Advances in Design, Simulation and Manufacturing
Proceedings of the International Conference on Design, Simulation, Manufacturing: The Innovation Exchange, DSMIE-2018, June 12-15, 2018, Sumy, Ukraine
1st Edition
Published on 15. June 2018
XVI, 539 pages
978-3-319-93587-4 (ISBN)
Description
This book reports on topics at the interface between manufacturing, mechanical and chemical engineering. It gives a special emphasis to CAD/CAE systems, information management systems, advanced numerical simulation methods and computational modeling techniques, and their use in product design, industrial process optimization and in the study of the properties of solids, structures and fluids. Control theory, ICT for engineering education as well as ecological design and food technologies are also among the topics discussed in the book. Based on the International Conference on Design, Simulation, Manufacturing: The Innovation Exchange (DSMIE-2018), held on June 12-15, 2018, in Sumy, Ukraine, the book provides academics and professionals with a timely overview and extensive information on trends and technologies behind current and future developments of Industry 4.0, innovative design and renewable energy generation.
More details
Series
Language
English
Place of publication
Cham
Switzerland
Publishing group
Springer International Publishing
Target group
Professional and scholarly
Product notice
Reflowable
Illustrations
XVI, 539 p. 313 illus., 177 illus. in color.
File size
94,03 MB
ISBN-13
978-3-319-93587-4 (9783319935874)
DOI
10.1007/978-3-319-93587-4
Schweitzer Classification
Other editions
Additional editions
Vitalii Ivanov | Yiming Rong | Justyna Trojanowska
Advances in Design, Simulation and Manufacturing
Proceedings of the International Conference on Design, Simulation, Manufacturing: The Innovation Exchange, DSMIE-2018, June 12-15, 2018, Sumy, Ukraine
Book
06/2018
Springer
€213.99
Shipment within 10-15 days
Content
1 - Preface [Seite 6]
2 - Organization [Seite 8]
2.1 - Steering Committee [Seite 8]
2.2 - General Chair [Seite 8]
2.3 - Co-chairs [Seite 8]
2.4 - Program Committee [Seite 8]
2.5 - Invited External Reviewers [Seite 10]
3 - Contents [Seite 11]
4 - Manufacturing and Materials Engineering [Seite 17]
5 - Implementation of CALS-Technologies in Quality Management of Product Life Cycle Processes [Seite 18]
5.1 - Abstract [Seite 18]
5.2 - 1 Introduction [Seite 18]
5.3 - 2 Literature Review [Seite 19]
5.4 - 3 Research Methodology [Seite 19]
5.4.1 - 3.1 The Development of a Unified Methodological Approach to Building Quality Management Systems Base ... [Seite 19]
5.4.2 - 3.2 Introduction of Information Systems on the Example of Production Planning of Tools at the Machin ... [Seite 21]
5.5 - 4 Results [Seite 25]
5.6 - 5 Conclusions [Seite 26]
5.7 - References [Seite 27]
6 - Variation Coefficient and Some Distribution Laws in the Context of Cutting Tools and Other Technical ... [Seite 28]
6.1 - Abstract [Seite 28]
6.2 - 1 Introduction [Seite 28]
6.3 - 2 Literature Review [Seite 29]
6.4 - 3 Research Methodology [Seite 29]
6.5 - 4 Results [Seite 29]
6.5.1 - 4.1 Failure Rate and Variation Coefficient [Seite 29]
6.5.2 - 4.2 Gauss Distribution [Seite 31]
6.5.3 - 4.3 Gamma Distribution [Seite 31]
6.5.4 - 4.4 Weibull Distribution and Generalization [Seite 33]
6.6 - 5 Conclusions [Seite 36]
6.7 - References [Seite 37]
7 - Measurement of Non-rigid Tools Action Force During Finishing [Seite 38]
7.1 - Abstract [Seite 38]
7.2 - 1 Introduction [Seite 38]
7.3 - 2 Literature Review [Seite 39]
7.4 - 3 Research Methodology [Seite 40]
7.5 - 4 Results [Seite 43]
7.6 - 5 Conclusions [Seite 46]
7.7 - References [Seite 46]
8 - Implementation of Material Flow Simulation as a Learning Tool [Seite 48]
8.1 - Abstract [Seite 48]
8.2 - 1 Introduction [Seite 48]
8.3 - 2 Literature Review [Seite 49]
8.4 - 3 Research Methodology [Seite 52]
8.5 - 4 Results [Seite 54]
8.6 - 5 Conclusion [Seite 55]
8.7 - References [Seite 56]
9 - Process-Oriented Approach to Fixture Design [Seite 57]
9.1 - Abstract [Seite 57]
9.2 - 1 Introduction [Seite 57]
9.3 - 2 Literature Review [Seite 58]
9.4 - 3 Research Methodology [Seite 59]
9.4.1 - 3.1 Computer-Aided Fixture Design in Computer Integrated Manufacturing [Seite 59]
9.4.2 - 3.2 Process-Oriented Model [Seite 60]
9.5 - 4 Results [Seite 62]
9.5.1 - 4.1 Manufacturing Analysis of the Workpiece [Seite 62]
9.5.2 - 4.2 Synthesis and Optimization of Fixture Configurations [Seite 63]
9.5.3 - 4.3 Verification of the Mechanical System "Fixture - Workpiece" [Seite 64]
9.6 - 5 Conclusions [Seite 64]
9.7 - Acknowledgements [Seite 64]
9.8 - References [Seite 64]
10 - Technological Assurance of Complex Parts Manufacturing [Seite 66]
10.1 - Abstract [Seite 66]
10.2 - 1 Introduction [Seite 66]
10.3 - 2 Literature Review [Seite 67]
10.4 - 3 Research Methodology [Seite 68]
10.4.1 - 3.1 Classification of Lever-Type Parts [Seite 68]
10.4.2 - 3.2 Typical Manufacturing Process of Lever-Type Parts [Seite 71]
10.4.3 - 3.3 Expediency Substantiation of Machining Intensification of Lever-Type Parts [Seite 71]
10.4.4 - 3.4 Fixture Design for Lever-Type Parts [Seite 72]
10.5 - 4 Results [Seite 73]
10.6 - 5 Conclusions [Seite 75]
10.7 - Acknowledgements [Seite 75]
10.8 - References [Seite 75]
11 - Modeling of Foundry Processes in the Era of Industry 4.0 [Seite 77]
11.1 - Abstract [Seite 77]
11.2 - 1 Introduction [Seite 77]
11.3 - 2 Literature Review [Seite 77]
11.4 - 3 Research Methodology [Seite 80]
11.4.1 - 3.1 Data Mining in Foundry Industry 4.0 [Seite 80]
11.4.2 - 3.2 Data Acquisition in Foundry Processes [Seite 81]
11.4.3 - 3.3 Methodology of Data Preparation for Modeling [Seite 82]
11.5 - 4 Results [Seite 83]
11.6 - 5 Conclusions [Seite 84]
11.7 - References [Seite 85]
12 - Ansys Simulation of the Joint Strength with the Interference Fit in the Presence of the Shape Geometry Error [Seite 87]
12.1 - Abstract [Seite 87]
12.2 - 1 Introduction [Seite 87]
12.3 - 2 Literature Review [Seite 87]
12.4 - 3 Research Methodology [Seite 88]
12.5 - 4 Results [Seite 89]
12.6 - 5 Conclusions [Seite 92]
12.7 - References [Seite 92]
13 - Adaptive Profile Gear Grinding Boosts Productivity of this Operation on the CNC Machine Tools [Seite 94]
13.1 - Abstract [Seite 94]
13.2 - 1 Introduction [Seite 94]
13.3 - 2 Literature Review [Seite 95]
13.4 - 3 Research Methodology [Seite 96]
13.5 - 4 Results [Seite 102]
13.6 - 5 Conclusions [Seite 102]
13.7 - References [Seite 103]
14 - Provision of the Quality of Manufacturing Gear Wheels in Energy Engineering [Seite 104]
14.1 - Abstract [Seite 104]
14.2 - 1 Introduction [Seite 104]
14.3 - 2 Literature Review [Seite 105]
