Improving the Thermal Behavior of High-Speed Spindles Through the Use of an Active Controlled Heat Pipe System

Jonath, Lucas; Luderich, Jörg; Brezina, Jonas; Gonzalez Degetau, Ana Maria; Karaoglu, Selim

doi:10.1007/978-3-031-34486-2_16

Cited by 1 publication

(2 citation statements)

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“…One possibility to control the heat dissipation of the cooling system and thereby the spindle temperature ϑsp is to control the temperature ϑf or the volumetric flow rate V ˙f of the cooling fluid [16]. Another approach is to use thermoelectric-based cooling systems [15,16]. Furthermore, Jonath et al [16] present a heat pipe based tempering system to control the spindle temperature ϑsp.…”

Section: Thermoelectrically Tempered Motorized Milling Spindlementioning

confidence: 99%

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Recent Advances in Precision, Sustainability and Safety of Machine Tools

Eckart

2023

Journal of Machine Engineering

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Machine tools are the main driver of economic, environmental and social sustainability in industrial production. The ongoing shift from mass production to highly individualized, small batch manufacturing requires machine tools to be more flexible to changing needs while maintaining at least the same level of productivity. However, flexibility and productivity are at odds with the necessity for resource and energy efficiency. At the same time, more sophisticated workpiece specifications are pushing the boundaries regarding precision and dynamics of machine tools. In such a high-performance context, machine safety plays a major role and is becoming increasingly challenging due to higher kinetic energies of moving components. This paper examines recent advances in machine tool precision, sustainability, and safety. Six comprehensive case studies are provided to illustrate how these improvements contribute to an increased productivity. Hardware and software solutions for pose-controlled robotic manufacturing and thermoelectrically tempered high-performance spindles will be presented. Modular machine tool frames based on building blocks and an adaptive cooling system with thermoelectric generators for linear direct drives demonstrate their major impact on resource and energy efficiency. Machine safety is addressed through an analysis of potential hazards as well as improved protective measures. Model-based predictions precisely identify critical process parameters that lead to unbalance-induced failure of slim tool extensions, while on the protection side, new statistical models are applied to assess the protective performance of safeguards much more accurately. The cutting-edge technologies for machine tools presented in this paper will help manufacturers to cope with current and future challenges in industrial production.

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Section: Thermoelectrically Tempered Motorized Milling Spindlementioning

confidence: 99%

“…Another approach is to use thermoelectric-based cooling systems [15,16]. Furthermore, Jonath et al [16] present a heat pipe based tempering system to control the spindle temperature ϑsp.…”

Section: Thermoelectrically Tempered Motorized Milling Spindlementioning

confidence: 99%

Recent Advances in Precision, Sustainability and Safety of Machine Tools

Eckart

2023

Journal of Machine Engineering

View full text Add to dashboard Cite

show abstract

Improving the Thermal Behavior of High-Speed Spindles Through the Use of an Active Controlled Heat Pipe System

Cited by 1 publication

References 15 publications

Recent Advances in Precision, Sustainability and Safety of Machine Tools

Recent Advances in Precision, Sustainability and Safety of Machine Tools

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