An attempt to analyze influence of properties of five African wood species on cemented carbide tool wearing

Bolesław Porankiewicz , Daria Wieczorek , Emilia Klimaszewska , Anita Bocho-Janiszewska


The dulling of cemented carbide cutting tools after milling five African wood species was studied. The wood specimens investigated varied in high temperature corrosivity (HTC), hard mineral contamination (HMC), and density (D). Attempts to replace the combustion method of evaluating the content of natural HMC in wood with spectral mass analysis methods, such as energy dissipative spectrum (EDAX) or atomic absorption spectrometry (AAS), failed. Experiments showed that scanning electron microscope (SEM) analysis of the ash yielded information on the size and shape of small-dimension, natural HMC particles present in the wood specimens. Employing theoretical multi-variable simulation, the combined effects of the HTC, the HMC, and the D on the cemented carbide tool wear was modeled and appeared to be a good explanation of the results observed.
Author Bolesław Porankiewicz - Politechnika Poznańska (PP)
Bolesław Porankiewicz,,
, Daria Wieczorek (WT / KTiAI)
Daria Wieczorek,,
- Department of Technology and Instrumental Analysis
, Emilia Klimaszewska - Kazmierz Pulaski University of Technology and Humanities (UTHRAD), MNiSW [80]
Emilia Klimaszewska,,
, Anita Bocho-Janiszewska - University of Technology and Humanities in Radom
Anita Bocho-Janiszewska,,
Journal seriesBioresources, ISSN 1930-2126, (A 40 pkt)
Issue year2016
Publication size in sheets0.65
Keywords in EnglishCemented carbide tool; Wearing; Milling; African Wood Species; Hard mineral contamination; High temperature corrosivity; Wood density
ASJC Classification1502 Bioengineering; 2305 Environmental Engineering; 2311 Waste Management and Disposal
Languageen angielski
Score (nominal)40
Score sourcejournalList
ScoreMinisterial score = 35.0, 05-02-2020, ArticleFromJournal
Ministerial score (2013-2016) = 40.0, 05-02-2020, ArticleFromJournal
Publication indicators WoS Citations = 0; Scopus SNIP (Source Normalised Impact per Paper): 2016 = 0.879; WoS Impact Factor: 2016 = 1.321 (2) - 2016=1.73 (5)
Citation count*2 (2021-01-25)
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