14.4 - 3 Research Methodology [Seite 106]
14.5 - 4 Results [Seite 110]
14.6 - 5 Conclusions [Seite 110]
14.7 - References [Seite 111]
15 - Combined Laser-Ultrasonic Surface Hardening Process for Improving the Properties of Metallic Products [Seite 112]
15.1 - Abstract [Seite 112]
15.2 - 1 Introduction [Seite 112]
15.3 - 2 Literature Review [Seite 113]
15.4 - 3 Research Methodology [Seite 113]
15.5 - 4 Results [Seite 115]
15.5.1 - 4.1 Laser Transformation Hardening Process with Heating Temperature Control [Seite 115]
15.5.2 - 4.2 Formation of the Regular Microrelief by the Ultrasonic Tool with CNC [Seite 117]
15.5.3 - 4.3 Surface Topography and Hardness [Seite 118]
15.6 - 5 Conclusions [Seite 121]
15.7 - Acknowledgements [Seite 121]
15.8 - References [Seite 121]
16 - Influence of the Scale Factor of Fibers and the Temperature of Structuring on the Physical and Mechanical Characteristics of Hemp Fiber Biocomposites [Seite 123]
16.1 - Abstract [Seite 123]
16.2 - 1 Introduction [Seite 123]
16.3 - 2 Literature Review [Seite 124]
16.4 - 3 Research Methodology [Seite 124]
16.5 - 4 Results [Seite 126]
16.6 - 5 Conclusions [Seite 131]
16.7 - References [Seite 131]
17 - On the Application of N-2-1 Locating Principle to the Non-rigid Workpiece with Freeform Geometry [Seite 132]
17.1 - Abstract [Seite 132]
17.2 - 1 Introduction [Seite 132]
17.3 - 2 Literature Review [Seite 133]
17.4 - 3 Research Methodology [Seite 134]
17.5 - 4 Results [Seite 136]
17.6 - 5 Conclusions [Seite 140]
17.7 - References [Seite 141]
18 - Information and Communication Technologies Within Industry 4.0 Concept [Seite 142]
18.1 - Abstract [Seite 142]
18.2 - 1 Introduction [Seite 142]
18.3 - 2 Literature Review [Seite 143]
18.4 - 3 Research Methodology [Seite 144]
18.5 - 4 Results [Seite 146]
18.6 - 5 Conclusions [Seite 147]
18.7 - References [Seite 148]
19 - Computer Modeling Application for Predicting of the Passing of the High-Speed Milling Machining Hardened Steel [Seite 150]
19.1 - Abstract [Seite 150]
19.2 - 1 Introduction [Seite 150]
19.3 - 2 Literature Review [Seite 152]
19.4 - 3 Research Methodology [Seite 153]
19.5 - 4 Results [Seite 155]
19.6 - 5 Conclusions [Seite 158]
19.7 - References [Seite 159]
20 - Computer Simulation of the Processes of Mixing in Multilayer Nitride Coatings with Nanometer Period [Seite 161]
20.1 - Abstract [Seite 161]
20.2 - 1 Introduction [Seite 161]
20.3 - 2 Literature Review [Seite 161]
20.4 - 3 Research Methodology [Seite 162]
20.5 - 4 Results [Seite 164]
20.6 - 5 Conclusions [Seite 169]
20.7 - Acknowledgements [Seite 169]
20.8 - References [Seite 169]
21 - Model of Thermal State of the System of Application of Coolant in Grinding Machine [Seite 171]
21.1 - Abstract [Seite 171]
21.2 - 1 Introduction [Seite 171]
21.3 - 2 Literature Review [Seite 172]
21.4 - 3 Research Methodology [Seite 172]
21.4.1 - 3.1 Characteristics and Parameters of the Cooling System Operation Cycle [Seite 172]
21.4.2 - 3.2 Mathematical Model of the Thermal State of the Coolant System [Seite 175]
21.5 - 4 Results [Seite 177]
21.6 - 5 Conclusions [Seite 179]
21.7 - References [Seite 179]
22 - Technology of Effective Abrasive Jet Machining of Parts Surfaces [Seite 181]
22.1 - Abstract [Seite 181]
22.2 - 1 Introduction [Seite 181]
22.3 - 2 Literature Review [Seite 181]
22.4 - 3 Research Methodology [Seite 182]
22.5 - 4 Results [Seite 189]
22.6 - 5 Conclusions [Seite 190]
22.7 - References [Seite 190]
23 - Choice of the Optimal Parameters of the Ultra-Fine Grained Cooper Machining [Seite 192]
23.1 - Abstract [Seite 192]
23.2 - 1 Introduction [Seite 192]
23.3 - 2 Optimization Model [Seite 193]
23.3.1 - 2.1 Optimization Criterions [Seite 193]
23.3.2 - 2.2 Technical Limitations [Seite 194]
23.3.3 - 2.3 Method of Optimization [Seite 194]
23.4 - 3 Realization of Optimization Model in MATLAB [Seite 195]
23.5 - 4 Results and Discussion [Seite 197]
23.6 - 5 Conclusions [Seite 199]
23.7 - Acknowledgements [Seite 200]
23.8 - References [Seite 200]
24 - Obtaining of Porous Powder Materials by Radial Pressing Method [Seite 201]
24.1 - Abstract [Seite 201]
24.2 - 1 Introduction [Seite 201]
24.3 - 2 Literature Review [Seite 202]
24.4 - 3 Research Methodology [Seite 203]
24.4.1 - 3.1 Theoretical Investigations of the Powder Materials Pressing Process [Seite 203]
24.4.2 - 3.2 Experimental Verification of New Pressing Equation and Yield Surface [Seite 205]
24.5 - 4 Results [Seite 209]
24.5.1 - 4.1 Improving Equipment and Tools for Drip of Powder Materials [Seite 209]
24.6 - 5 Conclusions [Seite 211]
24.7 - References [Seite 212]
25 - Methods for Calculating the Grain Boundary Adsorption Capacity of Nanostructured Copper Based Condensates [Seite 214]
25.1 - Abstract [Seite 214]
25.2 - 1 Introduction [Seite 214]
25.3 - 2 Literature Review [Seite 215]
25.4 - 3 Research Methodology [Seite 215]
25.5 - 4 Results [Seite 216]
25.6 - 5 Conclusions [Seite 220]
25.7 - References [Seite 220]
26 - Investigation of the Influence of Electro-Impulse Current on Manganiferous Liquid-Alloy [Seite 222]
26.1 - Abstract [Seite 222]
26.2 - 1 Introduction [Seite 222]
26.3 - 2 Literature Review [Seite 223]
26.4 - 3 Research Methodology [Seite 223]
26.4.1 - 3.1 Analysis of Current Influence on Crystallite Size [Seite 223]
26.4.2 - 3.2 Influence of Electro-Impulse Current on Chemical Discontinuity [Seite 225]
26.4.3 - 3.3 Influence of Electro-Impulse Modification on Physical Discontinuity [Seite 226]
26.5 - 4 Results [Seite 227]
26.6 - 5 Conclusions [Seite 227]
26.7 - References [Seite 228]
27 - Forecasting Real Option Price Model by Means of Evolutionary and Genetic Algorithms [Seite 229]
27.1 - Abstract [Seite 229]
27.2 - 1 Introduction [Seite 229]
27.3 - 2 Literature Review [Seite 230]
27.4 - 3 Methodology [Seite 231]
27.4.1 - 3.1 Mechanism of Genetic and Evolutionary Algorithms [Seite 231]
27.4.2 - 3.2 Application of Genetic Algorithms for Prediction of Optimal Solution [Seite 233]
27.5 - 4 Results [Seite 235]
27.6 - 5 Conclusions [Seite 238]
27.7 - References [Seite 238]
28 - Mechanical Engineering [Seite 240]
29 - Experimental Study of the Power Characteristics Influence on the Hydraulic Efficiency [Seite 241]
29.1 - Abstract [Seite 241]
29.2 - 1 Introduction [Seite 241]
29.3 - 2 Literature Review [Seite 242]
29.4 - 3 Research Methodology [Seite 243]
29.5 - 4 Results [Seite 243]
29.6 - 5 Conclusions [Seite 249]
29.7 - References [Seite 250]
30 - Increase of Efficiency of Turbine Setting Based on Study of Internal Flows [Seite 251]
30.1 - Abstract [Seite 251]
30.2 - 1 Introduction [Seite 251]
30.3 - 2 Literature Review [Seite 252]
