Planetary Gear Trains
-10%
portes grátis
Planetary Gear Trains
Arnaudov, Kiril; Karaivanov, Dimitar Petkov
Taylor & Francis Ltd
04/2019
378
Dura
Inglês
9781138311855
15 a 20 dias
870
Descrição não disponível.
Part I: General. Chapter 1: Introduction. Chapter 2: Nature, Purpose and Types of Planetary Gear Trains. Part II: AI Planetary Gear Train (2K-H Gear Train). Chapter 3: Arrangement and Possible Ways of Work of AI Planetary Gear Train. Chapter 4: Specific Conditions of AI Planetary Gear Train. Chapter 5: Meshing Geometry of AI Planetary Gear Train and Its Peculiarities. Chapter 6: Forces and Torques in AI Planetary Gear Train. Chapter 7: Kinematics of AI Planetary Gear Train. Chapter 8: Load Distribution between the Planets in AI Planetary Gear Train, Its Unevenness and Equalization. Chapter 9: Loading on the Elements of AI Planetary Gear Train and Its Peculiarities. Chapter 10: Types of Power in AI Planetary Gear train. Chapter 11: Types of Losses and Basic Efficiency of AI Planetary Gear Train. Chapter 12: Efficiency of AI Planetary Gear Train. Chapter 13: Lubrication of AI Planetary Gear Trains. Chapter 14: Heating and Cooling of AI Planetary Gear Train. Chapter 15: Design, Manufacturing, and Measurement of the Elements of AI Planetary Gear Train. Chapter 16: Approaches for Design (Project) Calculations of AI Planetary Gear Train. Chapter 17: Simplified Verifiable Calculation of AI Planetary Gear Train Gears (according to ISO 6336). Chapter 18: Optimization of AI Planetary Gear Train. Chapter 19: Advantages, Disadvantages, and Application of AI Planetary Gear Train. Chapter 20: Examples for Application of AI Planetary Gear Train. Part III: Other Types of Simple Cylindrical Planetary Gear Trains. Chapter 21: AI-Planetary Gear Train. Chapter 22: AA- and AA-Planetary Gear Trains. Chapter 23: II- and II-Planetary Gear Trains. Chapter 24: AAI- and AAI-Planetary Gear Trains. Chapter 25: AAA-, AAA-, IAI- and IAI-Planetary Gear Trains. Chapter 26: I-Planetary Gear Train (?-?-V Gear Train). Chapter 27: Uncoaxial (Open) A- and I-Planetary Gear Trains. Part ?V: Compound Planetary Gear Trains. Chapter 28: Types of Compound Planetary Gear Trains. Chapter 29: Two-Carrier Compound Planetary Gear Trains with Two Compound and Three External Shafts. Chapter 30: Two-Carrier Compound Planetary Gear Trains with Two Compound and Four External Shafts. Chapter 31: Two-Carrier Compound Planetary Gear Trains with One Compound and Four External Shafts. Chapter 32: Load Distribution between the Planets in Two-Carrier Compound Planetary Gear Trains, Its Unevenness, and Equalization. Chapter 33: Reduced Planetary Gear Trains. Chapter 34: Multi-Carrier Compound Planetary Gear Trains. Chapter 35: Examples for Application of Compound Planetary Gear Trains. Part V: Supplements. Chapter 36: Bevel, Worm, and Crossed-Helical Simple (Single-Carrier) Planetary Gear Trains. Chapter 37: Special Planetary Gear Trains. Chapter 38: Involute Gears with Asymmetric Teeth. References.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Sun Gears;gears;Planetary Gear;gear design;Planet Pins;kinematics;Pressure Angle;power analysis;Tooth Flank;torque methods;Transverse Contact Ratio;External shafts;Ring Gear;Asymmetric teeth;Needle Roller Bearings;Involute gears;PGT;Gear Train;Kinematics Scheme;Contact Ratio;Compound Gear Train;Operating Pressure Angles;Uneven Load Distribution;Speed Ratio;Load Capacity Calculations;Torque Ratio;Output Angular Velocities;Gear Coupling;Output Shaft;Vice Versa;Planet Bearing;Real Torques;Central Gears
