Establishment of reliable relative price predictions for high‐strength steel members-Reference-Cited by-同舟云学术

Establishment of reliable relative price predictions for high‐strength steel members

Published:2023-12-22 Issue: Volume: Page:
ISSN:1867-0520
Container-title:Steel Construction
language:en
Short-container-title:Steel Construction

Author:

Saufnay Loris¹^ORCID,Demonceau Jean‐François¹

Affiliation:

1. University of Liège (ULiège) Urban & Environmental Engineering Department (UEE) 4000 Liège Belgium

Abstract

AbstractIn recent years, significant production improvements have been observed in the field of steel structures allowing for a constant increase in the yield strength and consequently for a reduction in the weight of structures. However, considering the required production techniques for high‐strength steels, which are sometimes more demanding in terms of energy as well as more demanding in terms of alloy content, the manufacturing cost generally increases with the yield strength. Accordingly, designers and engineers are sometimes reluctant to consider higher steel grades as they do not know in which cases their use presents an economic benefit. Evaluating reliable relative prices for higher grades is seen as a necessity to realise a prospective study and prove their economic benefit but, looking to the literature, only a few publications address this topic. Thus, this article aims to establish relative price‐strength relationships for different section typologies to help practitioners in choosing cost‐effective steel grades for their applications. These investigations are based on previously available producer price lists to establish relative price intervals for existing and future emerging steel grades. The results of this article demonstrate the base price dependency and the key features which govern the relative prices and thus the economic benefit of such grades.

Publisher

Wiley

Subject

Metals and Alloys,Mechanics of Materials,Building and Construction,Civil and Structural Engineering

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/stco.202300013

Reference57 articles.

1. World Steel Association AISBL (2022)World Steel Association[online]. Brussels Belgium.https://worldsteel.org/[last accessed: 19 Aug. 2022].

2. Veljkovic M.; Husson W.; Heistermann C. (2012)High-strength tower in steel for wind turbines (HISTWIN): Final report[online]. Brussels: European Commission Research Program of the Research Fund for Coal and Steel doi:10.2777/39656.

3. Vayas I. et al. (2021)Innovative solutions for design and strengthening of telecommunications and transmission lattice towers using large angles from high strength steel and hybrid techniques of angles with FRP strips (ANGELHY): Final report. European Commission Research Program of the Research Fund for Coal and Steel Grant Agreement 753993.

4. Theofanous M.; Simões da Silva L.; Chen A. et al. (2017)High strength long span structures (HILONG): Final report[online]. Brussels: European Commission Research Program of the Research Fund for Coal and Steel doi:10.2777/904237.

5. Schillo N.; Kövesdi B.; Pétursson E. et al (2016)Rules on high strength steels (RUOSTE): Final report. European Commission Research Program of the Research Fund for Coal and Steel doi:10.2777/908095.