30.4 - 3 Research Methods [Seite 252]
30.5 - 4 Results [Seite 254]
30.6 - 5 Conclusions [Seite 259]
30.7 - References [Seite 260]
31 - Effect of Abnormal Operation of Turbine Generator on the Resource of Steam Turbine Shafting [Seite 261]
31.1 - Abstract [Seite 261]
31.2 - 1 Introduction [Seite 261]
31.3 - 2 Literature Review [Seite 261]
31.4 - 3 Research Methodology [Seite 262]
31.5 - 4 Results [Seite 263]
31.6 - 5 Conclusions [Seite 267]
31.7 - References [Seite 268]
32 - Experimental Investigation of Physical and Tribological Properties of Engine Oil with Nano-particles Additives [Seite 269]
32.1 - Abstract [Seite 269]
32.2 - 1 Introduction [Seite 269]
32.3 - 2 Literature Review [Seite 270]
32.4 - 3 Research Methodology [Seite 270]
32.4.1 - 3.1 Preparation of Lubricant with Nano-particles [Seite 270]
32.4.2 - 3.2 Procedure for Preparing Nano Additive Lubricating Oil [Seite 272]
32.4.3 - 3.3 Testing of Oils [Seite 273]
32.4.4 - 3.4 Flash and Fire Point Test [Seite 274]
32.5 - 4 Results [Seite 276]
32.5.1 - 4.1 The Result of Viscosity Test [Seite 276]
32.5.2 - 4.2 The Result of Flash and Fire Point Test [Seite 276]
32.5.3 - 4.3 The Result of Vibration Test [Seite 277]
32.5.4 - 4.4 FFT Spectrum for Vibration Characteristics at 40 Kg Load [Seite 277]
32.5.5 - 4.5 FFT Curve for Vibration Characteristics at 60 Kg Load [Seite 278]
32.6 - 5 Conclusions [Seite 281]
32.7 - References [Seite 281]
33 - Simulation and Analysis of Passive vs. Magneto-Rheological Suspension and Seat Dampers [Seite 283]
33.1 - Abstract [Seite 283]
33.2 - 1 Introduction [Seite 283]
33.3 - 2 Literature Review [Seite 284]
33.4 - 3 Research Methodology [Seite 284]
33.5 - 4 Results [Seite 287]
33.6 - 5 Conclusions [Seite 291]
33.7 - Acknowledgement [Seite 292]
33.8 - References [Seite 292]
34 - A Semi-implicit Generalized Finite Differences Approach to Simulate Natural Convective Viscous Flows [Seite 294]
34.1 - Abstract [Seite 294]
34.2 - 1 Introduction [Seite 294]
34.3 - 2 Literature Review [Seite 295]
34.4 - 3 Research Methodology [Seite 295]
34.4.1 - 3.1 Governing Equations [Seite 295]
34.4.2 - 3.2 Numerical Scheme [Seite 296]
34.4.3 - 3.3 The Finite Point set Method [Seite 297]
34.4.4 - 3.4 FPM for General Elliptic Partial Differential Equations [Seite 298]
34.5 - 4 Results [Seite 299]
34.6 - 5 Conclusions [Seite 301]
34.7 - References [Seite 301]
35 - Optimal Management of Small Hydroelectric Plants Power Generation in Local Electrical Systems [Seite 303]
35.1 - Abstract [Seite 303]
35.2 - 1 Introduction [Seite 303]
35.3 - 2 Literature Review [Seite 305]
35.4 - 3 Research Methodology [Seite 306]
35.5 - 4 Results [Seite 307]
35.6 - 5 Conclusions [Seite 310]
35.7 - References [Seite 311]
36 - Effect of Phase Composition on Cavitation Resistance of Ceramics [Seite 313]
36.1 - Abstract [Seite 313]
36.2 - 1 Introduction [Seite 313]
36.3 - 2 Literature Review [Seite 313]
36.4 - 3 Research Methodology [Seite 314]
36.5 - 4 Results [Seite 314]
36.6 - 5 Conclusions [Seite 318]
36.7 - References [Seite 318]
37 - System Dynamics Model for Continuous Review Inventory System in Demand Shock Conditions [Seite 320]
37.1 - Abstract [Seite 320]
37.2 - 1 Introduction [Seite 320]
37.3 - 2 Literature Review [Seite 321]
37.4 - 3 Research Methodology [Seite 321]
37.4.1 - 3.1 Continuous Inventory Review System [Seite 321]
37.4.2 - 3.2 Feedback System [Seite 323]
37.4.3 - 3.3 Dynamic System Model [Seite 324]
37.4.3.1 - 3.3.1 Modeling Method and Tool [Seite 324]
37.4.3.2 - 3.3.2 SD Sub-models of Market Demand and Reorder Policy [Seite 325]
37.4.3.3 - 3.3.3 SD Sub-model of Proportional-Integral-Derivative Controller [Seite 325]
37.4.3.4 - 3.3.4 SD Sub-model of Single-Echelon Logistics System [Seite 326]
37.5 - 4 Results [Seite 327]
37.6 - 5 Conclusions [Seite 329]
37.7 - References [Seite 329]
38 - Numerical Study of Outlet Blade Angle Effect on Impeller Characteristics of Double Entry Centrifugal Pump [Seite 331]
38.1 - Abstract [Seite 331]
38.2 - 1 Introduction [Seite 331]
38.3 - 2 Literature Review [Seite 332]
38.4 - 3 Research Methodology [Seite 333]
38.4.1 - 3.1 Three-Dimensional Computer Models of the Impellers [Seite 333]
38.4.2 - 3.2 Mesh Structure and Boundary Conditions [Seite 334]
38.5 - 4 Results [Seite 335]
38.6 - 5 Conclusions [Seite 337]
38.7 - References [Seite 338]
39 - Application of Artificial Neural Network for Identification of Bearing Stiffness Characteristics in Rotor Dynamics Analysis [Seite 339]
39.1 - Abstract [Seite 339]
39.2 - 1 Introduction [Seite 339]
39.3 - 2 Literature Review [Seite 340]
39.4 - 3 Research Methodology [Seite 341]
39.4.1 - 3.1 Bearing Stiffness Characteristics [Seite 341]
39.4.2 - 3.2 The Mathematical Model of Rotor Dynamics [Seite 341]
39.4.3 - 3.3 Regression Procedure [Seite 342]
39.4.4 - 3.4 Using Artificial Neural Network [Seite 344]
39.5 - 4 Results [Seite 345]
39.5.1 - 4.1 Using Regression Procedure [Seite 345]
39.5.2 - 4.2 Implementation of Artificial Neural Network [Seite 346]
39.6 - 5 Conclusions [Seite 347]
39.7 - Acknowledgements [Seite 348]
39.8 - References [Seite 348]
40 - Movement of the Particle on the External Surface of the Cylinder, Which Makes the Translational Oscillations in Horizontal Planes [Seite 350]
40.1 - Abstract [Seite 350]
40.2 - 1 Introduction [Seite 350]
40.3 - 2 Literature Review [Seite 351]
40.4 - 3 Research Methodology [Seite 351]
40.5 - 4 Results [Seite 355]
40.6 - 5 Conclusions [Seite 358]
40.7 - References [Seite 359]
41 - Influence of the Passive Flow Initial Parameters on the Efficiency of Liquid-Vapor Ejectors [Seite 360]
41.1 - Abstract [Seite 360]
41.2 - 1 Introduction [Seite 360]
41.3 - 2 Literature Review [Seite 361]
41.4 - 3 Research Methodology [Seite 361]
41.4.1 - 3.1 Numerical Research [Seite 361]
41.4.2 - 3.2 Experimental Research [Seite 364]
41.5 - 4 Results [Seite 365]
41.6 - 5 Conclusions [Seite 368]
41.7 - References [Seite 368]
42 - Constitutive Equation for Numerical Simulation of Elastic-Viscous - Plastic Disperse Materials Deformation Process [Seite 370]
42.1 - Abstract [Seite 370]
42.2 - 1 Introduction [Seite 370]
42.3 - 2 Literature Review [Seite 371]
42.4 - 3 Research Methodology [Seite 371]
42.5 - 4 Results [Seite 375]
42.6 - 5 Conclusions [Seite 376]
42.7 - References [Seite 377]
43 - Determination of Transfer Functions for Electrohydraulic Servo Drive of Technological Equipment [Seite 378]
43.1 - Abstract [Seite 378]
43.2 - 1 Introduction [Seite 378]
43.3 - 2 Literature Review [Seite 379]
43.4 - 3 Research Methodology [Seite 379]
43.5 - 4 Results [Seite 384]
43.6 - 5 Conclusions [Seite 386]
43.7 - References [Seite 387]
