6533b834fe1ef96bd129e334
RESEARCH PRODUCT
Evaluating Safety Systems for Machine Tools with Computer Numerical Control using Analytic Hierarchy Process
Sever-gabriel RaczLucian-ionel CiocaRadu-eugen Breazsubject
lcsh:Industrial safety. Industrial accident preventionbusiness.product_categoryanalytic hierarchy process (AHP)Computer science0211 other engineering and technologiesStability (learning theory)Analytic hierarchy processSystem safety02 engineering and technologysafety systemsmachining processMachining021105 building & construction0501 psychology and cognitive scienceslcsh:T55-55.3Safety Risk Reliability and Quality050107 human factorsmachine toolslcsh:R5-92005 social sciencesPublic Health Environmental and Occupational HealthControl engineeringMachine toolBenchmark (computing)Numerical controlPairwise comparisoncomputer numerical control (CNC)lcsh:Medicine (General)businessSafety Researchdescription
Computer numerical control (CNC) machine tools are complex production systems with fully automatic machine parts. Nowadays, high feed rates and machining speeds are used during the machining process. Human operators are still needed to set-up the machine, load/unload workpieces and parts, load the machining code, and supervise the machining process. The operators work in an environment where automated high-speed motions occur, and consequently, CNC machine tools have to be equipped with safety systems. The approach presented in this paper was to evaluate the main safety systems of CNC machine tools based upon the analytic hierarchy process (AHP). The analyzed systems were divided into six main categories and compared pairwise using five criteria proposed by the authors. The approach and the obtained results significantly relied upon the situation found at the industrial company used as a benchmark for the research. The analysis reveals that, among considered safety devices, manually operated controls are the most efficient ones. Finally, a sensitivity analysis was conducted to test the stability of the AHP solution.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-03-07 | Safety |