| SDG 9 - Keywords | ||||
| (gscm) | digital factory | industrial sectors | manufacturing cloud | remanufacturing |
| (lca) | digital inclusion | industrial structure | manufacturing companies | remanufacturing process |
| 3-axis cnc | digital inequality | industrial symbiosis | manufacturing concept | remanufacturing reverse logistics |
| 3d microfabrication | digital manufacturing | industrial symbiosis (is) | manufacturing concepts | remanufacturing system |
| 3d printed | direct manufacturing | industrial waste | manufacturing design | remanufacturing |
| 3d printer | direct metal laser sintering | industrial waste heat | manufacturing employment | reporting initiative (gri) |
| 3d printers | direct metal laser sintering (dmls) | industrial waste management | manufacturing energy | research and development (r&d) |
| 3d printing | directed energy deposition | industrial wastes | manufacturing enterprises | resilient infrastructure |
| 3d printing additive manufacturing | discharge machining | industrial wastewater | manufacturing environment | resource efficiency |
| 3d printing process | disruptive innovation | industrial wastewater treatment | manufacturing firms | returned products |
| 3d printing technology | disruptive innovations | industrial wastewater treatment plant | manufacturing industries | reverse logistic |
| 3d printing | distributed control system | industrial wastewater treatment plants | manufacturing industry | reverse logistics |
| 3d-printing | distributed control system (dcs) | industrial wastewater | manufacturing innovation | reverse logistics (rl) |
| 4d printing | distributed control systems | industrial wastewaters | manufacturing is | reverse logistics network |
| 5-axis | distributed control systems (dcs) | industrie 40 | manufacturing lean | reverse logistics system |
| 5-axis cnc | dmls | industry 4 | manufacturing method | reverse supply chain |
| 5-axis machine | domestic technology | industry 40 | manufacturing methods | road development |
| 5-axis machining | ecodesign | industry 40 | manufacturing operations | road infrastructure |
| a closed-loop supply chain | eco-design | industry automation | manufacturing paradigm | road infrastructures |
| abiotic depletion | eco-efficiency | industry employment | manufacturing principles | road management |
| access to computers | eco-efficient | industry energy | manufacturing process control | robotic automation |
| access to ict | eco-indicator | industry innovation | manufacturing research | robotic cell |
| access to infrastructure | eco-indicator 99 | industry wastewater | manufacturing resources | robotic cells |
| access to internet | eco-industrial | infrastructure asset | manufacturing sector | robotic machining |
| access to the internet | eco-industrial park | infrastructure asset management | manufacturing sector | rotary axes |
| accessibility web | eco-industrial parks | infrastructure assets | manufacturing sectors | rural infrastructure |
| acidification potential | eco-innovation | infrastructure construction | manufacturing service | scada |
| adaptive slicing | eco-innovations | infrastructure development | manufacturing services | scada system |
| additive fabrication | ecoinvent | infrastructure financing | manufacturing smes | scada systems |
| additive layer | economic input-output | infrastructure investment | manufacturing sustainability | selective electron beam melting |
| additive layer manufacturing | edm | infrastructure investments | manufacturing system | selective laser melted |
| additive manufacture | edm parameters | infrastructure management | manufacturing systems | selective laser melting |
| additive manufactured | edm process | infrastructure planning | manufacturing systems | selective laser melting (slm) |
| additive manufacturing | edm process parameters | infrastructure policy | manufacturing technique | selective laser melting process |
| additive manufacturing (am) | efficient machining | infrastructure project | manufacturing techniques | selective laser sintering |
| additive manufacturing (am) process | efficient manufacturing | infrastructure projects | manufacturing technologies | selective laser sintering (sls) |
| additive manufacturing method | effluent treatment | infrastructure protection | manufacturing technology | service innovation |
| additive manufacturing methods | effluent treatment plant | infrastructure quality | manufacturing tools | silicon bulk micromachining |
| additive manufacturing process | e-inclusion | infrastructure resilience | manufacturing value | silicon microfabrication |
| additive manufacturing processes | electric discharge machining | infrastructure sustainability | manufacturing/remanufacturing | silicon micromachining |
| additive manufacturing techniques | electric discharge machining (edm) | infrastructure system | material removal rate | silicon micromachining technology |
