E-Book, Englisch, 550 Seiten, eBook
Proceedings of the International Conference on Design, Simulation, Manufacturing: The Innovation Exchange, DSMIE-2018, June 12-15, 2018, Sumy, Ukraine
E-Book, Englisch, 550 Seiten, eBook
Reihe: Lecture Notes in Mechanical Engineering
ISBN: 978-3-319-93587-4
Verlag: Springer International Publishing
Format: PDF
Kopierschutz: 1 - PDF Watermark
Zielgruppe
Research
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;6
2;Organization;8
2.1;Steering Committee;8
2.2;General Chair;8
2.3;Co-chairs;8
2.4;Program Committee;8
2.5;Invited External Reviewers;10
3;Contents;11
4;Manufacturing and Materials Engineering;17
5;Implementation of CALS-Technologies in Quality Management of Product Life Cycle Processes;18
5.1;Abstract;18
5.2;1 Introduction;18
5.3;2 Literature Review;19
5.4;3 Research Methodology;19
5.4.1;3.1 The Development of a Unified Methodological Approach to Building Quality Management Systems Base ...;19
5.4.2;3.2 Introduction of Information Systems on the Example of Production Planning of Tools at the Machin ...;21
5.5;4 Results;25
5.6;5 Conclusions;26
5.7;References;27
6;Variation Coefficient and Some Distribution Laws in the Context of Cutting Tools and Other Technical ...;28
6.1;Abstract;28
6.2;1 Introduction;28
6.3;2 Literature Review;29
6.4;3 Research Methodology;29
6.5;4 Results;29
6.5.1;4.1 Failure Rate and Variation Coefficient;29
6.5.2;4.2 Gauss Distribution;31
6.5.3;4.3 Gamma Distribution;31
6.5.4;4.4 Weibull Distribution and Generalization;33
6.6;5 Conclusions;36
6.7;References;37
7;Measurement of Non-rigid Tools Action Force During Finishing;38
7.1;Abstract;38
7.2;1 Introduction;38
7.3;2 Literature Review;39
7.4;3 Research Methodology;40
7.5;4 Results;43
7.6;5 Conclusions;46
7.7;References;46
8;Implementation of Material Flow Simulation as a Learning Tool;48
8.1;Abstract;48
8.2;1 Introduction;48
8.3;2 Literature Review;49
8.4;3 Research Methodology;52
8.5;4 Results;54
8.6;5 Conclusion;55
8.7;References;56
9;Process-Oriented Approach to Fixture Design;57
9.1;Abstract;57
9.2;1 Introduction;57
9.3;2 Literature Review;58
9.4;3 Research Methodology;59
9.4.1;3.1 Computer-Aided Fixture Design in Computer Integrated Manufacturing;59
9.4.2;3.2 Process-Oriented Model;60
9.5;4 Results;62
9.5.1;4.1 Manufacturing Analysis of the Workpiece;62
9.5.2;4.2 Synthesis and Optimization of Fixture Configurations;63
9.5.3;4.3 Verification of the Mechanical System “Fixture – Workpiece”;64
9.6;5 Conclusions;64
9.7;Acknowledgements;64
9.8;References;64
10;Technological Assurance of Complex Parts Manufacturing;66
10.1;Abstract;66
10.2;1 Introduction;66
10.3;2 Literature Review;67
10.4;3 Research Methodology;68
10.4.1;3.1 Classification of Lever-Type Parts;68
10.4.2;3.2 Typical Manufacturing Process of Lever-Type Parts;71
10.4.3;3.3 Expediency Substantiation of Machining Intensification of Lever-Type Parts;71
10.4.4;3.4 Fixture Design for Lever-Type Parts;72
10.5;4 Results;73
10.6;5 Conclusions;75
10.7;Acknowledgements;75
10.8;References;75
11;Modeling of Foundry Processes in the Era of Industry 4.0;77
11.1;Abstract;77
11.2;1 Introduction;77
11.3;2 Literature Review;77
11.4;3 Research Methodology;80
11.4.1;3.1 Data Mining in Foundry Industry 4.0;80
11.4.2;3.2 Data Acquisition in Foundry Processes;81
11.4.3;3.3 Methodology of Data Preparation for Modeling;82
11.5;4 Results;83
11.6;5 Conclusions;84
11.7;References;85
12;Ansys Simulation of the Joint Strength with the Interference Fit in the Presence of the Shape Geometry Error;87
