Table 2.
Summary of findings.
| Topics | Author | Focus | Approach |
|---|---|---|---|
| Carbon Efficiency | Cao et al. (2012) | Carbon efficiency indicators of machine tools | LCA principles |
| Sibanda et al. (2019) | Characterization of the life-cycle carbon emissions of machine tools | Reconfiguration | |
| Du et al. (2015) | Novel approach to improve energy efficiency and reduce carbon emission. | The authors has established a system framework of low-carbon operation models for machinery manufacturing industry as a model to investigate the situation. | |
| Life cycle assessment and Inventory | Zendoia et al. (2014) | Established the need to clearly define the inventory phase of the machine tools for improved clarity and consistency of the entire life cycle | Life cycle inventory and impact assessment |
| Heijungs et al. (1992) | Life cycle assessment of products | Exploratory | |
| Chen and Huang (2019) | Application review of LCA (Life Cycle Assessment) in circular economy | Exploratory | |
| Zheng et al. (2008) | life cycle cost reduction | A web-based | |
| Huang et al. (2009) | Development of a LCA model for construction and maintenance of asphalt pavements for improved process sustainability | Used the concept of Life Cycle Assessment for model development | |
| de Souza Zanuto et al. (2019) | Development of a decision making framework for assessing the resources consumed and their environmental impacts during machining operation | Life cycle assessment software tool. | |
| Grünebaum et al. (2019) | Life cycle phases | Exploratory | |
| Fourie and Tendayi (2016) | A decision-making framework for effective maintenance management | Life cycle costing | |
| Slapnik et al. (2015) | To extend the life cycle assessment normalization factors | Machine learning approach technique | |
| Krautzera et al. (2015) | Application of the webtool | Internet of Things (IoTs) and web-based applications | |
| Jiang et al. (2012) | Environmental performance assessment | Exploratory | |
| Mert et al. (2014) | Development a framework for improving the efficiency of resources during manufacturing operations | Life cycle oriented services | |
| Matthews et al. (2014) | Life cycle assessment | Exploratory | |
| Life cycle assessment and Inventory | Schmida et al. (2016) | Life Cycle of Multi Technology Machine Tools – Modularization and Integral Design | Preventive structuring methodology |
| Heeschen et al. (2015) | Life cycle oriented tool management during machining operation | Tool and equipment management technique | |
| Diaz et al. (2010) | Environmental sustainability | LCA and redesign | |
| Lee et al. (2012) | Sustainability of Manufacturing System | Simulation-Based Analysis | |
| Huang et al. (2009) | Development of a life cycle assessment tool | Case study | |
| Burchart-Korol et al. (2016) | Environmental life cycle assessment | Case study | |
| Winter et al. (2015) | Life cycle assessment | Exploratory | |
| Li et al. (2017) | carbon efficiency of cutting tools | A life cycle approach | |
| Energy Efficiency | Srinivasan et al. (2014) | Energy efficiency | Use of life cycle-based tools for energy consumption in a building |
| Garg et al. (2018) | Power consumption minimization | Modelling | |
| Tůma et al. (2014) | Energy consumption in machine tools | Empirical | |
| Afsharizand et al. (2014) | Comparison of Energy, cost and environmental sustainability using energy-based indicators used in life cycle assessment tools for buildings | Use of Computer Aided Process Planning (CAPP) | |
| Resource and energy consumption | Development of operational models for energy efficiency improvement and environmental sustainability | ||
| Chen et al. (2018) | Energy effectiveness monitoring system for machining workshop with the support of the newly emerging Internet of Things (IoT) technology | Real time monitoring approach | |
| Triebe et al. (2019) | Energy efficiency for sustainable manufacturing. | Multi-objective optimization | |
| Silva et al. (2015) | Improvement in the process and energy consumption | Use of a modelling method that combines the Life Cycle Assessment (LCA) and the Design of Experiments (DoE) to study a cylindrical plunge grinding for a 21-2N steel. | |
| Campitelli et al. (2019) | Improvement in energy consumption | Green cutting technology. | |