44 - Influence of the Stochastic Nature Parameters of Throttle Channels on Characteristic of Automatic Balancing Device of the Centrifugal Pump [Seite 388]
44.1 - Abstract [Seite 388]
44.2 - 1 Introduction [Seite 388]
44.3 - 2 Literature Review [Seite 390]
44.4 - 3 Research Methodology [Seite 390]
44.5 - 4 Results [Seite 393]
44.6 - 5 Conclusions [Seite 395]
44.7 - References [Seite 395]
45 - Comparative Tribological Tests for Face Impulse Seals Sliding Surfaces Formed by Various Methods [Seite 396]
45.1 - Abstract [Seite 396]
45.2 - 1 Introduction [Seite 396]
45.3 - 2 Literature Review [Seite 397]
45.4 - 3 Research Methodology [Seite 398]
45.5 - 4 Results [Seite 400]
45.6 - 5 Conclusions [Seite 404]
45.7 - References [Seite 405]
46 - Effect of the Parameters at the Inlet to the Rotor of the Jet-Reactive Turbine on Its Efficiency [Seite 406]
46.1 - Abstract [Seite 406]
46.2 - 1 Introduction [Seite 406]
46.3 - 2 Literature Review [Seite 407]
46.4 - 3 Research Methodology [Seite 407]
46.5 - 4 Results [Seite 409]
46.6 - 5 Conclusions [Seite 415]
46.7 - References [Seite 415]
47 - Chemical Engineering [Seite 416]
48 - Modeling of the Heating for Cladded Powder in Plasma Jet at Spraying of Coating [Seite 417]
48.1 - Abstract [Seite 417]
48.2 - 1 Introduction [Seite 417]
48.3 - 2 Literature Review [Seite 418]
48.4 - 3 Research Methodology [Seite 418]
48.5 - 4 Results [Seite 421]
48.6 - 5 Conclusions [Seite 422]
48.7 - References [Seite 422]
49 - Information Support of Optimization Calculation of Vortex Type Granulation Devices [Seite 424]
49.1 - Abstract [Seite 424]
49.2 - 1 Introduction [Seite 424]
49.3 - 2 Literature Review [Seite 425]
49.4 - 3 Research Methodology [Seite 425]
49.5 - 4 Results [Seite 430]
49.6 - 5 Conclusions [Seite 432]
49.7 - Acknowledgements [Seite 432]
49.8 - References [Seite 432]
50 - The Carrier Development for Biofilms on the Basis of Technogenic Wastes for Pollutants Treatment in the Environmental Protection Technologies [Seite 434]
50.1 - Abstract [Seite 434]
50.2 - 1 Introduction [Seite 434]
50.3 - 2 Literature Review [Seite 435]
50.4 - 3 Research Methodology [Seite 436]
50.4.1 - 3.1 Experimental Set-up of Aerobic Hydrogen Sulfide Removal [Seite 436]
50.4.2 - 3.2 Method for Producing a Granulated Carrier Containing Immobilized Microorganisms [Seite 436]
50.4.3 - 3.3 Analytical Methods [Seite 436]
50.4.4 - 3.4 Microbiological Investigation [Seite 438]
50.5 - 4 Results [Seite 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 [Seite 438]
50.5.2 - 4.2 Influence of the Diameter of Immobilized Granules on the Sulfide Oxidation [Seite 439]
50.5.3 - 4.3 Effect of Granules Hardening Time on Sulfide Oxidation [Seite 441]
50.6 - 5 Conclusions [Seite 443]
50.7 - References [Seite 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 [Seite 445]
51.1 - Abstract [Seite 445]
51.2 - 1 Introduction [Seite 445]
51.3 - 2 Literature Review [Seite 446]
51.4 - 3 Research Methodology [Seite 447]
51.4.1 - 3.1 Model Definition [Seite 449]
51.5 - 4 Results [Seite 450]
51.6 - 5 Conclusions [Seite 453]
51.7 - References [Seite 454]
52 - Obtaining of Multilayer Granules in a Vortex Gas Flow: Automated Complex for Technological Calculation [Seite 455]
52.1 - Abstract [Seite 455]
52.2 - 1 Introduction [Seite 455]
52.3 - 2 Literature Review [Seite 456]
52.4 - 3 Research Methodology [Seite 457]
52.5 - 4 Results [Seite 459]
52.6 - 5 Conclusions [Seite 463]
52.7 - Acknowledgements [Seite 463]
52.8 - References [Seite 463]
53 - Simulation and Design of Welded Plate Heat Exchangers with Channels of Different Corrugation Height [Seite 465]
53.1 - Abstract [Seite 465]
53.2 - 1 Introduction [Seite 465]
53.3 - 2 Literature Review [Seite 466]
53.4 - 3 Research Methodology [Seite 467]
53.4.1 - 3.1 Mathematical Formulation [Seite 467]
53.4.2 - 3.2 Design Algorithm [Seite 469]
53.5 - 4 Results [Seite 470]
53.6 - 5 Conclusions [Seite 473]
53.7 - References [Seite 473]
54 - Granulation Process of the Organic Suspension: Fluidized Bed Temperature Influence on the Kinetics of the Granule Formation [Seite 475]
54.1 - Abstract [Seite 475]
54.2 - 1 Introduction [Seite 475]
54.3 - 2 Literature Review [Seite 476]
54.4 - 3 Research Methodology [Seite 476]
54.5 - 4 Results [Seite 478]
54.5.1 - 4.1 Temperature Regimes for Organic Suspension Granulation in the Fluidized Bed Apparatus [Seite 478]
54.5.2 - 4.2 Theoretical Regularities of Granule Temperature Change in a Fluidized Bed [Seite 479]
54.5.3 - 4.3 Study Results of Temperature Influence on the Kinetics of Granule Formation in a Fluidized Bed [Seite 480]
54.6 - 5 Conclusions [Seite 482]
54.7 - Acknowledgement [Seite 482]
54.8 - References [Seite 482]
55 - Design and Study of Conical Pressure-Swirl Atomizers [Seite 484]
55.1 - Abstract [Seite 484]
55.2 - 1 Introduction [Seite 484]
55.3 - 2 Literature Review [Seite 485]
55.3.1 - 2.1 Discharge Coefficient [Seite 485]
55.3.2 - 2.2 Sauter Mean Diameter [Seite 486]
55.4 - 3 Research Methodology [Seite 487]
55.5 - 4 Results [Seite 487]
55.6 - 5 Conclusions [Seite 490]
55.7 - Acknowledgement [Seite 491]
55.8 - References [Seite 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 [Seite 493]
56.1 - Abstract [Seite 493]
56.2 - 1 Introduction [Seite 493]
56.3 - 2 Literature Review [Seite 494]
56.4 - 3 Research Methodology [Seite 494]
56.5 - 4 Results [Seite 495]
56.6 - 5 Conclusions [Seite 499]
56.7 - References [Seite 499]
57 - Modelling of Liquid's Distribution and Migration in the Fibrous Filter Layer in the Process of Inertial-Filtering Separation [Seite 501]
57.1 - Abstract [Seite 501]
57.2 - 1 Introduction [Seite 501]
57.3 - 2 Literature Review [Seite 502]
57.4 - 3 Research Methodology [Seite 502]
57.5 - 4 Results [Seite 505]
57.6 - 5 Conclusions [Seite 508]
57.7 - Acknowledgements [Seite 508]
57.8 - References [Seite 509]
58 - CFD Simulation of Ammonium Nitrate Melt in a Perforated Rotating Bucket [Seite 510]
58.1 - Abstract [Seite 510]
58.2 - 1 Introduction [Seite 510]
58.3 - 2 Literature Review [Seite 511]
58.4 - 3 Research Methodology [Seite 512]
58.5 - 4 Results [Seite 513]
58.6 - 5 Conclusions [Seite 516]
58.7 - References [Seite 517]
59 - Mathematical Model of Corrosive-Mechanic Wear Materials in Technological Medium of Food Industry [Seite 519]
59.1 - Abstract [Seite 519]
59.2 - 1 Introduction [Seite 519]
59.3 - 2 Literature Review [Seite 520]
59.4 - 3 Research Methodology [Seite 521]
59.5 - 4 Results [Seite 524]
59.5.1 - 4.1 Simulation Results [Seite 524]
59.5.2 - 4.2 Verifying the Adequacy of the Model [Seite 524]
59.6 - 5 Conclusions [Seite 525]
59.7 - References [Seite 525]
60 - Light and Heavy Pollutant Removal by Modified Swirl Sedimentation Tank - Design and Study [Seite 527]
