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Dictionary of Mechanical Engineering [[electronic resource] /] / by D. K. Singh
Dictionary of Mechanical Engineering [[electronic resource] /] / by D. K. Singh
Autore Singh D. K
Edizione [1st ed. 2024.]
Pubbl/distr/stampa Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2024
Descrizione fisica 1 online resource (424 pages)
Disciplina 621.03
Soggetto topico Industrial engineering
Production engineering
Thermodynamics
Heat engineering
Heat transfer
Mass transfer
Engineering design
Electric power production
Industrial and Production Engineering
Engineering Thermodynamics, Heat and Mass Transfer
Engineering Design
Mechanical Power Engineering
ISBN 981-9917-22-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910770279603321
Singh D. K  
Singapore : , : Springer Nature Singapore : , : Imprint : Springer, , 2024
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Fundamentals of Manufacturing Engineering : Concepts and Applications
Fundamentals of Manufacturing Engineering : Concepts and Applications
Autore Singh D. K
Edizione [3rd ed.]
Pubbl/distr/stampa Singapore : , : Springer, , 2024
Descrizione fisica 1 online resource (625 pages)
Disciplina 670
ISBN 9789819987672
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- Preface to the Third Edition -- Preface to the Second Revised Edition -- Preface to the First Edition -- Acknowledgments -- Contents -- About the Author -- 1 Introduction to Materials and Their Properties -- 1.1 Introduction -- 1.2 Classification of Materials -- 1.3 Structure of Materials -- 1.4 Physical Properties of Materials -- 1.4.1 Specific Heat -- 1.4.2 Density and Specific Gravity -- 1.4.3 Thermal Conductivity -- 1.4.4 Thermal Expansion -- 1.4.5 Melting Point -- 1.4.6 Electrical Conductivity -- 1.5 Magnetic Properties of Materials -- 1.6 Mechanical Properties of Materials -- 1.6.1 Tensile Strength -- 1.6.2 True Stress-Strain Curves -- 1.6.3 Ductility -- 1.6.4 Compressive Strength -- 1.6.5 Torsional Strength -- 1.7 Hardness -- 1.7.1 Brinell Hardness Test -- 1.7.2 Rockwell Hardness Test -- 1.7.3 Vickers Hardness Test -- 1.7.4 Mohs Hardness Test -- 1.7.5 Knoop's Hardness Test -- 1.7.6 Durometer -- 1.8 Fatigue -- 1.9 Creep -- 2 Ferrous Materials and Their Heat Treatment -- 2.1 Introduction -- 2.2 Iron -- 2.3 Wrought Iron -- 2.4 Pig Iron -- 2.5 Steel -- 2.6 Plain Carbon Steel -- 2.7 Alloy Steel -- 2.8 Stainless Steel -- 2.8.1 Austenitic Stainless Steel -- 2.8.2 Ferritic Stainless Steel -- 2.8.3 Martensitic Stainless Steel -- 2.8.4 Precipitation-Hardening (PH) Stainless Steel -- 2.8.5 Duplex Stainless Steel -- 2.9 High-Speed Steel (HSS) -- 2.10 Tool Steel -- 2.11 Cast Iron -- 2.11.1 Grey Cast Iron -- 2.11.2 White Cast Iron -- 2.11.3 Malleable Cast Iron -- 2.11.4 Ductile Iron or Nodular Iron or Spheroidal Iron -- 2.12 Alloy Cast Iron -- 2.13 Common Alloying Elements Added to Steel -- 2.14 Micro Structures of Steel and Iron -- 2.14.1 Ferrite or Alpha-Ferrite or Alpha-Iron -- 2.14.2 Cementite -- 2.14.3 Pearlite -- 2.14.4 Ledeburite -- 2.14.5 Austenite or Gamma Iron -- 2.14.6 Bainite -- 2.14.7 Martensite -- 2.14.8 Troostite.