| Duflou et al. (2012) | Towards energy and resource efficient manufacturing | Processes and systems approach. | |
| Priarone (2016) | Energy optimization | Application of sustainability indicator | |
| Energy Efficiency | Du et al. (2015) | Novel approach to improve energy efficiency and reduce carbon emission. | The authors has established a system framework of low-carbon operation models for machinery manufacturing industry as a model to investigate the situation. |
| Herrmann et al. (2009) | Energy efficiency of machine tools: | Exploratory | |
| Di Orio et al. (2013) | Energy efficiency in machine tools | Self-learning approach | |
| Machine Tool | Azarenko (2009) | Combination of cutting-edge mass production and ultra-precision technologies. | Technical product service system (t-PSS) |
| Hegab et al. (2015) | Electrical Discharge Machining | Statistical design, modelling and optimization | |
| Kjellberg et al. (2009) | The machine tool model | Exploratory | |
| Bengtsson and Kurdve (2016) | Machining equipment life cycle costing model | Modelling | |
| Westerkamp (2013) | Optimization of machine tool | ||
| Denkena et al. (2006) | Optimization of machine design | Proposed the development of an LCC navigator for analysis | |
| Lee and Suh (2008) | Machine tools with product data model | Modelling | |
| Emec et al. (2016) | Use of diagnostic and prognostic online tool for fault monitoring and improved resource-efficiency | Real time monitoring approach | |
| Zhao and Ming (2019) | Optimization of a remanufacturing technology for motors with improvement in material sustainability. | Remanufacturing approach | |
| Sihag and Sangwan (2019) | Quantification of the maintainable performance of a machine tool | Multi-criteria decision approach (AHP) | |
| Gao and Wang (2017) | Machine tools: From design to remanufacture. | Through life analysis | |
| Diaz et al. (2010) | Machine tools | Exploratory | |
| Daniyan et al. (2019c) | Machine tools | Empirical | |
| Azkarate et al. (2011) | Sustainable machine tools | Exploratory | |
| Krautzera et al. (2015) | Environmental performance of machine tools | Case studies applying the ‘LCA | |
| Zhang et al. (2012) | Machine tool | Empirical | |
| Chatopadhyay (2014) | Tool life-cycle | Exploratory | |
| Linke (2014) | Life cycle of grinding tools | Exploratory | |
| Avram et al. (2013) | Life cycle costs of machine tools | Exploratory | |
| Brenner et al. (2017) | Life cycle management of cutting tools | Exploratory | |
| Circular Economy | Geissdoerfer et al. (2017) | The Circular Economy | Novel sustainability paradigm |
| Jawahir and Bradley (2016) | Technological elements of circular economy | Exploratory Approach | |
| Murray et al. (2017) | The circular economy: | An interdisciplinary exploration of the concept and application in a global context | |
| Wu et al. (2014) | Effectiveness of the policy of circular economy | DEA-based analysis | |
| Duflou (2008) | Efficiency and feasibility of product disassembly | A case-based study | |
| Phuluwa et al. (2019) | End-of- life components reusability. | Exploratory approach | |
| Machining operations | Shokrani et al. (2012) | CNC Milling | Empirical |
| Dilip Jerold & Pradeep Kumar (2013) | CNC Milling | Empirical | |
| Biˇcek et al. (2012) | CNC Turning | Empirical | |
| Courbon et al. (2013) | CNC machining | Empirical | |
| Tapoglou et al. (2017) | CNC machining | Empirical | |
| Dilip Jerold & Pradeep Kumar (2012) | CNC Turning | Empirical | |
| Fernández et al. (2019) | Cryogenic milling | Empirical | |
| Pereira et al. (2016) | CNC Milling | Empirical | |
| Pereira et al. (2017) | CNC Milling | Empirical | |
| Cordes et al. (2014) | Cryogenic cooling | Empirical | |
| Kaynak et al. (2014) | Cryogenic milling | Empirical | |
| Feyzi and Safavi (2013) | CNC machining | Empirical | |
| Campitelli et al. (2019) | Resource efficiency analysis of lubricating strategies | Machining processes using life cycle assessment | |
| Kishawy et al. (2019) | Machining of titanium alloy | Empirical | |
| Pusavec et al. (2010) | Application on machining technologies | Exploratory | |
| Daniyan et al. (2019c) | CNC Milling | Empirical | |
| Tlhabadira et al. (2019) | CNC Milling | Empirical | |
| Daniyan et al. (2020a) | CNC Milling | Empirical |