Publication detail
THERMAL-DEFORMATION BEHAVIOR OF THE COMPOSITE MATERIAL BED
HERMANSKÝ, D.
English title
THERMAL-DEFORMATION BEHAVIOR OF THE COMPOSITE MATERIAL BED
Type
journal article in Web of Science
Language
en
Original abstract
The thermal stability of the machining centers plays a major role in ensuring the production repeatability. All machine tools producers take various steps to ensure it. One of the ways to permanently maintain and stabilize the behavior of the machine tool is the use of active cooling and the choice of appropriate material of which the individual parts of the supporting system are made. In most cases, manufacturers of the machining centers use traditional metallic materials (steel, cast iron) for construction of the machine supporting system. However, these materials have some physical limitations. These materials can be replaced by or combined with unconventional materials to improve the thermal stability of the machine. The hybrid composite supporting structures are formed this way. The authors of this article examine the impact of steel-concrete composite material on thermal-deformation behavior of the bed in a vertical turning machining center for medium-heavy workpieces. The composite consists of the steel weld, filled with high-strength concrete.
English abstract
The thermal stability of the machining centers plays a major role in ensuring the production repeatability. All machine tools producers take various steps to ensure it. One of the ways to permanently maintain and stabilize the behavior of the machine tool is the use of active cooling and the choice of appropriate material of which the individual parts of the supporting system are made. In most cases, manufacturers of the machining centers use traditional metallic materials (steel, cast iron) for construction of the machine supporting system. However, these materials have some physical limitations. These materials can be replaced by or combined with unconventional materials to improve the thermal stability of the machine. The hybrid composite supporting structures are formed this way. The authors of this article examine the impact of steel-concrete composite material on thermal-deformation behavior of the bed in a vertical turning machining center for medium-heavy workpieces. The composite consists of the steel weld, filled with high-strength concrete.
Keywords in English
machine tool; machine tool bed; thermal deformation; steel-concrete composite
Released
15.03.2022
Publisher
MM SCIENCE
Location
PRAGUE 10
ISSN
1805-0476
Volume
2022
Number
01
Pages from–to
5546–5549
Pages count
4
BIBTEX
@article{BUT177617,
author="Dominik {Hermanský},
title="THERMAL-DEFORMATION BEHAVIOR OF THE COMPOSITE MATERIAL BED",
year="2022",
volume="2022",
number="01",
month="March",
pages="5546--5549",
publisher="MM SCIENCE",
address="PRAGUE 10",
issn="1805-0476"
}