| additive manufacturing technologies | electrical discharge | infrastructure systems | material removal rate (mrr) | silicon micromachining |
| additive manufacturing technology | electrical discharge machining | initiative (gri) | melt pool | simapro |
| additive manufacturing | electrical discharge machining (edm) | innovation activities | mems microfabrication | simapro software |
| additively manufactured | electrical discharge machining process | innovation activity | metal additive | slm process |
| advanced machining | electrical discharge machining | innovation capabilities | metal additive manufacturing | smart factories |
| advanced manufacturing | electro discharge | innovation capability | metal laser sintering | smart factory |
| advanced manufacturing systems | electro discharge machining | innovation capacity | metal laser sintering (dmls) | smart infrastructure |
| advanced manufacturing techniques | electro discharge machining (edm) | innovation development | micro- and nanofabrication | smart manufacturing |
| advanced manufacturing technologies | electrochemical discharge machining | innovation knowledge | micro edm | social life cycle |
| advanced manufacturing technology | electrochemical micromachining | innovation management | micro electrical discharge | social life cycle assessment |
| advanced manufacturing technology (amt) | electrode wear | innovation network | micro electrical discharge machining | solid freeform |
| advanced process | electrode wear rate | innovation networks | micro fabrication | solid freeform fabrication |
| advanced process control | electrode wear ratio | innovation performance | micro machining | solid freeform fabrication (sff) |
| advanced process control (apc) | electro-discharge | innovation policies | micro manufacturing | step-nc |
| agile manufacturing | electro-discharge machining | innovation policy | micro/nano fabrication | stereolithography |
| aided manufacturing | electro-discharge machining (edm) | innovation practices | micro/nanofabrication | stereolithography (sl) |
| alsi10mg | electron beam melting | innovation process | micro-edm | stereolithography (sla) |
| am processes | electron beam melting (ebm) | innovation processes | micro-electrical discharge machining | stereolithography process |
| and additive manufacturing | e-manufacturing | innovation product | microfabrication | stereolithography |
| and innovation policy | employment growth | innovation projects | micro-fabrication | stream mapping |
| and micromachining | energy efficiency in industry | innovation r&d | microfabrication process | subtractive manufacturing |
| and nanofabrication | energy infrastructure | innovation research | microfabrication processes | supervisory control and data acquisition |
| and product innovation | energy intensive industries | innovation strategies | microfabrication technique | supervisory control and data acquisition (scada |
| and reverse logistics | energy-intensive | innovation strategy | microfabrication techniques | supervisory control and data acquisition (scada) |
| application of lca | energy-intensive industries | innovation survey | microfabrication technologies | supply chain sustainability |
| arc additive manufacturing | entrepreneurial finance | innovation system | microfabrication technology | surface micromachining |
| automated manufacturing | environmental burdens | innovation systems | micro-fabrication technology | surface micromachining process |
| automated manufacturing system | environmental impact categories | innovation systems | microfabrication | surface micromachining technology |
| automated manufacturing systems | environmental innovation | innovation technology | micromachining | surface roughness (sr) |
| automatic process control | environmental life | innovative activities | micro-machining | surface-micromachining |
| beam melting | environmental life cycle | innovative activity | micromachining process | sustainability performance |
| bottom line | environmental life cycle assessment | innovative firms | micro-machining process | sustainability reporting |
| bridging the digital divide | environmental performance | innovative manufacturing | micromachining processes | sustainability reports |
| broadband access | environmental performances | innovative performance | micromachining system | sustainable business |
| broadband access network | environmental product | innovative products | micromachining technique | sustainable competitive |
| broadband access networks | environmental profile | integrated manufacturing | micromachining techniques | sustainable competitive advantage |
| broadband access technologies | environmentally conscious manufacturing | integrated manufacturing system | micromachining technologies | sustainable construction |
| broadband internet | eutrophication potential | integrated manufacturing systems | micromachining technology | sustainable growth |