2.14.9 Sorbite -- 2.15 Heat Treatment of Ferrous Metals -- 2.16 Tempering -- 2.16.1 Austempering -- 2.16.2 Martempering -- 2.17 Annealing -- 2.17.1 Full Annealing -- 2.17.2 Process Annealing -- 2.17.3 Stress-Relief Annealing -- 2.17.4 Cyclic Annealing -- 2.18 Normalizing -- 2.19 Spheroidizing -- 2.20 Hardening -- 2.21 Surface Hardening -- 2.22 Carburizing -- 2.22.1 Solid Carburizing -- 2.22.2 Gas Carburizing -- 2.22.3 Liquid Carburizing -- 2.23 Cyaniding -- 2.24 Carbonitriding -- 2.25 Nitriding -- 2.26 Flame Hardening -- 2.27 Induction Hardening -- 3 Nonferrous Materials and Their Heat Treatment -- 3.1 Introduction -- 3.2 Aluminium and Aluminium Alloys -- 3.2.1 Duralumin -- 3.2.2 Alclad -- 3.2.3 Y-Alloy -- 3.3 Copper and Copper-Based Alloys -- 3.3.1 Brass -- 3.3.2 Bronze -- 3.3.3 Gun Metal -- 3.3.4 Phosphor Bronze -- 3.3.5 Aluminium Bronze -- 3.3.6 Silicon Bronze -- 3.4 Nickel-Based Alloys -- 3.4.1 Monel Metal -- 3.5 Low-Melting Alloys -- 3.6 Lead -- 3.7 Tin -- 3.8 Zinc -- 3.9 Heat Treatment of Nonferrous Metals -- 3.10 Precipitation Hardening -- 4 Nonconventional Materials -- 4.1 Superalloys or High-Temperature Materials -- 4.2 Composite Materials -- 4.2.1 Composition of Composites -- 4.2.2 Reinforcement of Composites -- 4.2.3 Examples of Composites -- 4.2.4 Properties of Composites -- 4.2.5 Advanced Composites -- 4.2.6 Applications of Composites -- 4.3 Polymers -- 4.3.1 Properties and Uses of Polymers -- 4.3.2 Polymerization -- 4.3.3 Classification of Polymers -- 4.3.4 Thermoplastic Polymer -- 4.3.5 Thermosetting Polymer -- 4.4 Ceramics -- 4.5 Refractory Materials -- 4.5.1 Types of Refractories -- 4.6 Abrasives -- 4.7 Coated Abrasives -- 5 Introduction to Casting -- 5.1 Introduction -- 5.2 Casting Terminology -- 5.3 Types of Moulds and Moulding Processes -- 5.4 Types of Patterns -- 5.4.1 Solid Pattern -- 5.4.2 Split Pattern.
5.4.3 Match-Plate Pattern -- 5.4.4 Cope and Drag Pattern -- 5.4.5 Gated Pattern -- 5.4.6 Sweep Pattern -- 5.4.7 Skeleton Pattern -- 5.4.8 Loose Piece Pattern -- 5.5 Pattern Allowances -- 5.5.1 Shrinkage Allowance -- 5.5.2 Draft Allowance -- 5.5.3 Machining Allowance -- 5.5.4 Distortion Allowance -- 5.5.5 Shake Allowance -- 5.6 Melting Furnaces -- 5.6.1 Electric Furnace -- 5.6.2 Induction Furnace -- 5.6.3 Crucible Furnace -- 5.6.4 Cupola Furnace -- 5.6.5 Charging and Combustion Zone in Cupola -- 5.7 Suitability of Casting Process -- 5.8 Solidification of Casting -- 5.8.1 Solidification of Pure Metals -- 5.8.2 Solidification of Alloy -- 5.9 Iron-Carbon Equilibrium Diagram -- 5.10 Residual Stresses in Castings -- 5.11 Heat Treatment of Castings -- 5.12 Material Selection in Casting -- 5.12.1 Ferrous Casting Alloys -- 5.12.2 Cast Iron -- 5.12.3 Grey Cast Iron or Grey Iron -- 5.12.4 Malleable Cast Iron or Malleable Iron -- 5.12.5 Ductile Iron or Nodular Iron or Spheroidal Iron -- 5.12.6 White Cast Iron -- 5.12.7 Cast Steels -- 5.12.8 Cast Stainless Steels -- 5.12.9 Nonferrous Casting Alloys -- 5.12.10 Aluminium-Base Alloys -- 5.12.11 Copper-Base Alloys -- 5.12.12 Magnesium-Base Alloys -- 5.12.13 Zinc-Base Alloys -- 5.12.14 Tin-Base Alloys -- 5.13 Moulding Sand -- 5.14 Properties of Moulding Sand -- 5.14.1 Permeability -- 5.14.2 Refractoriness -- 5.14.3 Cohesiveness -- 5.14.4 Collapsibility -- 5.15 Testing of Moulding Sand -- 5.15.1 Test for Moisture Content -- 5.15.2 Clay Content Test -- 5.15.3 Fineness Test -- 5.15.4 Permeability Test -- 5.15.5 Mould and Core Hardness Test -- 5.15.6 Sand Strength Test -- 5.16 Sand Conditioning and Reconditioning -- 5.17 Defects in Sand Casting -- 5.18 Inspection of Casting -- 5.19 Nondestructive Inspection and Testing -- 5.19.1 Liquid Penetrant Inspection -- 5.19.2 Ultrasonic Inspection -- 5.19.3 Radiographic Testing.