12.1;Abstract;87
12.2;1 Introduction;87
12.3;2 Literature Review;87
12.4;3 Research Methodology;88
12.5;4 Results;89
12.6;5 Conclusions;92
12.7;References;92
13;Adaptive Profile Gear Grinding Boosts Productivity of this Operation on the CNC Machine Tools;94
13.1;Abstract;94
13.2;1 Introduction;94
13.3;2 Literature Review;95
13.4;3 Research Methodology;96
13.5;4 Results;102
13.6;5 Conclusions;102
13.7;References;103
14;Provision of the Quality of Manufacturing Gear Wheels in Energy Engineering;104
14.1;Abstract;104
14.2;1 Introduction;104
14.3;2 Literature Review;105
14.4;3 Research Methodology;106
14.5;4 Results;110
14.6;5 Conclusions;110
14.7;References;111
15;Combined Laser-Ultrasonic Surface Hardening Process for Improving the Properties of Metallic Products;112
15.1;Abstract;112
15.2;1 Introduction;112
15.3;2 Literature Review;113
15.4;3 Research Methodology;113
15.5;4 Results;115
15.5.1;4.1 Laser Transformation Hardening Process with Heating Temperature Control;115
15.5.2;4.2 Formation of the Regular Microrelief by the Ultrasonic Tool with CNC;117
15.5.3;4.3 Surface Topography and Hardness;118
15.6;5 Conclusions;121
15.7;Acknowledgements;121
15.8;References;121
16;Influence of the Scale Factor of Fibers and the Temperature of Structuring on the Physical and Mechanical Characteristics of Hemp Fiber Biocomposites;123
16.1;Abstract;123
16.2;1 Introduction;123
16.3;2 Literature Review;124
16.4;3 Research Methodology;124
16.5;4 Results;126
16.6;5 Conclusions;131
16.7;References;131
17;On the Application of N-2-1 Locating Principle to the Non-rigid Workpiece with Freeform Geometry;132
17.1;Abstract;132
17.2;1 Introduction;132
17.3;2 Literature Review;133
17.4;3 Research Methodology;134
17.5;4 Results;136
17.6;5 Conclusions;140
17.7;References;141
18;Information and Communication Technologies Within Industry 4.0 Concept;142
18.1;Abstract;142
18.2;1 Introduction;142
18.3;2 Literature Review;143
18.4;3 Research Methodology;144
18.5;4 Results;146
18.6;5 Conclusions;147
18.7;References;148
19;Computer Modeling Application for Predicting of the Passing of the High-Speed Milling Machining Hardened Steel;150
19.1;Abstract;150
19.2;1 Introduction;150
19.3;2 Literature Review;152
19.4;3 Research Methodology;153
19.5;4 Results;155
19.6;5 Conclusions;158
19.7;References;159
20;Computer Simulation of the Processes of Mixing in Multilayer Nitride Coatings with Nanometer Period;161
20.1;Abstract;161
20.2;1 Introduction;161
20.3;2 Literature Review;161
20.4;3 Research Methodology;162
20.5;4 Results;164
20.6;5 Conclusions;169
20.7;Acknowledgements;169
20.8;References;169
21;Model of Thermal State of the System of Application of Coolant in Grinding Machine;171
21.1;Abstract;171
21.2;1 Introduction;171
21.3;2 Literature Review;172
21.4;3 Research Methodology;172
21.4.1;3.1 Characteristics and Parameters of the Cooling System Operation Cycle;172
21.4.2;3.2 Mathematical Model of the Thermal State of the Coolant System;175
21.5;4 Results;177
21.6;5 Conclusions;179
21.7;References;179
22;Technology of Effective Abrasive Jet Machining of Parts Surfaces;181
22.1;Abstract;181
22.2;1 Introduction;181
22.3;2 Literature Review;181
22.4;3 Research Methodology;182
22.5;4 Results;189
22.6;5 Conclusions;190
22.7;References;190
23;Choice of the Optimal Parameters of the Ultra-Fine Grained Cooper Machining;192
23.1;Abstract;192
23.2;1 Introduction;192
23.3;2 Optimization Model;193
