A Virtual Machining Model for Sustainability Analysis

Shao, Guodong; Kibira, Deogratias; Lyons, Kevin W.

doi:10.1115/detc2010-28743

Cited by 32 publications

(21 citation statements)

References 15 publications

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“…They proposed a hybrid method using discrete event simulation and analytic calculation. Shao et al [14] summarized the procedure of developing virtual simulation tools of machining.…”

Section: Introductionmentioning

confidence: 99%

Software-based tool path evaluation for environmental sustainability

Kong

Choi

Yasui

et al. 2011

Journal of Manufacturing Systems

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a b s t r a c tCurrently available life cycle assessment (LCA) tools provide only a rough estimation of the environmental impact of different manufacturing operations (e.g. energy consumption). To address this limitation, a web-based and application programming interface (API) based process analysis software tools were developed to estimate the energy consumption of a computer numerically controlled (CNC) machine tool operation and to evaluate its environmental impact as a first step towards sustainable manufacturing analysis. Acceleration/deceleration of machine tool axes and the direction of axes movement were considered to estimate the total energy demand and processing time of the machine tool operation. Several tool path generation schemes were tested to analyze the energy consumption and resulting green house gas emission of CNC machine tool operation. It showed that tool path generation schemes affect the amount of energy and the processing time required to machine the same part, and location of the machining resulted in different amount and characteristics of green house gas emission.

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“…They proposed a hybrid method using discrete event simulation and analytic calculation. Shao et al [14] summarized the procedure of developing virtual simulation tools of machining.…”

Section: Introductionmentioning

confidence: 99%

Software-based tool path evaluation for environmental sustainability

Kong

Choi

Yasui

et al. 2011

Journal of Manufacturing Systems

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“…A research introduces an importance about the decision of an optimum cutting condition achieving low environmental burden with using virtual reality technology before a real machining operation (Shao, 2010) based on my previous research (Narita, 2009), but any concrete ways to decide the optimum cutting condition from the view point of the environmental burden haven't been proposed so far. This is the first proposition how to decide the optimum cutting conditon achieving low environmental burden as show in this example.…”

Section: Determination Methods To Realize Low Environmental Burdenmentioning

confidence: 99%

Environmental Burden Analyzer for Machine Tool Operations and Its Application

Narita¹

2012

Manufacturing System

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“…If energy data and information can be more effectively used and analyzed in manufacturing, it will provide considerable insights into energy-saving opportunities [5]. The machining process, as one of the major processes of manufacturing industries [6], is vital to energy saving and emission reduction. Generally, the life cycle of a product can be divided into several stages: material production; manufacture and assembly; transport; use; and end-of-life.…”

Section: Introductionmentioning

confidence: 99%

Energy Demand Modeling Methodology of Key State Transitions of Turning Processes

et al. 2017

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Abstract:Energy demand modeling of machining processes is the foundation of energy optimization. Energy demand of machining state transition is integral to the energy requirements of the machining process. However, research focus on energy modeling of state transition is scarce. To fill this gap, an energy demand modeling methodology of key state transitions of the turning process is proposed. The establishment of an energy demand model of state transition could improve the accuracy of the energy model of the machining process, which also provides an accurate model and reliable data for energy optimization of the machining process. Finally, case studies were conducted on a CK6153i CNC lathe, the results demonstrating that predictive accuracy with the proposed method is generally above 90% for the state transition cases.

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A Virtual Machining Model for Sustainability Analysis

Cited by 32 publications

References 15 publications

Software-based tool path evaluation for environmental sustainability

Software-based tool path evaluation for environmental sustainability

Environmental Burden Analyzer for Machine Tool Operations and Its Application

Energy Demand Modeling Methodology of Key State Transitions of Turning Processes

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