60.1 - Abstract [Seite 527]
60.2 - 1 Introduction [Seite 527]
60.3 - 2 Literature Review [Seite 528]
60.4 - 3 Research Methodology [Seite 528]
60.5 - 4 Results [Seite 530]
60.6 - 5 Conclusions [Seite 533]
60.7 - Acknowledgements [Seite 534]
60.8 - References [Seite 534]
61 - Investigation of Hydrodynamics During Continuous Vibroextraction in a Liquid-Solid Body System [Seite 536]
61.1 - Abstract [Seite 536]
61.2 - 1 Introduction [Seite 536]
61.3 - 2 Literature Review [Seite 536]
61.4 - 3 Research Methodology [Seite 537]
61.5 - 4 Results [Seite 539]
61.5.1 - 4.1 Investigation of the Propagation of Pulsating Turbulent Flows in a Nonflowing Liquid Medium [Seite 539]
61.5.2 - 4.2 Investigation of the Structure of Flows Under Continuous Vibroextraction [Seite 542]
61.5.3 - 4.3 Mathematical Analysis of the Structure of Flows [Seite 545]
61.6 - 5 Conclusions [Seite 546]
61.7 - References [Seite 547]
62 - Author Index [Seite 548]
2 - Organization [Seite 8]
2.1 - Steering Committee [Seite 8]
2.2 - General Chair [Seite 8]
2.3 - Co-chairs [Seite 8]
2.4 - Program Committee [Seite 8]
2.5 - Invited External Reviewers [Seite 10]
3 - Contents [Seite 11]
4 - Manufacturing and Materials Engineering [Seite 17]
5 - Implementation of CALS-Technologies in Quality Management of Product Life Cycle Processes [Seite 18]
5.1 - Abstract [Seite 18]
5.2 - 1 Introduction [Seite 18]
5.3 - 2 Literature Review [Seite 19]
5.4 - 3 Research Methodology [Seite 19]
5.4.1 - 3.1 The Development of a Unified Methodological Approach to Building Quality Management Systems Base ... [Seite 19]
5.4.2 - 3.2 Introduction of Information Systems on the Example of Production Planning of Tools at the Machin ... [Seite 21]
5.5 - 4 Results [Seite 25]
5.6 - 5 Conclusions [Seite 26]
5.7 - References [Seite 27]
6 - Variation Coefficient and Some Distribution Laws in the Context of Cutting Tools and Other Technical ... [Seite 28]
6.1 - Abstract [Seite 28]
6.2 - 1 Introduction [Seite 28]
6.3 - 2 Literature Review [Seite 29]
6.4 - 3 Research Methodology [Seite 29]
6.5 - 4 Results [Seite 29]
6.5.1 - 4.1 Failure Rate and Variation Coefficient [Seite 29]
6.5.2 - 4.2 Gauss Distribution [Seite 31]
6.5.3 - 4.3 Gamma Distribution [Seite 31]
6.5.4 - 4.4 Weibull Distribution and Generalization [Seite 33]
6.6 - 5 Conclusions [Seite 36]
6.7 - References [Seite 37]
7 - Measurement of Non-rigid Tools Action Force During Finishing [Seite 38]
7.1 - Abstract [Seite 38]
7.2 - 1 Introduction [Seite 38]
7.3 - 2 Literature Review [Seite 39]
7.4 - 3 Research Methodology [Seite 40]
7.5 - 4 Results [Seite 43]
7.6 - 5 Conclusions [Seite 46]
7.7 - References [Seite 46]
8 - Implementation of Material Flow Simulation as a Learning Tool [Seite 48]
8.1 - Abstract [Seite 48]
8.2 - 1 Introduction [Seite 48]
8.3 - 2 Literature Review [Seite 49]
8.4 - 3 Research Methodology [Seite 52]
8.5 - 4 Results [Seite 54]
8.6 - 5 Conclusion [Seite 55]
8.7 - References [Seite 56]
9 - Process-Oriented Approach to Fixture Design [Seite 57]
9.1 - Abstract [Seite 57]
9.2 - 1 Introduction [Seite 57]
9.3 - 2 Literature Review [Seite 58]
9.4 - 3 Research Methodology [Seite 59]
9.4.1 - 3.1 Computer-Aided Fixture Design in Computer Integrated Manufacturing [Seite 59]
9.4.2 - 3.2 Process-Oriented Model [Seite 60]
9.5 - 4 Results [Seite 62]
9.5.1 - 4.1 Manufacturing Analysis of the Workpiece [Seite 62]
9.5.2 - 4.2 Synthesis and Optimization of Fixture Configurations [Seite 63]
9.5.3 - 4.3 Verification of the Mechanical System "Fixture - Workpiece" [Seite 64]
9.6 - 5 Conclusions [Seite 64]
9.7 - Acknowledgements [Seite 64]
9.8 - References [Seite 64]
10 - Technological Assurance of Complex Parts Manufacturing [Seite 66]
10.1 - Abstract [Seite 66]
10.2 - 1 Introduction [Seite 66]
10.3 - 2 Literature Review [Seite 67]
10.4 - 3 Research Methodology [Seite 68]
10.4.1 - 3.1 Classification of Lever-Type Parts [Seite 68]
10.4.2 - 3.2 Typical Manufacturing Process of Lever-Type Parts [Seite 71]
10.4.3 - 3.3 Expediency Substantiation of Machining Intensification of Lever-Type Parts [Seite 71]
10.4.4 - 3.4 Fixture Design for Lever-Type Parts [Seite 72]
10.5 - 4 Results [Seite 73]
10.6 - 5 Conclusions [Seite 75]
10.7 - Acknowledgements [Seite 75]
10.8 - References [Seite 75]
11 - Modeling of Foundry Processes in the Era of Industry 4.0 [Seite 77]
11.1 - Abstract [Seite 77]
11.2 - 1 Introduction [Seite 77]
11.3 - 2 Literature Review [Seite 77]
11.4 - 3 Research Methodology [Seite 80]
11.4.1 - 3.1 Data Mining in Foundry Industry 4.0 [Seite 80]
11.4.2 - 3.2 Data Acquisition in Foundry Processes [Seite 81]
11.4.3 - 3.3 Methodology of Data Preparation for Modeling [Seite 82]
11.5 - 4 Results [Seite 83]
11.6 - 5 Conclusions [Seite 84]
11.7 - References [Seite 85]
12 - Ansys Simulation of the Joint Strength with the Interference Fit in the Presence of the Shape Geometry Error [Seite 87]
12.1 - Abstract [Seite 87]
12.2 - 1 Introduction [Seite 87]
12.3 - 2 Literature Review [Seite 87]
12.4 - 3 Research Methodology [Seite 88]
12.5 - 4 Results [Seite 89]
12.6 - 5 Conclusions [Seite 92]
12.7 - References [Seite 92]
13 - Adaptive Profile Gear Grinding Boosts Productivity of this Operation on the CNC Machine Tools [Seite 94]
13.1 - Abstract [Seite 94]
13.2 - 1 Introduction [Seite 94]
13.3 - 2 Literature Review [Seite 95]
13.4 - 3 Research Methodology [Seite 96]
13.5 - 4 Results [Seite 102]
13.6 - 5 Conclusions [Seite 102]
13.7 - References [Seite 103]
14 - Provision of the Quality of Manufacturing Gear Wheels in Energy Engineering [Seite 104]
14.1 - Abstract [Seite 104]
14.2 - 1 Introduction [Seite 104]
14.3 - 2 Literature Review [Seite 105]
14.4 - 3 Research Methodology [Seite 106]
14.5 - 4 Results [Seite 110]
14.6 - 5 Conclusions [Seite 110]
14.7 - References [Seite 111]
15 - Combined Laser-Ultrasonic Surface Hardening Process for Improving the Properties of Metallic Products [Seite 112]
15.1 - Abstract [Seite 112]
15.2 - 1 Introduction [Seite 112]
15.3 - 2 Literature Review [Seite 113]
15.4 - 3 Research Methodology [Seite 113]
15.5 - 4 Results [Seite 115]
15.5.1 - 4.1 Laser Transformation Hardening Process with Heating Temperature Control [Seite 115]
15.5.2 - 4.2 Formation of the Regular Microrelief by the Ultrasonic Tool with CNC [Seite 117]
15.5.3 - 4.3 Surface Topography and Hardness [Seite 118]
15.6 - 5 Conclusions [Seite 121]
15.7 - Acknowledgements [Seite 121]
15.8 - References [Seite 121]
16 - Influence of the Scale Factor of Fibers and the Temperature of Structuring on the Physical and Mechanical Characteristics of Hemp Fiber Biocomposites [Seite 123]
16.1 - Abstract [Seite 123]