5.19.4 Magnetic Particle Inspection -- 5.19.5 Eddy-Current Inspection -- 5.19.6 Thermal Testing -- 5.19.7 Advanced Optical Methods -- 5.19.8 Resistivity Method -- 5.19.9 Chemical Analysis and Topography of Surfaces -- 5.19.10 Acoustic-Emission Monitoring -- 5.19.11 Pressure Testing -- 6 Casting Processes -- 6.1 Shell Mould Casting -- 6.1.1 Introduction -- 6.1.2 Process Details -- 6.1.3 Advantages -- 6.1.4 Limitations -- 6.1.5 Materials to be Cast by This Method -- 6.1.6 Typical Applications -- 6.2 Plaster Mould Casting -- 6.3 Ceramic Mould Casting -- 6.3.1 Introduction -- 6.3.2 Other Names of the Process -- 6.3.3 Process Details -- 6.3.4 Advantages -- 6.3.5 Limitations -- 6.3.6 Materials to be Cast by This Method -- 6.3.7 Typical Applications -- 6.4 Permanent Mould Casting -- 6.4.1 Introduction -- 6.4.2 Other Names of the Process -- 6.4.3 Process Details -- 6.4.4 Advantages -- 6.4.5 Limitations -- 6.4.6 Materials to be Cast by This Method -- 6.4.7 Typical Applications -- 6.5 Slush Casting -- 6.6 Vacuum Casting -- 6.7 High-Pressure Die Casting -- 6.7.1 Introduction -- 6.7.2 Other Names of the Process -- 6.7.3 Process Details -- 6.7.4 Advantages -- 6.7.5 Limitations -- 6.7.6 Materials to be Cast by This Method -- 6.7.7 Typical Applications -- 6.7.8 Types of High-Pressure Die Casting -- 6.8 Hot-Chamber Die Casting -- 6.9 Cold-Chamber Die Casting -- 6.10 Low-Pressure Die Casting -- 6.10.1 Introduction -- 6.10.2 Other Names of the Process -- 6.10.3 Process Details -- 6.10.4 Advantages -- 6.10.5 Limitations -- 6.10.6 Materials to be Cast by This Method -- 6.10.7 Typical Applications -- 6.11 Full Mould Casting -- 6.11.1 Introduction -- 6.11.2 Other Names of the Process -- 6.11.3 Process Details -- 6.11.4 Advantages -- 6.11.5 Limitations -- 6.11.6 Materials to be Cast by This Method -- 6.11.7 Typical Applications -- 6.12 Investment Casting.
6.12.1 Introduction -- 6.12.2 Other Names of the Process -- 6.12.3 Process Details -- 6.12.4 Advantages -- 6.12.5 Limitations -- 6.12.6 Materials to be Cast by This Method -- 6.12.7 Typical Applications -- 6.13 Centrifugal Casting -- 6.13.1 Advantages -- 6.13.2 Limitations -- 6.13.3 Metals to be Cast by This Method -- 6.13.4 Typical Applications -- 6.13.5 Types of Centrifugal Casting -- 6.14 True Centrifugal Casting -- 6.15 Semi-Centrifugal Casting -- 6.16 Centrifuging -- 6.17 Electromagnetic Casting -- 6.18 Squeeze Casting -- 6.19 Continuous Casting -- 6.19.1 Introduction -- 6.19.2 Other Names of the Process -- 6.19.3 Process Details -- 6.19.4 Advantages -- 6.19.5 Limitations -- 6.19.6 Materials to be Cast by This Method -- 6.19.7 Typical Applications -- 7 Design Considerations in Casting -- 7.1 Design of Section Geometry -- 7.2 Design of Gating System -- 7.2.1 Theoretical Considerations in the Design of Gating System -- 7.3 Design of Pouring Basin -- 7.4 Sprue Design -- 7.5 Design of Runners and Gates -- 7.6 Design of Parting Plane -- 7.7 Design of Riser -- 7.7.1 Shrinkage Characteristics of Grey Cast Iron and Riser -- 7.7.2 Riser Shape -- 7.7.3 Riser Size -- 7.7.4 Positioning of Risers -- 7.8 Draft Consideration in Design -- 7.9 Design of Core and Cored Hole -- 7.10 Machining Allowance Consideration in Casting -- 7.11 Design for Dimensional Tolerances -- 7.12 Economic Aspects of Casting -- 8 Introduction to Joining Processes -- 8.1 Introduction -- 8.2 Welding Process -- 8.3 Classification of Welding Processes -- 8.4 Weldability -- 8.5 Selection Criteria in Welding -- 8.6 Weld Inspection -- 8.6.1 Destructive Testing -- 8.6.2 Tension Test -- 8.6.3 Tension-Shear Test -- 8.6.4 Tension Tests for Resistance Welds -- 8.6.5 Bend Test -- 8.6.6 Impact Test -- 8.6.7 Hardness Test -- 8.6.8 Fatigue Test -- 8.6.9 Creep Test -- 8.6.10 Corrosion Test.