23.3.1;2.1 Optimization Criterions;193
23.3.2;2.2 Technical Limitations;194
23.3.3;2.3 Method of Optimization;194
23.4;3 Realization of Optimization Model in MATLAB;195
23.5;4 Results and Discussion;197
23.6;5 Conclusions;199
23.7;Acknowledgements;200
23.8;References;200
24;Obtaining of Porous Powder Materials by Radial Pressing Method;201
24.1;Abstract;201
24.2;1 Introduction;201
24.3;2 Literature Review;202
24.4;3 Research Methodology;203
24.4.1;3.1 Theoretical Investigations of the Powder Materials Pressing Process;203
24.4.2;3.2 Experimental Verification of New Pressing Equation and Yield Surface;205
24.5;4 Results;209
24.5.1;4.1 Improving Equipment and Tools for Drip of Powder Materials;209
24.6;5 Conclusions;211
24.7;References;212
25;Methods for Calculating the Grain Boundary Adsorption Capacity of Nanostructured Copper Based Condensates;214
25.1;Abstract;214
25.2;1 Introduction;214
25.3;2 Literature Review;215
25.4;3 Research Methodology;215
25.5;4 Results;216
25.6;5 Conclusions;220
25.7;References;220
26;Investigation of the Influence of Electro-Impulse Current on Manganiferous Liquid-Alloy;222
26.1;Abstract;222
26.2;1 Introduction;222
26.3;2 Literature Review;223
26.4;3 Research Methodology;223
26.4.1;3.1 Analysis of Current Influence on Crystallite Size;223
26.4.2;3.2 Influence of Electro-Impulse Current on Chemical Discontinuity;225
26.4.3;3.3 Influence of Electro-Impulse Modification on Physical Discontinuity;226
26.5;4 Results;227
26.6;5 Conclusions;227
26.7;References;228
27;Forecasting Real Option Price Model by Means of Evolutionary and Genetic Algorithms;229
27.1;Abstract;229
27.2;1 Introduction;229
27.3;2 Literature Review;230
27.4;3 Methodology;231
27.4.1;3.1 Mechanism of Genetic and Evolutionary Algorithms;231
27.4.2;3.2 Application of Genetic Algorithms for Prediction of Optimal Solution;233
27.5;4 Results;235
27.6;5 Conclusions;238
27.7;References;238
28;Mechanical Engineering;240
29;Experimental Study of the Power Characteristics Influence on the Hydraulic Efficiency;241
29.1;Abstract;241
29.2;1 Introduction;241
29.3;2 Literature Review;242
29.4;3 Research Methodology;243
29.5;4 Results;243
29.6;5 Conclusions;249
29.7;References;250
30;Increase of Efficiency of Turbine Setting Based on Study of Internal Flows;251
30.1;Abstract;251
30.2;1 Introduction;251
30.3;2 Literature Review;252
30.4;3 Research Methods;252
30.5;4 Results;254
30.6;5 Conclusions;259
30.7;References;260
31;Effect of Abnormal Operation of Turbine Generator on the Resource of Steam Turbine Shafting;261
31.1;Abstract;261
31.2;1 Introduction;261
31.3;2 Literature Review;261
31.4;3 Research Methodology;262
31.5;4 Results;263
31.6;5 Conclusions;267
31.7;References;268
32;Experimental Investigation of Physical and Tribological Properties of Engine Oil with Nano-particles Additives;269
32.1;Abstract;269
32.2;1 Introduction;269
32.3;2 Literature Review;270
32.4;3 Research Methodology;270
32.4.1;3.1 Preparation of Lubricant with Nano-particles;270
32.4.2;3.2 Procedure for Preparing Nano Additive Lubricating Oil;272
32.4.3;3.3 Testing of Oils;273
32.4.4;3.4 Flash and Fire Point Test;274
32.5;4 Results;276
32.5.1;4.1 The Result of Viscosity Test;276
32.5.2;4.2 The Result of Flash and Fire Point Test;276
32.5.3;4.3 The Result of Vibration Test;277
32.5.4;4.4 FFT Spectrum for Vibration Characteristics at 40 Kg Load;277
32.5.5;4.5 FFT Curve for Vibration Characteristics at 60 Kg Load;278
32.6;5 Conclusions;281
32.7;References;281