| broadband internet access | excimer laser micromachining | intelligent manufacturing | micro-machining technology | sustainable industrial development |
| broadband penetration | experimental physics and industrial control system | intelligent manufacturing system | micromachining | sustainable industry |
| broadband wireless | experimental physics and industrial control system (epics) | intelligent manufacturing systems | micromanufacturing | sustainable infrastructure |
| broadband wireless access | factory automation | intelligent manufacturing | micro-manufacturing | sustainable innovation |
| broadband wireless access (bwa) | fair work | internet access | microstereolithography | sustainable machining |
| broadband wireless access networks | fast prototyping | internet accessibility | micro-stereolithography | sustainable manufacturing |
| broadband wireless access systems | fast tool servo | internet infrastructure | milling machine | sustainable manufacturing |
| build direction | fast tool servo (fts) | internet penetration | mixed model assembly | sustainable pavement |
| build orientation | fdm parts | internet service | mixed model assembly line | sustainable performance |
| building direction | fdm process | internet service provider | mixed-model assembly | sustainable practices |
| bulk micromachining | femtosecond laser micromachining | internet service provider (isp) | mixed-model assembly line | sustainable product |
| bulk micromachining technology | firm innovation | internet service providers | mixed-model assembly lines | sustainable product design |
| bulk silicon micromachining | firms' innovation | internet service providers (isp) | mobile internet access | sustainable product development |
| bulk-micromachining | five-axis | internet service providers (isps) | model innovation | sustainable products |
| business angels | five-axis cnc | inventory analysis | model of innovation | sustainable supplier |
| business model innovation | five-axis machine | investment in infrastructure | modern manufacturing | sustainable supply |
| cad/cam | five-axis machine tool | investments in infrastructure | municipal and industrial wastewater | sustainable supply chain |
| cad/cam software | five-axis machine tools | iron and steel industry | municipal infrastructure | sustainable supply chain management |
| cad/cam system | five-axis machining | iso 14040 | nano fabrication | sustainable supply chain management (sscm) |
| cad/cam systems | five-axis nc | iso 50001 | nanoarchitectonics | sustainable supply chains |
| cad/cam/cae | flexible fabrication | large infrastructure | nanofabrication | system boundaries |
| capp | flexible manufacturing | large infrastructure projects | nano-fabrication | system of innovation |
| carbon footprint | flexible manufacturing cell | large-scale infrastructure | nanofabrication methods | systems of innovation |
| cement industry | flexible manufacturing system | laser additive | nanofabrication processes | technological capabilities |
| cement manufacturing | flexible manufacturing system (fms) | laser additive manufacturing | nanofabrication technique | technological capability |
| chain sustainability | flexible manufacturing systems | laser clad | nanofabrication techniques | technological innovation |
| characterization factors | flexible manufacturing systems (fms) | laser cladded | nanofabrication technology | technological innovation systems |
| circular economy | flexible manufacturing systems (fmss) | laser cladding | nanofabrication | technology and innovation |
| civil infrastructure systems | flexible robotic | laser cladding coating | nanomachining | technology innovation |
| clad layer | flushing pressure | laser cladding layer | nano-machining | telecommunication infrastructure |
| cladding coating | fossil depletion | laser cladding process | nanomanufacturing | telecommunication infrastructures |
| cladding process | fourth industrial revolution | laser cladding technique | nano-manufacturing | telecommunications act |
| cladding technology | free internet | laser cladding technology | national innovation | telecommunications act of 1996 |
| clean production | freeform fabrication | laser cladding | national innovation system | telecommunications infrastructure |
| cleaner production | freeform fabrication (sff) | laser melted | national innovation system (nis) | telecommunications policy |
| cleaner production (cp) | fused deposition | laser melting | national innovation systems | terrestrial ecotoxicity |
| closed loop supply | fused deposition modeling | laser melting process | new manufacturing | the carbon footprint |
| closed loop supply chain | fused deposition modeling (fdm) | laser metal deposition | new manufacturing process | the circular economy |
| closed-loop supply chain | fused deposition modelling | laser micro machining | new manufacturing processes | the closed-loop supply chain |
