteria and by their prediction variance throughout the design space. In contrast to traditional mixture designs, these designs take additional constraints on the mixture components into account and can include process variables. We review suitable response‐surface models, which combine mixture and process variables. Based on results from 72 experimental runs, a model for the mean compressive strength is built, combining expert knowledge with statistical model‐selection strategies. The resulting model covers not only linear effects of mixture components and process variables but also interactions and quadratic terms. For example, the influence of the lime share on compressive strength differs among the use of various sand mixtures. For desired values of predicted compressive strength, factor settings can thereby be found reducing costs and energy emission. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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