33;Simulation and Analysis of Passive vs. Magneto-Rheological Suspension and Seat Dampers;283
33.1;Abstract;283
33.2;1 Introduction;283
33.3;2 Literature Review;284
33.4;3 Research Methodology;284
33.5;4 Results;287
33.6;5 Conclusions;291
33.7;Acknowledgement;292
33.8;References;292
34;A Semi-implicit Generalized Finite Differences Approach to Simulate Natural Convective Viscous Flows;294
34.1;Abstract;294
34.2;1 Introduction;294
34.3;2 Literature Review;295
34.4;3 Research Methodology;295
34.4.1;3.1 Governing Equations;295
34.4.2;3.2 Numerical Scheme;296
34.4.3;3.3 The Finite Point set Method;297
34.4.4;3.4 FPM for General Elliptic Partial Differential Equations;298
34.5;4 Results;299
34.6;5 Conclusions;301
34.7;References;301
35;Optimal Management of Small Hydroelectric Plants Power Generation in Local Electrical Systems;303
35.1;Abstract;303
35.2;1 Introduction;303
35.3;2 Literature Review;305
35.4;3 Research Methodology;306
35.5;4 Results;307
35.6;5 Conclusions;310
35.7;References;311
36;Effect of Phase Composition on Cavitation Resistance of Ceramics;313
36.1;Abstract;313
36.2;1 Introduction;313
36.3;2 Literature Review;313
36.4;3 Research Methodology;314
36.5;4 Results;314
36.6;5 Conclusions;318
36.7;References;318
37;System Dynamics Model for Continuous Review Inventory System in Demand Shock Conditions;320
37.1;Abstract;320
37.2;1 Introduction;320
37.3;2 Literature Review;321
37.4;3 Research Methodology;321
37.4.1;3.1 Continuous Inventory Review System;321
37.4.2;3.2 Feedback System;323
37.4.3;3.3 Dynamic System Model;324
37.4.3.1;3.3.1 Modeling Method and Tool;324
37.4.3.2;3.3.2 SD Sub-models of Market Demand and Reorder Policy;325
37.4.3.3;3.3.3 SD Sub-model of Proportional-Integral-Derivative Controller;325
37.4.3.4;3.3.4 SD Sub-model of Single-Echelon Logistics System;326
37.5;4 Results;327
37.6;5 Conclusions;329
37.7;References;329
38;Numerical Study of Outlet Blade Angle Effect on Impeller Characteristics of Double Entry Centrifugal Pump;331
38.1;Abstract;331
38.2;1 Introduction;331
38.3;2 Literature Review;332
38.4;3 Research Methodology;333
38.4.1;3.1 Three-Dimensional Computer Models of the Impellers;333
38.4.2;3.2 Mesh Structure and Boundary Conditions;334
38.5;4 Results;335
38.6;5 Conclusions;337
38.7;References;338
39;Application of Artificial Neural Network for Identification of Bearing Stiffness Characteristics in Rotor Dynamics Analysis;339
39.1;Abstract;339
39.2;1 Introduction;339
39.3;2 Literature Review;340
39.4;3 Research Methodology;341
39.4.1;3.1 Bearing Stiffness Characteristics;341
39.4.2;3.2 The Mathematical Model of Rotor Dynamics;341
39.4.3;3.3 Regression Procedure;342
39.4.4;3.4 Using Artificial Neural Network;344
39.5;4 Results;345
39.5.1;4.1 Using Regression Procedure;345
39.5.2;4.2 Implementation of Artificial Neural Network;346
39.6;5 Conclusions;347
39.7;Acknowledgements;348
39.8;References;348
40;Movement of the Particle on the External Surface of the Cylinder, Which Makes the Translational Oscillations in Horizontal Planes;350
40.1;Abstract;350
40.2;1 Introduction;350
40.3;2 Literature Review;351
40.4;3 Research Methodology;351
40.5;4 Results;355
40.6;5 Conclusions;358
40.7;References;359
41;Influence of the Passive Flow Initial Parameters on the Efficiency of Liquid-Vapor Ejectors;360
41.1;Abstract;360
41.2;1 Introduction;360
41.3;2 Literature Review;361
41.4;3 Research Methodology;361
41.4.1;3.1 Numerical Research;361
41.4.2;3.2 Experimental Research;364
41.5;4 Results;365