Part I: General. Chapter 1: Introduction. Chapter 2: Nature, Purpose and Types of Planetary Gear Trains. Part II: AI Planetary Gear Train (2K-H Gear Train). Chapter 3: Arrangement and Possible Ways of Work of AI Planetary Gear Train. Chapter 4: Specific Conditions of AI Planetary Gear Train. Chapter 5: Meshing Geometry of AI Planetary Gear Train and Its Peculiarities. Chapter 6: Forces and Torques in AI Planetary Gear Train. Chapter 7: Kinematics of AI Planetary Gear Train. Chapter 8: Load Distribution between the Planets in AI Planetary Gear Train, Its Unevenness and Equalization. Chapter 9: Loading on the Elements of AI Planetary Gear Train and Its Peculiarities. Chapter 10: Types of Power in AI Planetary Gear train. Chapter 11: Types of Losses and Basic Efficiency of AI Planetary Gear Train. Chapter 12: Efficiency of AI Planetary Gear Train. Chapter 13: Lubrication of AI Planetary Gear Trains. Chapter 14: Heating and Cooling of AI Planetary Gear Train. Chapter 15: Design, Manufacturing, and Measurement of the Elements of AI Planetary Gear Train. Chapter 16: Approaches for Design (Project) Calculations of AI Planetary Gear Train. Chapter 17: Simplified Verifiable Calculation of AI Planetary Gear Train Gears (according to ISO 6336). Chapter 18: Optimization of AI Planetary Gear Train. Chapter 19: Advantages, Disadvantages, and Application of AI Planetary Gear Train. Chapter 20: Examples for Application of AI Planetary Gear Train. Part III: Other Types of Simple Cylindrical Planetary Gear Trains. Chapter 21: AI-Planetary Gear Train. Chapter 22: AA- and AA-Planetary Gear Trains. Chapter 23: II- and II-Planetary Gear Trains. Chapter 24: AAI- and AAI-Planetary Gear Trains. Chapter 25: AAA-, AAA-, IAI- and IAI-Planetary Gear Trains. Chapter 26: I-Planetary Gear Train (?-?-V Gear Train). Chapter 27: Uncoaxial (Open) A- and I-Planetary Gear Trains. Part ?V: Compound Planetary Gear Trains. Chapter 28: Types of Compound Planetary Gear Trains. Chapter 29: Two-Carrier Compound Planetary Gear Trains with Two Compound and Three External Shafts. Chapter 30: Two-Carrier Compound Planetary Gear Trains with Two Compound and Four External Shafts. Chapter 31: Two-Carrier Compound Planetary Gear Trains with One Compound and Four External Shafts. Chapter 32: Load Distribution between the Planets in Two-Carrier Compound Planetary Gear Trains, Its Unevenness, and Equalization. Chapter 33: Reduced Planetary Gear Trains. Chapter 34: Multi-Carrier Compound Planetary Gear Trains. Chapter 35: Examples for Application of Compound Planetary Gear Trains. Part V: Supplements. Chapter 36: Bevel, Worm, and Crossed-Helical Simple (Single-Carrier) Planetary Gear Trains. Chapter 37: Special Planetary Gear Trains. Chapter 38: Involute Gears with Asymmetric Teeth. References.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Sun Gears;gears;Planetary Gear;gear design;Planet Pins;kinematics;Pressure Angle;power analysis;Tooth Flank;torque methods;Transverse Contact Ratio;External shafts;Ring Gear;Asymmetric teeth;Needle Roller Bearings;Involute gears;PGT;Gear Train;Kinematics Scheme;Contact Ratio;Compound Gear Train;Operating Pressure Angles;Uneven Load Distribution;Speed Ratio;Load Capacity Calculations;Torque Ratio;Output Angular Velocities;Gear Coupling;Output Shaft;Vice Versa;Planet Bearing;Real Torques;Central Gears