| closed-loop supply chain (clsc) | fused deposition modelling (fdm) | laser microfabrication | new manufacturing technologies | the digital divide |
| closed-loop supply chain network | fused filament fabrication | laser micromachining | new manufacturing technology | the distributed control system |
| closed-loop supply chains | fused filament fabrication (fff) | laser micro-machining | new product innovation | the fourth industrial revolution |
| cloud manufacturing | g-code | laser powder bed | novel manufacturing | the global reporting initiative (gri) |
| cloud manufacturing (cmfg) | global infrastructure | laser powder bed fusion | numerical control | the industrial robot |
| cloud manufacturing environment | global innovation | laser sintered | of industrial robots | the industrial sector |
| cloud manufacturing service | global manufacturing | laser sintering | open innovation | the industrial structure |
| clsc | global reporting | laser sintering (dmls) | open innovation (oi) | the internet service providers |
| cnc | global reporting initiative | laser sintering (sls) | open innovation model | the manufacturing technology |
| cnc (computer numerical control) | global reporting initiative (gri) | layer manufacturing | open innovation practices | the reverse logistics |
| cnc controller | global warming potential | layered manufacturing | open innovation | the triple bottom line |
| cnc grinding | global warming potential (gwp) | lca | overcut | tool electrode |
| cnc lathe | green infrastructure | lca (life cycle assessment) | polysilicon surface micromachining | tool path |
| cnc machine | green infrastructure (gi) | lca analysis | powder bed | tool path generation |
| cnc machine tool | green infrastructures | lca approach | powder bed fusion | tool path planning |
| cnc machine tools | green innovation | lca life cycle assessment | powder-bed | tool paths |
| cnc machines | green manufacturing | lca method | precision machining | tool servo |
| cnc machining | green supply | lca methodology | precision manufacturing | tool wear rate |
| cnc machining center | green supply chain | lca results | process innovation | tool wear rate (twr) |
| cnc milling | green supply chain management | lca software | process innovation | toolpath |
| cnc milling machine | green supply chain management (gscm) | lca studies | process innovations | traditional manufacturing |
| cnc system | green supply chains | lca study | process planning | transport infrastructure |
| cnc systems | gscm | lca | process planning (capp) | transport infrastructure projects |
| cnc turning | gscm practices | lcas | product and process | transport infrastructures |
| collaborative innovation | high-speed internet access | lcia | product and process innovation | transportation infrastructure |
| collaborative robot | high-tech industries | lean implementation | product and process innovations | transportation infrastructure |
| collaborative robotics | highway infrastructure | lean manufacturing | product innovation | transportation infrastructures |
| collaborative robots | human toxicity | lean manufacturing (lm) | product innovation performance | treatment of industrial wastewater |
| community innovation | hybrid life cycle assessment | lean manufacturing principles | product innovations | triple bottom line |
| community innovation survey | hybrid manufacturing | lean manufacturing | prototyping and manufacturing | triple bottom line (tbl) |
| comparative lca | ict access | lean production | prototyping method | types of innovation |
| comparative life cycle assessment | ict infrastructure | lean production system | prototyping process | ultra precision machining |
| composite manufacturing | ict infrastructures | lean production systems | prototyping system | ultraprecision |
| composite manufacturing processes | ict policies | life cycle analysis | prototyping technique | ultra-precision |
| computer aided manufacturing | ict policy | life cycle assessment | prototyping techniques | ultraprecision machining |
| computer aided manufacturing (cam) | ict4d | life cycle assessment (lca) | prototyping technology | ultra-precision machining |
| computer aided process | iiot | life cycle assessment methodology | prototyping | ultra-precision turning |
| computer aided process planning | impact assessment method | life cycle assessment | public infrastructure | university spin-off |
| computer aided process planning (capp) | impact categories | life cycle assessments | public infrastructures | university-industry |
| computer integrated manufacturing | impact category | life cycle assessments (lca) | public transport infrastructure | university-industry collaboration |
| computer integrated manufacturing (cim) | impact life | life cycle costing | public transport network | university-industry cooperation |
| computer numerical control | industrial automation | life cycle costing (lcc) | public transport service | university-industry relations |