41.6;5 Conclusions;368
41.7;References;368
42;Constitutive Equation for Numerical Simulation of Elastic-Viscous - Plastic Disperse Materials Deformation Process;370
42.1;Abstract;370
42.2;1 Introduction;370
42.3;2 Literature Review;371
42.4;3 Research Methodology;371
42.5;4 Results;375
42.6;5 Conclusions;376
42.7;References;377
43;Determination of Transfer Functions for Electrohydraulic Servo Drive of Technological Equipment;378
43.1;Abstract;378
43.2;1 Introduction;378
43.3;2 Literature Review;379
43.4;3 Research Methodology;379
43.5;4 Results;384
43.6;5 Conclusions;386
43.7;References;387
44;Influence of the Stochastic Nature Parameters of Throttle Channels on Characteristic of Automatic Balancing Device of the Centrifugal Pump;388
44.1;Abstract;388
44.2;1 Introduction;388
44.3;2 Literature Review;390
44.4;3 Research Methodology;390
44.5;4 Results;393
44.6;5 Conclusions;395
44.7;References;395
45;Comparative Tribological Tests for Face Impulse Seals Sliding Surfaces Formed by Various Methods;396
45.1;Abstract;396
45.2;1 Introduction;396
45.3;2 Literature Review;397
45.4;3 Research Methodology;398
45.5;4 Results;400
45.6;5 Conclusions;404
45.7;References;405
46;Effect of the Parameters at the Inlet to the Rotor of the Jet-Reactive Turbine on Its Efficiency;406
46.1;Abstract;406
46.2;1 Introduction;406
46.3;2 Literature Review;407
46.4;3 Research Methodology;407
46.5;4 Results;409
46.6;5 Conclusions;415
46.7;References;415
47;Chemical Engineering;416
48;Modeling of the Heating for Cladded Powder in Plasma Jet at Spraying of Coating;417
48.1;Abstract;417
48.2;1 Introduction;417
48.3;2 Literature Review;418
48.4;3 Research Methodology;418
48.5;4 Results;421
48.6;5 Conclusions;422
48.7;References;422
49;Information Support of Optimization Calculation of Vortex Type Granulation Devices;424
49.1;Abstract;424
49.2;1 Introduction;424
49.3;2 Literature Review;425
49.4;3 Research Methodology;425
49.5;4 Results;430
49.6;5 Conclusions;432
49.7;Acknowledgements;432
49.8;References;432
50;The Carrier Development for Biofilms on the Basis of Technogenic Wastes for Pollutants Treatment in the Environmental Protection Technologies;434
50.1;Abstract;434
50.2;1 Introduction;434
50.3;2 Literature Review;435
50.4;3 Research Methodology;436
50.4.1;3.1 Experimental Set-up of Aerobic Hydrogen Sulfide Removal;436
50.4.2;3.2 Method for Producing a Granulated Carrier Containing Immobilized Microorganisms;436
50.4.3;3.3 Analytical Methods;436
50.4.4;3.4 Microbiological Investigation;438
50.5;4 Results;438
50.5.1;4.1 Determination of the Specific Features of the Biofilm Growth in the Surface of the Granulated Carrier Based on Phosphogypsum for Environmental Protection Technologies;438
50.5.2;4.2 Influence of the Diameter of Immobilized Granules on the Sulfide Oxidation;439
50.5.3;4.3 Effect of Granules Hardening Time on Sulfide Oxidation;441
50.6;5 Conclusions;443
50.7;References;443
51;The Use of Waveguides with Internal Dissectors in the Process of Regeneration of Industrial Adsorbents by Means of the Energy of Ultrahigh-Frequency Radiation;445
51.1;Abstract;445
51.2;1 Introduction;445
51.3;2 Literature Review;446
51.4;3 Research Methodology;447
51.4.1;3.1 Model Definition;449
51.5;4 Results;450
51.6;5 Conclusions;453
51.7;References;454
52;Obtaining of Multilayer Granules in a Vortex Gas Flow: Automated Complex for Technological Calculation;455
52.1;Abstract;455
52.2;1 Introduction;455
52.3;2 Literature Review;456
52.4;3 Research Methodology;457
