05223nam 2200481 450 991076025790332120230929034655.03-031-41428-4(MiAaPQ)EBC30745846(Au-PeEL)EBL30745846(EXLCZ)992823456070004120230929d2024 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierApplication of Troubleshooting Tools in the Monitored Production Processes /Petr Baron, Marek Kocisko, and Anton PandaFirst edition.Cham, Switzerland :Springer,[2024]©20241 online resource (169 pages)Management and Industrial Engineering SeriesPrint version: Baron, Petr Application of Troubleshooting Tools in the Monitored Production Processes Cham : Springer,c2023 9783031414275 Includes bibliographical references and index.Intro -- Preface -- Vote of Thanks -- Contents -- About the Authors -- Symbols and Abbreviations -- 1 Introduction-Proactive Maintenance Methods -- References -- 2 Technical Diagnostics -- References -- 3 Measurement and Assessment of Technical Systems' Vibrations -- 3.1 Balancing of Rotating Parts of Machines -- 3.1.1 Machine Imbalance -- 3.1.2 Diagnostic Symptoms of Imbalance -- 3.1.3 General Principles for Rotor Balancing -- 3.1.4 Operational Balancing Methods -- 3.1.5 Balancing Rigid Rotors -- 3.1.6 Analysis of the Operating Condition of the Furnace Exhaust Fan Depending on Its Impeller Alignment -- 3.2 Diagnostic of Rolling Bearings -- 3.2.1 Diagnostics of Roller Bearings-Crest Factor -- 3.2.2 Diagnostics of Roller Bearings-HF (High Frequency Emission) -- 3.2.3 Roller Bearing Diagnosis-Kurtosis Factor -- 3.2.4 Diagnostics of Roller Bearings-Envelope Analysis -- 3.2.5 The Correlation of Parameters Measured on Rotary Machine After Reparation of Equipment of the Pulp Production -- 3.2.6 Verification of the Operating Condition of Stationary Industrial Gearbox Through Analysis of Dynamic Signal, Measured on the Pinion Bearing Housing -- 3.2.7 The Dynamic Parameters Correlation Assessment of the Textile Machine High-Speed Bearings in Changed Technological Conditions -- 3.3 Combination the Diagnostic Methods as Suitable Tool for Increasing an Effectivity of Determination the State of Mechanical Nodes -- 3.3.1 The trend's Measurement of Vibrations -- 3.3.2 Tribotechnical Diagnostic -- 3.3.3 The Surface Analysis -- 3.3.4 The Measurement of Roughness -- 3.3.5 The Measurement of Roundness -- 3.3.6 Results of Analyses and Discussion -- 3.4 Application of Methods of Technical Diagnostics by Assessment of Oil Filling Condition in the Process of Running-In of Planetary Gearbox -- 3.4.1 Materials and Methodology.3.4.2 Results of the Measurements and Experiments -- 3.4.3 Results and Discussion -- 3.5 The Parameter Correlation of Acoustic Emission and High-Frequency Vibrations in the Assessment Process of the Operating State of the Technical System -- 3.5.1 Description of the Measuring-Characteristics of the Machines and Measuring Methods -- References -- 4 Tribotechnical Diagnostics -- 4.1 Classification of Lubricants -- 4.2 Research and Correlation of Diagnostic Methods for Assessment of the State of Oil Filling in Cycloid Gearbox -- 4.2.1 Correlation, Quantification of Measured Parameters, Recommended Limits -- 4.2.2 Discussion of Realized Experiments -- References -- 5 Application of Technical Diagnostics Tools in the Reductors Test Operation -- 5.1 Determination of Methodology and Research of the Influence of the Trial Run of High-Precision Reducers on the Change of Their Characterizing Properties -- 5.1.1 Parameters Characteristic of High-Precision Reducers -- 5.1.2 Description of the Investigated Problem -- 5.1.3 Characteristics of the Diagnostic Methods Applied -- 5.1.4 Conducting Measurements of Characteristic Properties of Bearing Reducers During Their Trial Run -- 5.1.5 Evaluation of Results and Qualitative Assessment of the Impact of the Load During the Trial Run Mode -- 5.1.6 Discussion of the Study Mentioned Above -- 5.2 Design and Implementation of a Diagnostic System for Measuring High-Precision Reducers -- 5.2.1 Design of a Mechatronic Diagnostic System for Measuring High-Precision Reducers -- 5.2.2 Design of Diagnostic Equipment -- 5.2.3 Results and Discussion -- References -- 6 Conclusion -- References -- Index.Management and industrial engineering.Fault location (Engineering)Reliability (Engineering)Fault location (Engineering)Reliability (Engineering)620.0044Baron Petr1438678Kocisko MarekPanda AntonMiAaPQMiAaPQMiAaPQBOOK9910760257903321Application of Troubleshooting Tools in the Monitored Production Processes3600323UNINA01832nam 2200613 450 991080918140332120230927071509.01-119-05562-81-119-05558-X1-119-05560-1(CKB)4330000000008200(EBL)4538253(SSID)ssj0001691289(PQKBManifestationID)16538347(PQKBTitleCode)TC0001691289(PQKBWorkID)15034342(PQKB)25078099(Au-PeEL)EBL4538253(CaPaEBR)ebr11218420(CaONFJC)MIL928264(OCoLC)951594320(MiAaPQ)EBC4538253(EXLCZ)99433000000000820020160622h20162016 uy 0engur|n|---|||||txtccrGreen roof retrofit building urban resilience /edited by Sara Wilkinson and Tim DixonWest Sussex, [England] :Wiley Blackwell,2016.©20161 online resource (286 p.)Innovation in the Built EnvironmentTHEi Wiley ebooksDescription based upon print version of record.1-119-05557-1 Includes bibliographical references and index.Innovation in the Built EnvironmentTHEi Wiley ebooks.RoofsThermal propertiesRoofsDesign and constructionRoofsThermal properties.RoofsDesign and construction.695Wilkinson SaraDixon TimMiAaPQMiAaPQMiAaPQBOOK9910809181403321Green roof retrofit3932404UNINA