8.6.11 Nick Break Test.
Record Nr. UNINA-9910865254803321
Singh D. K  
Singapore : , : Springer, , 2024
Materiale a stampa
Lo trovi qui: Univ. Federico II
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Recent Developments in Mechanics and Design : Select Proceedings of INCOME 2023
Recent Developments in Mechanics and Design : Select Proceedings of INCOME 2023
Autore Singh D. K
Edizione [1st ed.]
Pubbl/distr/stampa Singapore : , : Springer, , 2024
Descrizione fisica 1 online resource (480 pages)
Altri autori (Persone) HegdeShriram
MishraAshutosh
Collana Lecture Notes in Mechanical Engineering Series
ISBN 9789819738748
9789819738731
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Intro -- Preface -- Contents -- About the Editors -- Modelling and Study of Dynamics and Control of a Two-Link Serial Manipulator -- 1 Introduction -- 2 Mathematical Modelling of Joint Torques and Parametric Analysis -- 2.1 Derivation of Joint Torques for Two Degree of Freedom Manipulator -- 2.2 Parametric Plots of Joint Torque -- 3 Derivation of the Controller Equation for PID Controller on a Two Degree of Freedom Serial Manipulator -- 4 Implementation of Controller Equations and Testing Against Step Input -- 5 Conclusions -- References -- Design of an Articulated Robotic Arm for Cooling and Touchup Area in Electronics Manufacturing Company -- 1 Introduction -- 2 Literature Review -- 3 Methodology -- 3.1 Proposed System -- 3.2 Flow of Process -- 4 Proposed Work -- 4.1 Types of Layouts -- 4.2 Detailed Step by Step Processes -- 5 Articulated Robot -- 5.1 Selection of Motor -- 5.2 Servo Motor -- 5.3 Final Design and Parameters of Articulated Arm: -- 6 Results and Discussion -- 7 Conclusion -- References -- The Problem of the Collision of Two Elastoplastic Bodies -- 1 Introduction -- 2 Solution of Self-Similar Elastic Task -- 3 Solution of the Self-Similar Plastic Problem -- 4 Conclusions -- References -- Design Methodology of Propeller for Autonomous Underwater Vehicle -- 1 Introduction -- 2 Methodology -- 2.1 Design Procedure -- 2.2 Drag and Thrust Determination -- 2.3 Delivery Power -- 2.4 Advanced Velocity -- 2.5 Blade Number -- 2.6 Power Coefficient -- 2.7 Determination of P/D and Speed Coefficient (δopt) -- 2.8 Diameter of Propeller -- 2.9 Propeller Pitch -- 2.10 Advance Coefficient -- 2.11 Hub Diameter -- 2.12 Mean Width -- 2.13 Non-dimensional Radius -- 2.14 Design of Blade Cross-Section -- 2.15 Skew and Rake -- 2.16 Material and Manufacturing -- 2.17 Design Analysis and Testing -- 3 Conclusion -- Appendix A -- Appendix B -- References.