16.2 - 1 Introduction [Seite 123]
16.3 - 2 Literature Review [Seite 124]
16.4 - 3 Research Methodology [Seite 124]
16.5 - 4 Results [Seite 126]
16.6 - 5 Conclusions [Seite 131]
16.7 - References [Seite 131]
17 - On the Application of N-2-1 Locating Principle to the Non-rigid Workpiece with Freeform Geometry [Seite 132]
17.1 - Abstract [Seite 132]
17.2 - 1 Introduction [Seite 132]
17.3 - 2 Literature Review [Seite 133]
17.4 - 3 Research Methodology [Seite 134]
17.5 - 4 Results [Seite 136]
17.6 - 5 Conclusions [Seite 140]
17.7 - References [Seite 141]
18 - Information and Communication Technologies Within Industry 4.0 Concept [Seite 142]
18.1 - Abstract [Seite 142]
18.2 - 1 Introduction [Seite 142]
18.3 - 2 Literature Review [Seite 143]
18.4 - 3 Research Methodology [Seite 144]
18.5 - 4 Results [Seite 146]
18.6 - 5 Conclusions [Seite 147]
18.7 - References [Seite 148]
19 - Computer Modeling Application for Predicting of the Passing of the High-Speed Milling Machining Hardened Steel [Seite 150]
19.1 - Abstract [Seite 150]
19.2 - 1 Introduction [Seite 150]
19.3 - 2 Literature Review [Seite 152]
19.4 - 3 Research Methodology [Seite 153]
19.5 - 4 Results [Seite 155]
19.6 - 5 Conclusions [Seite 158]
19.7 - References [Seite 159]
20 - Computer Simulation of the Processes of Mixing in Multilayer Nitride Coatings with Nanometer Period [Seite 161]
20.1 - Abstract [Seite 161]
20.2 - 1 Introduction [Seite 161]
20.3 - 2 Literature Review [Seite 161]
20.4 - 3 Research Methodology [Seite 162]
20.5 - 4 Results [Seite 164]
20.6 - 5 Conclusions [Seite 169]
20.7 - Acknowledgements [Seite 169]
20.8 - References [Seite 169]
21 - Model of Thermal State of the System of Application of Coolant in Grinding Machine [Seite 171]
21.1 - Abstract [Seite 171]
21.2 - 1 Introduction [Seite 171]
21.3 - 2 Literature Review [Seite 172]
21.4 - 3 Research Methodology [Seite 172]
21.4.1 - 3.1 Characteristics and Parameters of the Cooling System Operation Cycle [Seite 172]
21.4.2 - 3.2 Mathematical Model of the Thermal State of the Coolant System [Seite 175]
21.5 - 4 Results [Seite 177]
21.6 - 5 Conclusions [Seite 179]
21.7 - References [Seite 179]
22 - Technology of Effective Abrasive Jet Machining of Parts Surfaces [Seite 181]
22.1 - Abstract [Seite 181]
22.2 - 1 Introduction [Seite 181]
22.3 - 2 Literature Review [Seite 181]
22.4 - 3 Research Methodology [Seite 182]
22.5 - 4 Results [Seite 189]
22.6 - 5 Conclusions [Seite 190]
22.7 - References [Seite 190]
23 - Choice of the Optimal Parameters of the Ultra-Fine Grained Cooper Machining [Seite 192]
23.1 - Abstract [Seite 192]
23.2 - 1 Introduction [Seite 192]
23.3 - 2 Optimization Model [Seite 193]
23.3.1 - 2.1 Optimization Criterions [Seite 193]
23.3.2 - 2.2 Technical Limitations [Seite 194]
23.3.3 - 2.3 Method of Optimization [Seite 194]
23.4 - 3 Realization of Optimization Model in MATLAB [Seite 195]
23.5 - 4 Results and Discussion [Seite 197]
23.6 - 5 Conclusions [Seite 199]
23.7 - Acknowledgements [Seite 200]
23.8 - References [Seite 200]
24 - Obtaining of Porous Powder Materials by Radial Pressing Method [Seite 201]
24.1 - Abstract [Seite 201]
24.2 - 1 Introduction [Seite 201]
24.3 - 2 Literature Review [Seite 202]
24.4 - 3 Research Methodology [Seite 203]
24.4.1 - 3.1 Theoretical Investigations of the Powder Materials Pressing Process [Seite 203]
24.4.2 - 3.2 Experimental Verification of New Pressing Equation and Yield Surface [Seite 205]
24.5 - 4 Results [Seite 209]
24.5.1 - 4.1 Improving Equipment and Tools for Drip of Powder Materials [Seite 209]
24.6 - 5 Conclusions [Seite 211]
24.7 - References [Seite 212]
25 - Methods for Calculating the Grain Boundary Adsorption Capacity of Nanostructured Copper Based Condensates [Seite 214]
25.1 - Abstract [Seite 214]
25.2 - 1 Introduction [Seite 214]
25.3 - 2 Literature Review [Seite 215]
25.4 - 3 Research Methodology [Seite 215]
25.5 - 4 Results [Seite 216]
25.6 - 5 Conclusions [Seite 220]
25.7 - References [Seite 220]
26 - Investigation of the Influence of Electro-Impulse Current on Manganiferous Liquid-Alloy [Seite 222]
26.1 - Abstract [Seite 222]
26.2 - 1 Introduction [Seite 222]
26.3 - 2 Literature Review [Seite 223]
26.4 - 3 Research Methodology [Seite 223]
26.4.1 - 3.1 Analysis of Current Influence on Crystallite Size [Seite 223]
26.4.2 - 3.2 Influence of Electro-Impulse Current on Chemical Discontinuity [Seite 225]
26.4.3 - 3.3 Influence of Electro-Impulse Modification on Physical Discontinuity [Seite 226]
26.5 - 4 Results [Seite 227]
26.6 - 5 Conclusions [Seite 227]
26.7 - References [Seite 228]
27 - Forecasting Real Option Price Model by Means of Evolutionary and Genetic Algorithms [Seite 229]
27.1 - Abstract [Seite 229]
27.2 - 1 Introduction [Seite 229]
27.3 - 2 Literature Review [Seite 230]
27.4 - 3 Methodology [Seite 231]
27.4.1 - 3.1 Mechanism of Genetic and Evolutionary Algorithms [Seite 231]
27.4.2 - 3.2 Application of Genetic Algorithms for Prediction of Optimal Solution [Seite 233]
27.5 - 4 Results [Seite 235]
27.6 - 5 Conclusions [Seite 238]
27.7 - References [Seite 238]
28 - Mechanical Engineering [Seite 240]
29 - Experimental Study of the Power Characteristics Influence on the Hydraulic Efficiency [Seite 241]
29.1 - Abstract [Seite 241]
29.2 - 1 Introduction [Seite 241]
29.3 - 2 Literature Review [Seite 242]
29.4 - 3 Research Methodology [Seite 243]
29.5 - 4 Results [Seite 243]
29.6 - 5 Conclusions [Seite 249]
29.7 - References [Seite 250]
30 - Increase of Efficiency of Turbine Setting Based on Study of Internal Flows [Seite 251]
30.1 - Abstract [Seite 251]
30.2 - 1 Introduction [Seite 251]
30.3 - 2 Literature Review [Seite 252]
30.4 - 3 Research Methods [Seite 252]
30.5 - 4 Results [Seite 254]
30.6 - 5 Conclusions [Seite 259]
30.7 - References [Seite 260]
31 - Effect of Abnormal Operation of Turbine Generator on the Resource of Steam Turbine Shafting [Seite 261]
31.1 - Abstract [Seite 261]
31.2 - 1 Introduction [Seite 261]
31.3 - 2 Literature Review [Seite 261]
31.4 - 3 Research Methodology [Seite 262]
31.5 - 4 Results [Seite 263]
31.6 - 5 Conclusions [Seite 267]
31.7 - References [Seite 268]
32 - Experimental Investigation of Physical and Tribological Properties of Engine Oil with Nano-particles Additives [Seite 269]
32.1 - Abstract [Seite 269]
32.2 - 1 Introduction [Seite 269]
32.3 - 2 Literature Review [Seite 270]
32.4 - 3 Research Methodology [Seite 270]
32.4.1 - 3.1 Preparation of Lubricant with Nano-particles [Seite 270]
32.4.2 - 3.2 Procedure for Preparing Nano Additive Lubricating Oil [Seite 272]
32.4.3 - 3.3 Testing of Oils [Seite 273]
32.4.4 - 3.4 Flash and Fire Point Test [Seite 274]