52.5;4 Results;459
52.6;5 Conclusions;463
52.7;Acknowledgements;463
52.8;References;463
53;Simulation and Design of Welded Plate Heat Exchangers with Channels of Different Corrugation Height;465
53.1;Abstract;465
53.2;1 Introduction;465
53.3;2 Literature Review;466
53.4;3 Research Methodology;467
53.4.1;3.1 Mathematical Formulation;467
53.4.2;3.2 Design Algorithm;469
53.5;4 Results;470
53.6;5 Conclusions;473
53.7;References;473
54;Granulation Process of the Organic Suspension: Fluidized Bed Temperature Influence on the Kinetics of the Granule Formation;475
54.1;Abstract;475
54.2;1 Introduction;475
54.3;2 Literature Review;476
54.4;3 Research Methodology;476
54.5;4 Results;478
54.5.1;4.1 Temperature Regimes for Organic Suspension Granulation in the Fluidized Bed Apparatus;478
54.5.2;4.2 Theoretical Regularities of Granule Temperature Change in a Fluidized Bed;479
54.5.3;4.3 Study Results of Temperature Influence on the Kinetics of Granule Formation in a Fluidized Bed;480
54.6;5 Conclusions;482
54.7;Acknowledgement;482
54.8;References;482
55;Design and Study of Conical Pressure-Swirl Atomizers;484
55.1;Abstract;484
55.2;1 Introduction;484
55.3;2 Literature Review;485
55.3.1;2.1 Discharge Coefficient;485
55.3.2;2.2 Sauter Mean Diameter;486
55.4;3 Research Methodology;487
55.5;4 Results;487
55.6;5 Conclusions;490
55.7;Acknowledgement;491
55.8;References;491
56;Investigation of the Process of Saturation of the Filter Liquid of Soda Production with Ammonia and Carbon Dioxide in the Production of Ammonium Chloride;493
56.1;Abstract;493
56.2;1 Introduction;493
56.3;2 Literature Review;494
56.4;3 Research Methodology;494
56.5;4 Results;495
56.6;5 Conclusions;499
56.7;References;499
57;Modelling of Liquid’s Distribution and Migration in the Fibrous Filter Layer in the Process of Inertial-Filtering Separation;501
57.1;Abstract;501
57.2;1 Introduction;501
57.3;2 Literature Review;502
57.4;3 Research Methodology;502
57.5;4 Results;505
57.6;5 Conclusions;508
57.7;Acknowledgements;508
57.8;References;509
58;CFD Simulation of Ammonium Nitrate Melt in a Perforated Rotating Bucket;510
58.1;Abstract;510
58.2;1 Introduction;510
58.3;2 Literature Review;511
58.4;3 Research Methodology;512
58.5;4 Results;513
58.6;5 Conclusions;516
58.7;References;517
59;Mathematical Model of Corrosive-Mechanic Wear Materials in Technological Medium of Food Industry;519
59.1;Abstract;519
59.2;1 Introduction;519
59.3;2 Literature Review;520
59.4;3 Research Methodology;521
59.5;4 Results;524
59.5.1;4.1 Simulation Results;524
59.5.2;4.2 Verifying the Adequacy of the Model;524
59.6;5 Conclusions;525
59.7;References;525
60;Light and Heavy Pollutant Removal by Modified Swirl Sedimentation Tank – Design and Study;527
60.1;Abstract;527
60.2;1 Introduction;527
60.3;2 Literature Review;528
60.4;3 Research Methodology;528
60.5;4 Results;530
60.6;5 Conclusions;533
60.7;Acknowledgements;534
60.8;References;534
61;Investigation of Hydrodynamics During Continuous Vibroextraction in a Liquid–Solid Body System;536
61.1;Abstract;536
61.2;1 Introduction;536
61.3;2 Literature Review;536
61.4;3 Research Methodology;537
61.5;4 Results;539
61.5.1;4.1 Investigation of the Propagation of Pulsating Turbulent Flows in a Nonflowing Liquid Medium;539
61.5.2;4.2 Investigation of the Structure of Flows Under Continuous Vibroextraction;542
61.5.3;4.3 Mathematical Analysis of the Structure of Flows;545
61.6;5 Conclusions;546
61.7;References;547
62;Author Index;548