| computer numerical control (cnc) | industrial automation and control | life cycle energy | public transport services | university-industry-government |
| computer numerical control (cnc) machine | industrial automation systems | life cycle environmental impacts | public transport system | urban green infrastructure |
| computer numerical control machine | industrial automation | life cycle ghg | public transport systems | urban infrastructure |
| computer numerically controlled | industrial cluster | life cycle greenhouse gas | public transportation system | urban infrastructures |
| computer-aided manufacturing | industrial clusters | life cycle impact | public transportation systems | urban public transport |
| computer-aided manufacturing (cam) | industrial control | life cycle impact assessment | pulse off | urban public transportation |
| computer-aided process planning | industrial control system | life cycle impact assessment (lcia) | pulse off time | urban water infrastructure |
| computer-aided process planning (capp) | industrial control system (ics) | life cycle impacts | pulse on time | used products |
| computer-integrated manufacturing | industrial control systems | life cycle inventories | pulse-on time | using life |
| consequential life cycle assessment | industrial control systems (ics) | life cycle inventory | quality infrastructure | value stream |
| control (cnc) | industrial ecology | life cycle inventory (lci) | quality of infrastructure | value stream mapping |
| control and data acquisition | industrial ecology (ie) | life cycle inventory data | radical innovation | value stream mapping (vsm) |
| conventional edm | industrial ecosystem | life cycle perspective | railway infrastructure | venture capital |
| conventional machining | industrial employment | life cycle thinking | railway infrastructures | virtual factory |
| conventional manufacturing | industrial energy | life-cycle assessment | rapid manufacturing | virtual manufacturing |
| corporate sustainability | industrial energy consumption | life-cycle assessment (lca) | rapid prototypes | virtual prototyping |
| cradle | industrial energy efficiency | life-cycle assessments | rapid prototyping | virtual prototyping technology |
| cradle-to-gate | industrial enterprises | machine tool | rapid prototyping (rp) | virtual prototyping |
| cradle-to-grave | industrial innovation | machine tools | rapid prototyping approach | waam |
| critical infrastructure | industrial internet | machine tools | rapid prototyping method | warming potential |
| critical infrastructure protection | industrial internet of things | machining accuracy | rapid prototyping platform | waste minimization |
| critical infrastructure systems | industrial internet of things (iiot) | machining center | rapid prototyping process | waste reduction |
| critical infrastructures | industrial iot | machining centers | rapid prototyping system | wastewater infrastructure |
| cumulative energy demand | industrial manipulator | machining characteristics | rapid prototyping technique | water infrastructure |
| cutter location | industrial manipulators | machining efficiency | rapid prototyping techniques | water infrastructures |
| cyber-physical production | industrial metabolism | machining method | rapid prototyping technologies | wear ratio |
| cycle assessment | industrial park | machining parameters | rapid prototyping technology | web access |
| cycle inventory | industrial parks | machining process | rapid prototyping | web accessibility |
| cycle thinking | industrial policy | machining system | rapid tooling | wedm |
| data acquisition (scada) | industrial process control | machining technologies | rapid-prototyping | wedm process |
| deposition modeling | industrial research and development | machining technology | recast layer | wedm |
| deposition modelling | industrial revolution | machining time | regional innovation | wire edm |
| design for additive | industrial robot | major infrastructure | regional innovation policy | wire electric discharge |
| design for additive manufacturing | industrial robot arm | major infrastructure projects | regional innovation system | wire electric discharge machining |
| design for environment | industrial robot manipulator | manufacture technology | regional innovation systems | wire electrical discharge |
| development (r&d) | industrial robot manipulators | manufacturing and remanufacturing | remanufacture | wire electrical discharge machining |
| development of industrialization | industrial robotic | manufacturing applications | remanufactured | wire electrical discharge machining (wedm) |
| die-sinking | industrial robotics | manufacturing approach | remanufactured product | wire-edm |
| digital divide | industrial robots | manufacturing automation | remanufactured products | wireless broadband access |
| digital divides | industrial sector | manufacturing cell | remanufacturer | wireless internet access |