32.5 - 4 Results [Seite 276]
32.5.1 - 4.1 The Result of Viscosity Test [Seite 276]
32.5.2 - 4.2 The Result of Flash and Fire Point Test [Seite 276]
32.5.3 - 4.3 The Result of Vibration Test [Seite 277]
32.5.4 - 4.4 FFT Spectrum for Vibration Characteristics at 40 Kg Load [Seite 277]
32.5.5 - 4.5 FFT Curve for Vibration Characteristics at 60 Kg Load [Seite 278]
32.6 - 5 Conclusions [Seite 281]
32.7 - References [Seite 281]
33 - Simulation and Analysis of Passive vs. Magneto-Rheological Suspension and Seat Dampers [Seite 283]
33.1 - Abstract [Seite 283]
33.2 - 1 Introduction [Seite 283]
33.3 - 2 Literature Review [Seite 284]
33.4 - 3 Research Methodology [Seite 284]
33.5 - 4 Results [Seite 287]
33.6 - 5 Conclusions [Seite 291]
33.7 - Acknowledgement [Seite 292]
33.8 - References [Seite 292]
34 - A Semi-implicit Generalized Finite Differences Approach to Simulate Natural Convective Viscous Flows [Seite 294]
34.1 - Abstract [Seite 294]
34.2 - 1 Introduction [Seite 294]
34.3 - 2 Literature Review [Seite 295]
34.4 - 3 Research Methodology [Seite 295]
34.4.1 - 3.1 Governing Equations [Seite 295]
34.4.2 - 3.2 Numerical Scheme [Seite 296]
34.4.3 - 3.3 The Finite Point set Method [Seite 297]
34.4.4 - 3.4 FPM for General Elliptic Partial Differential Equations [Seite 298]
34.5 - 4 Results [Seite 299]
34.6 - 5 Conclusions [Seite 301]
34.7 - References [Seite 301]
35 - Optimal Management of Small Hydroelectric Plants Power Generation in Local Electrical Systems [Seite 303]
35.1 - Abstract [Seite 303]
35.2 - 1 Introduction [Seite 303]
35.3 - 2 Literature Review [Seite 305]
35.4 - 3 Research Methodology [Seite 306]
35.5 - 4 Results [Seite 307]
35.6 - 5 Conclusions [Seite 310]
35.7 - References [Seite 311]
36 - Effect of Phase Composition on Cavitation Resistance of Ceramics [Seite 313]
36.1 - Abstract [Seite 313]
36.2 - 1 Introduction [Seite 313]
36.3 - 2 Literature Review [Seite 313]
36.4 - 3 Research Methodology [Seite 314]
36.5 - 4 Results [Seite 314]
36.6 - 5 Conclusions [Seite 318]
36.7 - References [Seite 318]
37 - System Dynamics Model for Continuous Review Inventory System in Demand Shock Conditions [Seite 320]
37.1 - Abstract [Seite 320]
37.2 - 1 Introduction [Seite 320]
37.3 - 2 Literature Review [Seite 321]
37.4 - 3 Research Methodology [Seite 321]
37.4.1 - 3.1 Continuous Inventory Review System [Seite 321]
37.4.2 - 3.2 Feedback System [Seite 323]
37.4.3 - 3.3 Dynamic System Model [Seite 324]
37.4.3.1 - 3.3.1 Modeling Method and Tool [Seite 324]
37.4.3.2 - 3.3.2 SD Sub-models of Market Demand and Reorder Policy [Seite 325]
37.4.3.3 - 3.3.3 SD Sub-model of Proportional-Integral-Derivative Controller [Seite 325]
37.4.3.4 - 3.3.4 SD Sub-model of Single-Echelon Logistics System [Seite 326]
37.5 - 4 Results [Seite 327]
37.6 - 5 Conclusions [Seite 329]
37.7 - References [Seite 329]
38 - Numerical Study of Outlet Blade Angle Effect on Impeller Characteristics of Double Entry Centrifugal Pump [Seite 331]
38.1 - Abstract [Seite 331]
38.2 - 1 Introduction [Seite 331]
38.3 - 2 Literature Review [Seite 332]
38.4 - 3 Research Methodology [Seite 333]
38.4.1 - 3.1 Three-Dimensional Computer Models of the Impellers [Seite 333]
38.4.2 - 3.2 Mesh Structure and Boundary Conditions [Seite 334]
38.5 - 4 Results [Seite 335]
38.6 - 5 Conclusions [Seite 337]
38.7 - References [Seite 338]
39 - Application of Artificial Neural Network for Identification of Bearing Stiffness Characteristics in Rotor Dynamics Analysis [Seite 339]
39.1 - Abstract [Seite 339]
39.2 - 1 Introduction [Seite 339]
39.3 - 2 Literature Review [Seite 340]
39.4 - 3 Research Methodology [Seite 341]
39.4.1 - 3.1 Bearing Stiffness Characteristics [Seite 341]
39.4.2 - 3.2 The Mathematical Model of Rotor Dynamics [Seite 341]
39.4.3 - 3.3 Regression Procedure [Seite 342]
39.4.4 - 3.4 Using Artificial Neural Network [Seite 344]
39.5 - 4 Results [Seite 345]
39.5.1 - 4.1 Using Regression Procedure [Seite 345]
39.5.2 - 4.2 Implementation of Artificial Neural Network [Seite 346]
39.6 - 5 Conclusions [Seite 347]
39.7 - Acknowledgements [Seite 348]
39.8 - References [Seite 348]
40 - Movement of the Particle on the External Surface of the Cylinder, Which Makes the Translational Oscillations in Horizontal Planes [Seite 350]
40.1 - Abstract [Seite 350]
40.2 - 1 Introduction [Seite 350]
40.3 - 2 Literature Review [Seite 351]
40.4 - 3 Research Methodology [Seite 351]
40.5 - 4 Results [Seite 355]
40.6 - 5 Conclusions [Seite 358]
40.7 - References [Seite 359]
41 - Influence of the Passive Flow Initial Parameters on the Efficiency of Liquid-Vapor Ejectors [Seite 360]
41.1 - Abstract [Seite 360]
41.2 - 1 Introduction [Seite 360]
41.3 - 2 Literature Review [Seite 361]
41.4 - 3 Research Methodology [Seite 361]
41.4.1 - 3.1 Numerical Research [Seite 361]
41.4.2 - 3.2 Experimental Research [Seite 364]
41.5 - 4 Results [Seite 365]
41.6 - 5 Conclusions [Seite 368]
41.7 - References [Seite 368]
42 - Constitutive Equation for Numerical Simulation of Elastic-Viscous - Plastic Disperse Materials Deformation Process [Seite 370]
42.1 - Abstract [Seite 370]
42.2 - 1 Introduction [Seite 370]
42.3 - 2 Literature Review [Seite 371]
42.4 - 3 Research Methodology [Seite 371]
42.5 - 4 Results [Seite 375]
42.6 - 5 Conclusions [Seite 376]
42.7 - References [Seite 377]
43 - Determination of Transfer Functions for Electrohydraulic Servo Drive of Technological Equipment [Seite 378]
43.1 - Abstract [Seite 378]
43.2 - 1 Introduction [Seite 378]
43.3 - 2 Literature Review [Seite 379]
43.4 - 3 Research Methodology [Seite 379]
43.5 - 4 Results [Seite 384]
43.6 - 5 Conclusions [Seite 386]
43.7 - References [Seite 387]
44 - Influence of the Stochastic Nature Parameters of Throttle Channels on Characteristic of Automatic Balancing Device of the Centrifugal Pump [Seite 388]
44.1 - Abstract [Seite 388]
44.2 - 1 Introduction [Seite 388]
44.3 - 2 Literature Review [Seite 390]
44.4 - 3 Research Methodology [Seite 390]
44.5 - 4 Results [Seite 393]
44.6 - 5 Conclusions [Seite 395]
44.7 - References [Seite 395]
45 - Comparative Tribological Tests for Face Impulse Seals Sliding Surfaces Formed by Various Methods [Seite 396]
45.1 - Abstract [Seite 396]
45.2 - 1 Introduction [Seite 396]
45.3 - 2 Literature Review [Seite 397]
45.4 - 3 Research Methodology [Seite 398]
45.5 - 4 Results [Seite 400]
45.6 - 5 Conclusions [Seite 404]
45.7 - References [Seite 405]
46 - Effect of the Parameters at the Inlet to the Rotor of the Jet-Reactive Turbine on Its Efficiency [Seite 406]
46.1 - Abstract [Seite 406]
46.2 - 1 Introduction [Seite 406]
46.3 - 2 Literature Review [Seite 407]
46.4 - 3 Research Methodology [Seite 407]
46.5 - 4 Results [Seite 409]