Numerical Analysis of Circular and Two-Lobe Journal Bearing Operating with Electro-Rheological (ER) Lubricant -- 1 Introduction -- 2 Mathematical Model -- 3 Solution Methodology -- 4 Results and Discussions -- 5 Conclusions -- References -- Empirical Analysis of COVID Vaccine Supply Chain Using Block Chain: A Case Study in India -- 1 Introduction -- 2 Literature Review -- 2.1 Indian COVID-19 Vaccination Supply Chain -- 3 Blockchain: Overview and Advantages -- 4 Blockchain Integration for COVID Vaccination Supply Chain -- 4.1 Beneficiary Registration -- 4.2 Tracking Vaccine Distribution -- 4.3 Validating and Administering the Supply Chain -- 5 Conclusion -- References -- Effect of Welding Current on Tensile Behaviour and Weld Morphology of Al/Mg Dissimilar Alloy Joint Using Cold Metal Transfer Welding -- 1 Introduction -- 2 Experimental Methodology -- 2.1 Materials and Methods -- 2.2 Experimentation -- 2.3 Mechanical Characterization -- 2.4 Weld Morphology -- 3 Results and Discussion -- 3.1 Tensile Strength -- 3.2 Weld Morphology -- 4 Challenges and Future Scope -- 5 Conclusions -- References -- Tilt-Rotor Drone Flight Control System Modeling -- 1 Introduction -- 2 Problem Definition -- 3 Methodology and Results -- 3.1 Tilt-Rotor Drone Dynamics -- 3.2 Tilt-Rotor Drone Stabilization and Tracking -- 4 Conclusion -- References -- Theoretical Study of Effect of Pore Morphology on the Thermoelectric Performance of Armchair Silicene Nanoribbons -- 1 Introduction -- 2 Modeling and Computational Methods -- 3 Results and Discussion -- 4 Conclusion -- References -- Mechanical Analysis of Carbon Epoxy-Filled UHMWPE Composite-Based Tibial Spacer Using ANSYS-22R1 for Total Knee Replacement Implant -- 1 Introduction -- 1.1 The TKR Implant's Components -- 1.2 A Tibial Spacer Insert -- 2 Material -- 2.1 Matrix -- 2.2 Reinforcements: Resin Epoxy -- 3 Methodology.
3.1 Formulation of C-shaped Tibial Spacer: Design and Modeling -- 4 Results and Discussion -- 4.1 Effect of Carbon Epoxy-Filled UHMWPE Composite on Total Deformation -- 4.2 Effect of Carbon Epoxy-Filled UHMWPE Composite on Von Mises Stress -- 4.3 Effect of Carbon Epoxy-Filled UHMWPE Composite on Maximum Principal Stress -- 4.4 Effect of Carbon Epoxy-Filled UHMWPE Composite on Maximum Shear Stress -- 5 Conclusions -- References -- Sparkling Rural Community for Sustainable Growth: A Doable Prospect -- 1 Introduction -- 2 Energy Alternatives -- 3 Economic Analysis of Methane Generation -- 4 Water Supply -- 5 Discussion: Sustainable Development -- 6 Future Work -- References -- Recent Advancement in 3D and 4D Printing -- 1 Introduction -- 2 Methodology -- 3 4D Printing -- 4 Conclusion -- References -- In Situ Water Quality Sensor Based on IoT -- 1 Introduction -- 2 Architecture Design of System -- 3 Methodology -- 4 Developed Prototype -- 5 Results and Discussion -- 5.1 IoT Cloud Platform Results -- 5.2 Android Mobile App -- 5.3 Indication for a Supported Range of Concentration -- 6 Conclusion -- 7 Future Scope -- References -- Comparative Study of Different Wind Turbine Blade Profile for Optimization on the Basis of Maximum Gliding Ratio and Lift Force: An Investigation by MATLAB Simulation -- 1 Introduction -- 2 Materials and Methodology -- 3 Result Analysis -- 4 Conclusion -- References -- Design and Analysis of Crankshaft of Three Cylinder Engine -- 1 Introduction -- 2 Literature Review -- 2.1 Operating Conditions and Failures of Crankshafts -- 2.2 Determination of Dynamic Loading and Analysis Techniques -- 3 Crankshaft -- 3.1 Methodology -- 3.2 CAD Model -- 3.3 Material Selection -- 3.4 Meshing -- 4 Result and Discussion -- 4.1 Static Analysis -- 4.2 Simulations -- 5 Conclusion -- References.