46.6 - 5 Conclusions [Seite 415]
46.7 - References [Seite 415]
47 - Chemical Engineering [Seite 416]
48 - Modeling of the Heating for Cladded Powder in Plasma Jet at Spraying of Coating [Seite 417]
48.1 - Abstract [Seite 417]
48.2 - 1 Introduction [Seite 417]
48.3 - 2 Literature Review [Seite 418]
48.4 - 3 Research Methodology [Seite 418]
48.5 - 4 Results [Seite 421]
48.6 - 5 Conclusions [Seite 422]
48.7 - References [Seite 422]
49 - Information Support of Optimization Calculation of Vortex Type Granulation Devices [Seite 424]
49.1 - Abstract [Seite 424]
49.2 - 1 Introduction [Seite 424]
49.3 - 2 Literature Review [Seite 425]
49.4 - 3 Research Methodology [Seite 425]
49.5 - 4 Results [Seite 430]
49.6 - 5 Conclusions [Seite 432]
49.7 - Acknowledgements [Seite 432]
49.8 - References [Seite 432]
50 - The Carrier Development for Biofilms on the Basis of Technogenic Wastes for Pollutants Treatment in the Environmental Protection Technologies [Seite 434]
50.1 - Abstract [Seite 434]
50.2 - 1 Introduction [Seite 434]
50.3 - 2 Literature Review [Seite 435]
50.4 - 3 Research Methodology [Seite 436]
50.4.1 - 3.1 Experimental Set-up of Aerobic Hydrogen Sulfide Removal [Seite 436]
50.4.2 - 3.2 Method for Producing a Granulated Carrier Containing Immobilized Microorganisms [Seite 436]
50.4.3 - 3.3 Analytical Methods [Seite 436]
50.4.4 - 3.4 Microbiological Investigation [Seite 438]
50.5 - 4 Results [Seite 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 [Seite 438]
50.5.2 - 4.2 Influence of the Diameter of Immobilized Granules on the Sulfide Oxidation [Seite 439]
50.5.3 - 4.3 Effect of Granules Hardening Time on Sulfide Oxidation [Seite 441]
50.6 - 5 Conclusions [Seite 443]
50.7 - References [Seite 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 [Seite 445]
51.1 - Abstract [Seite 445]
51.2 - 1 Introduction [Seite 445]
51.3 - 2 Literature Review [Seite 446]
51.4 - 3 Research Methodology [Seite 447]
51.4.1 - 3.1 Model Definition [Seite 449]
51.5 - 4 Results [Seite 450]
51.6 - 5 Conclusions [Seite 453]
51.7 - References [Seite 454]
52 - Obtaining of Multilayer Granules in a Vortex Gas Flow: Automated Complex for Technological Calculation [Seite 455]
52.1 - Abstract [Seite 455]
52.2 - 1 Introduction [Seite 455]
52.3 - 2 Literature Review [Seite 456]
52.4 - 3 Research Methodology [Seite 457]
52.5 - 4 Results [Seite 459]
52.6 - 5 Conclusions [Seite 463]
52.7 - Acknowledgements [Seite 463]
52.8 - References [Seite 463]
53 - Simulation and Design of Welded Plate Heat Exchangers with Channels of Different Corrugation Height [Seite 465]
53.1 - Abstract [Seite 465]
53.2 - 1 Introduction [Seite 465]
53.3 - 2 Literature Review [Seite 466]
53.4 - 3 Research Methodology [Seite 467]
53.4.1 - 3.1 Mathematical Formulation [Seite 467]
53.4.2 - 3.2 Design Algorithm [Seite 469]
53.5 - 4 Results [Seite 470]
53.6 - 5 Conclusions [Seite 473]
53.7 - References [Seite 473]
54 - Granulation Process of the Organic Suspension: Fluidized Bed Temperature Influence on the Kinetics of the Granule Formation [Seite 475]
54.1 - Abstract [Seite 475]
54.2 - 1 Introduction [Seite 475]
54.3 - 2 Literature Review [Seite 476]
54.4 - 3 Research Methodology [Seite 476]
54.5 - 4 Results [Seite 478]
54.5.1 - 4.1 Temperature Regimes for Organic Suspension Granulation in the Fluidized Bed Apparatus [Seite 478]
54.5.2 - 4.2 Theoretical Regularities of Granule Temperature Change in a Fluidized Bed [Seite 479]
54.5.3 - 4.3 Study Results of Temperature Influence on the Kinetics of Granule Formation in a Fluidized Bed [Seite 480]
54.6 - 5 Conclusions [Seite 482]
54.7 - Acknowledgement [Seite 482]
54.8 - References [Seite 482]
55 - Design and Study of Conical Pressure-Swirl Atomizers [Seite 484]
55.1 - Abstract [Seite 484]
55.2 - 1 Introduction [Seite 484]
55.3 - 2 Literature Review [Seite 485]
55.3.1 - 2.1 Discharge Coefficient [Seite 485]
55.3.2 - 2.2 Sauter Mean Diameter [Seite 486]
55.4 - 3 Research Methodology [Seite 487]
55.5 - 4 Results [Seite 487]
55.6 - 5 Conclusions [Seite 490]
55.7 - Acknowledgement [Seite 491]
55.8 - References [Seite 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 [Seite 493]
56.1 - Abstract [Seite 493]
56.2 - 1 Introduction [Seite 493]
56.3 - 2 Literature Review [Seite 494]
56.4 - 3 Research Methodology [Seite 494]
56.5 - 4 Results [Seite 495]
56.6 - 5 Conclusions [Seite 499]
56.7 - References [Seite 499]
57 - Modelling of Liquid's Distribution and Migration in the Fibrous Filter Layer in the Process of Inertial-Filtering Separation [Seite 501]
57.1 - Abstract [Seite 501]
57.2 - 1 Introduction [Seite 501]
57.3 - 2 Literature Review [Seite 502]
57.4 - 3 Research Methodology [Seite 502]
57.5 - 4 Results [Seite 505]
57.6 - 5 Conclusions [Seite 508]
57.7 - Acknowledgements [Seite 508]
57.8 - References [Seite 509]
58 - CFD Simulation of Ammonium Nitrate Melt in a Perforated Rotating Bucket [Seite 510]
58.1 - Abstract [Seite 510]
58.2 - 1 Introduction [Seite 510]
58.3 - 2 Literature Review [Seite 511]
58.4 - 3 Research Methodology [Seite 512]
58.5 - 4 Results [Seite 513]
58.6 - 5 Conclusions [Seite 516]
58.7 - References [Seite 517]
59 - Mathematical Model of Corrosive-Mechanic Wear Materials in Technological Medium of Food Industry [Seite 519]
59.1 - Abstract [Seite 519]
59.2 - 1 Introduction [Seite 519]
59.3 - 2 Literature Review [Seite 520]
59.4 - 3 Research Methodology [Seite 521]
59.5 - 4 Results [Seite 524]
59.5.1 - 4.1 Simulation Results [Seite 524]
59.5.2 - 4.2 Verifying the Adequacy of the Model [Seite 524]
59.6 - 5 Conclusions [Seite 525]
59.7 - References [Seite 525]
60 - Light and Heavy Pollutant Removal by Modified Swirl Sedimentation Tank - Design and Study [Seite 527]
60.1 - Abstract [Seite 527]
60.2 - 1 Introduction [Seite 527]
60.3 - 2 Literature Review [Seite 528]
60.4 - 3 Research Methodology [Seite 528]
60.5 - 4 Results [Seite 530]
60.6 - 5 Conclusions [Seite 533]
60.7 - Acknowledgements [Seite 534]
60.8 - References [Seite 534]
61 - Investigation of Hydrodynamics During Continuous Vibroextraction in a Liquid-Solid Body System [Seite 536]
61.1 - Abstract [Seite 536]
61.2 - 1 Introduction [Seite 536]
61.3 - 2 Literature Review [Seite 536]
61.4 - 3 Research Methodology [Seite 537]
61.5 - 4 Results [Seite 539]
61.5.1 - 4.1 Investigation of the Propagation of Pulsating Turbulent Flows in a Nonflowing Liquid Medium [Seite 539]
61.5.2 - 4.2 Investigation of the Structure of Flows Under Continuous Vibroextraction [Seite 542]
61.5.3 - 4.3 Mathematical Analysis of the Structure of Flows [Seite 545]
61.6 - 5 Conclusions [Seite 546]
61.7 - References [Seite 547]
62 - Author Index [Seite 548]