Theoretical and Computational Investigation on Aerospike Nozzle Equipped with Exhaust Plumes for Supersonic Flow Regimes -- 1 Introduction -- 2 Literature Review -- 3 Methodology -- 3.1 Geometry -- 4 Meshing -- 5 Setup -- 6 Solution -- 7 Result and Discussion -- 7.1 Contours -- 8 Chart -- 9 Conclusion -- References -- Molecular Dynamics Study on Tensile Strength of Ni-10Cu Alloy with Pre-existing Σ3 Grain Boundary -- 1 Introduction -- 2 Simulation Methods -- 3 Results and Discussion -- 4 Conclusions -- References -- Study of Weld Bead Geometry and Optimization of Cold Metal Transfer (CMT) Process Parameters for Fabrication of AA6082 by Using Activated Flux -- 1 Introduction -- 2 Experimental Procedure -- 3 Results and Discussion -- 3.1 Design of Experiment -- 3.2 Analysis of Variance (ANOVA) -- 3.3 Effect of Process Parameters -- 3.4 Effect of Activating Flux on Width and Penetration -- 3.5 Optimization of Process Parameters -- 4 Conclusions -- References -- Future Perspective on Multilayer Thermal Barrier Coatings for the Protection of Gas Turbine and Its Components -- 1 Introduction -- 2 Roadmap of Development of Multilayer Thermal Barrier Coatings (TBC) -- 2.1 Proposed Substrates -- 2.2 Proposed Coatings -- 2.3 Proposed Characterization -- 3 Benefits of Developing a Multilayer Thermal Barrier Coatings (TBC) -- 4 Conclusions -- References -- Experimental and Numerical Studies on the Forming Behavior of Interstitial-Free Steel Sheet -- 1 Introduction -- 2 Objective -- 3 Methodology -- 3.1 Tensile Test -- 3.2 Anisotropy Test -- 3.3 Erichsen Cupping Test -- 3.4 Finite Element Analysis -- 3.5 Hardness Test -- 4 Results and Discussion -- 5 Conclusions -- References -- Investigation of Bead Geometry Parameters During MIG Welding of Stainless Steel 202 Plates -- 1 Introduction -- 2 Experimental Setup -- 3 Methodology -- 3.1 Selection of Material.
3.2 Selection of Welding Parameters -- 3.3 Assessment of Working Ranges -- 3.4 Evolvement of Design Matrix -- 3.5 Experimentation -- 3.6 Evaluation of Bead Geometry -- 3.7 Elaboration of Mathematical Model -- 3.8 Examine the Adequacy of Developed Model -- 4 Assessments of Results -- 4.1 Result of WFR on Depth of Penetration -- 4.2 Result of Voltage on Penetration Depth -- 4.3 Result of Welding Speed on Penetration Depth -- 4.4 Result of Welding Speed on Height of Reinforcement -- 4.5 Result of Voltage on Height of Reinforcement -- 4.6 Result of WFR on Height of Reinforcement -- 4.7 Result of Welding Speed on Width of Weld Bead -- 4.8 Result of Voltage on Width of Weld Bead -- 4.9 Effect of WFR on Width of Weld Bead -- 5 Intercourse Results on Input Parameters -- 5.1 Intercourse Result of Speed of Welding and WFR on Penetration Depth -- 5.2 Intercourse Result of Voltage and WFR on Penetration Depth -- 5.3 Intercourse Result of Voltage and Speed of Welding on Penetration Depth -- 5.4 Intercourse Result of Speed of Welding and WFR on Reinforcement Height -- 5.5 Intercourse Result of Speed of Welding and Voltage on Reinforcement Height -- 5.6 Intercourse Result of WFR and Voltage on Height of Reinforcement -- 5.7 Intercourse Result of Speed of Welding and WFR on Bead Width -- 5.8 Intercourse Result of Voltage and WFR on Width of Weld Bead -- 5.9 Intercourse Result of Voltage and Speed of Welding on Width of Weld Bead -- 6 Conclusions -- References -- Effect of Machining Variables on Surface Energy and Contact Angle of 316L Machined by EDM -- 1 Introduction -- 2 Experımental Procedure -- 2.1 Materials and Method -- 2.2 Machined Surface Characterisations -- 3 Results and Discussion -- 3.1 Contact Angle -- 3.2 Surface Roughness -- 3.3 Surface Roughness versus Contact Angle and Surface Energy -- 4 Conclusion -- References.
Static Structural Analysis on Robotic Arm Subjected to Different Loading Conditions: Theoretical and Computational Study.
Record Nr. UNINA-9910874672903321
Singh D. K  
Singapore : , : Springer, , 2024
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui