Helicopter flight dynamics: including a treatment of tiltrotor aircraft
Cover -- Title Page -- Copyright -- Contents -- Series Preface -- Preface to Third Edition -- Preface to Second Edition -- Preface to First Edition -- Acknowledgements -- Notation -- List of Abbreviations -- Chapter 1 Introduction -- 1.1 Simulation Modelling -- 1.2 Flying Qualities -- 1.3 Missing To...
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
[2018]
|
| Ausgabe: | Third edition |
| Schriftenreihe: | Aerospace Series
|
| Schlagworte: | |
| Zusammenfassung: | Cover -- Title Page -- Copyright -- Contents -- Series Preface -- Preface to Third Edition -- Preface to Second Edition -- Preface to First Edition -- Acknowledgements -- Notation -- List of Abbreviations -- Chapter 1 Introduction -- 1.1 Simulation Modelling -- 1.2 Flying Qualities -- 1.3 Missing Topics -- 1.4 Simple Guide to the Book -- Chapter 2 Helicopter and Tiltrotor Flight Dynamics - An Introductory Tour -- 2.1 Introduction -- 2.2 Four Reference Points -- 2.2.1 The Mission and Piloting Tasks -- 2.2.2 The Operational Environment -- 2.2.3 The Vehicle Configuration, Dynamics, and Flight Envelope -- Rotor Controls -- Two Distinct Flight Regimes -- Rotor Stall Boundaries -- 2.2.4 The Pilot and Pilot-Vehicle Interface -- 2.2.5 Résumé of the Four Reference Points -- 2.3 Modelling Helicopter/Tiltrotor Flight Dynamics -- 2.3.1 The Problem Domain -- 2.3.2 Multiple Interacting Subsystems -- 2.3.3 Trim, Stability, and Response -- 2.3.4 The Flapping Rotor in a Vacuum -- 2.3.5 The Flapping Rotor in Air - Aerodynamic Damping -- 2.3.6 Flapping Derivatives -- 2.3.7 The Fundamental 90∘ Phase Shift -- 2.3.8 Hub Moments and Rotor/Fuselage Coupling -- 2.3.9 Linearization in General -- 2.3.10 Stability and Control Résumé -- 2.3.11 The Static Stability Derivative Mw -- 2.3.12 Rotor Thrust, Inflow, Zw, and Vertical Gust Response in Hover -- 2.3.13 Gust Response in Forward Flight -- 2.3.14 Vector-Differential Form of Equations of Motion -- 2.3.15 Validation -- 2.3.16 Inverse Simulation -- 2.3.17 Modelling Review -- 2.4 Flying Qualities -- 2.4.1 Pilot Opinion -- 2.4.2 Quantifying Quality Objectively -- 2.4.3 Frequency and Amplitude - Exposing the Natural Dimensions -- 2.4.4 Stability - Early Surprises Compared with Aeroplanes -- 2.4.5 Pilot-in-the-Loop Control -- Attacking a Manoeuvre -- 2.4.6 Bandwidth - A Parameter for All Seasons? 2.4.7 Flying a Mission Task Element -- 2.4.8 The Cliff Edge and Carefree Handling -- 2.4.9 Agility Factor -- 2.4.10 Pilot's Workload -- 2.4.11 Inceptors and Displays -- 2.4.12 Operational Benefits of Flying Qualities -- 2.4.13 Flying Qualities Review -- 2.5 Design for Flying Qualities -- Stability and Control Augmentation -- 2.5.1 Impurity of Primary Response -- 2.5.2 Strong Cross-Couplings -- 2.5.3 Response Degradation at Flight Envelope Limits -- 2.5.4 Poor Stability -- 2.5.5 The Rotor as a Control Filter -- 2.5.6 Artificial Stability -- 2.6 Tiltrotor Flight Dynamics -- 2.7 Chapter Review -- Chapter 3 Modelling Helicopter Flight Dynamics: Building a Simulation Model -- 3.1 Introduction and Scope -- 3.2 The Formulation of Helicopter Forces and Moments in Level 1 Modelling -- 3.2.1 Main Rotor -- Blade Flapping Dynamics - Introduction -- The Centre-Spring Equivalent Rotor -- Multiblade Coordinates -- Rotor Forces and Moments -- Rotor Torque -- Rotor Inflow -- Momentum Theory for Axial Flight -- Momentum Theory in Forward Flight -- Local-Differential Momentum Theory and Dynamic Inflow -- Rotor Flapping-Further Considerations of the Centre-Spring Approximation -- Rotor in-Plane Motion: Lead-Lag -- Rotor Blade Pitch -- Ground Effect on Inflow and Induced Power -- 3.2.2 The Tail Rotor -- 3.2.3 Fuselage and Empennage -- The Fuselage Aerodynamic Forces and Moments -- The Empennage Aerodynamic Forces and Moments -- 3.2.4 Powerplant and Rotor Governor -- 3.2.5 Flight Control System -- Pitch and Roll Control -- Yaw Control -- Heave Control -- 3.3 Integrated Equations of Motion of the Helicopter -- 3.4 Beyond Level 1 Modelling -- 3.4.1 Rotor Aerodynamics and Dynamics -- Rotor Aerodynamics -- Modelling Section Lift, Drag, and Pitching Moment -- Modelling Local Incidence -- Rotor Dynamics -- 3.4.2 Interactional Aerodynamics -- 3.5 Chapter 3 Epilogue Appendix 3A Frames of Reference and Coordinate Transformations -- 3A.1 The Inertial Motion of the Aircraft -- 3A.2 The Orientation Problem - Angular Coordinates of the Aircraft -- 3A.3 Components of Gravitational Acceleration along the Aircraft Axes -- 3A.4 The Rotor System - Kinematics of a Blade Element -- 3A.5 Rotor Reference Planes - Hub, Tip Path, and No-Feathering -- Chapter 4 Modelling Helicopter Flight Dynamics: Trim and Stability Analysis -- 4.1 Introduction and Scope -- 4.2 Trim Analysis -- 4.2.1 The General Trim Problem -- 4.2.2 Longitudinal Partial Trim -- 4.2.3 Lateral/Directional Partial Trim -- 4.2.4 Rotorspeed/Torque Partial Trim -- 4.2.5 Balance of Forces and Moments -- 4.2.6 Control Angles to Support the Forces and Moments -- 4.3 Stability Analysis -- 4.3.1 Linearization -- 4.3.2 The Derivatives -- The Translational Velocity Derivatives -- The Derivatives Xu, Yv, Xv, and Yu (Mv and Lu) -- The Derivatives Mu and Mw -- The Derivatives Mw, Mv, and Mv -- The Derivative Zw -- The Derivatives Lv, Nv -- The Derivatives Nu, Nw, Lu, Lw -- The Angular Velocity Derivatives -- The Derivatives Xq, Yp -- The Derivatives Mq, Lp, Mp, Lq -- The Derivatives Nr, Lr, Np -- The Control Derivatives -- The Derivatives Z 0, Z 1s -- The Derivatives M 0, L 0 -- The Derivatives M 1s, M 1c, L 1s, L 1c -- The Derivatives Y OT, L OT, N OT -- The Effects of Nonuniform Rotor Inflow on Damping and Control Derivatives -- Some Reflections on Derivatives -- 4.3.3 The Natural Modes of Motion -- The Longitudinal Modes -- The Lateral/Directional Modes -- Comparison with Flight -- Appendix 4A The Analysis of Linear Dynamic Systems (with Special Reference to 6-Dof Helicopter Flight) -- Appendix 4B The Three Case Helicopters: Lynx, Bo105 and Puma -- 4B.1 Aircraft Configuration Parameters -- The RAE (DRA) Research Lynx, ZD559 -- The DLR Research Bo105, S123 |
| Beschreibung: | xlii, 810 Seiten |
| ISBN: | 9781119401056 |
Internformat
MARC
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|---|---|---|---|
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| 100 | 1 | |a Padfield, Gareth D. |d 1948- |e Verfasser |0 (DE-588)17299070X |4 aut | |
| 245 | 1 | 0 | |a Helicopter flight dynamics |b including a treatment of tiltrotor aircraft |
| 250 | |a Third edition | ||
| 264 | 1 | |a Hoboken, NJ |b Wiley |c [2018] | |
| 264 | 4 | |c © 2018 | |
| 300 | |a xlii, 810 Seiten | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a Aerospace Series | |
| 520 | 3 | |a Cover -- Title Page -- Copyright -- Contents -- Series Preface -- Preface to Third Edition -- Preface to Second Edition -- Preface to First Edition -- Acknowledgements -- Notation -- List of Abbreviations -- Chapter 1 Introduction -- 1.1 Simulation Modelling -- 1.2 Flying Qualities -- 1.3 Missing Topics -- 1.4 Simple Guide to the Book -- Chapter 2 Helicopter and Tiltrotor Flight Dynamics - An Introductory Tour -- 2.1 Introduction -- 2.2 Four Reference Points -- 2.2.1 The Mission and Piloting Tasks -- 2.2.2 The Operational Environment -- 2.2.3 The Vehicle Configuration, Dynamics, and Flight Envelope -- Rotor Controls -- Two Distinct Flight Regimes -- Rotor Stall Boundaries -- 2.2.4 The Pilot and Pilot-Vehicle Interface -- 2.2.5 Résumé of the Four Reference Points -- 2.3 Modelling Helicopter/Tiltrotor Flight Dynamics -- 2.3.1 The Problem Domain -- 2.3.2 Multiple Interacting Subsystems -- 2.3.3 Trim, Stability, and Response -- 2.3.4 The Flapping Rotor in a Vacuum -- 2.3.5 The Flapping Rotor in Air - Aerodynamic Damping -- 2.3.6 Flapping Derivatives -- 2.3.7 The Fundamental 90∘ Phase Shift -- 2.3.8 Hub Moments and Rotor/Fuselage Coupling -- 2.3.9 Linearization in General -- 2.3.10 Stability and Control Résumé -- 2.3.11 The Static Stability Derivative Mw -- 2.3.12 Rotor Thrust, Inflow, Zw, and Vertical Gust Response in Hover -- 2.3.13 Gust Response in Forward Flight -- 2.3.14 Vector-Differential Form of Equations of Motion -- 2.3.15 Validation -- 2.3.16 Inverse Simulation -- 2.3.17 Modelling Review -- 2.4 Flying Qualities -- 2.4.1 Pilot Opinion -- 2.4.2 Quantifying Quality Objectively -- 2.4.3 Frequency and Amplitude - Exposing the Natural Dimensions -- 2.4.4 Stability - Early Surprises Compared with Aeroplanes -- 2.4.5 Pilot-in-the-Loop Control -- Attacking a Manoeuvre -- 2.4.6 Bandwidth - A Parameter for All Seasons? | |
| 520 | 3 | |a 2.4.7 Flying a Mission Task Element -- 2.4.8 The Cliff Edge and Carefree Handling -- 2.4.9 Agility Factor -- 2.4.10 Pilot's Workload -- 2.4.11 Inceptors and Displays -- 2.4.12 Operational Benefits of Flying Qualities -- 2.4.13 Flying Qualities Review -- 2.5 Design for Flying Qualities -- Stability and Control Augmentation -- 2.5.1 Impurity of Primary Response -- 2.5.2 Strong Cross-Couplings -- 2.5.3 Response Degradation at Flight Envelope Limits -- 2.5.4 Poor Stability -- 2.5.5 The Rotor as a Control Filter -- 2.5.6 Artificial Stability -- 2.6 Tiltrotor Flight Dynamics -- 2.7 Chapter Review -- Chapter 3 Modelling Helicopter Flight Dynamics: Building a Simulation Model -- 3.1 Introduction and Scope -- 3.2 The Formulation of Helicopter Forces and Moments in Level 1 Modelling -- 3.2.1 Main Rotor -- Blade Flapping Dynamics - Introduction -- The Centre-Spring Equivalent Rotor -- Multiblade Coordinates -- Rotor Forces and Moments -- Rotor Torque -- Rotor Inflow -- Momentum Theory for Axial Flight -- Momentum Theory in Forward Flight -- Local-Differential Momentum Theory and Dynamic Inflow -- Rotor Flapping-Further Considerations of the Centre-Spring Approximation -- Rotor in-Plane Motion: Lead-Lag -- Rotor Blade Pitch -- Ground Effect on Inflow and Induced Power -- 3.2.2 The Tail Rotor -- 3.2.3 Fuselage and Empennage -- The Fuselage Aerodynamic Forces and Moments -- The Empennage Aerodynamic Forces and Moments -- 3.2.4 Powerplant and Rotor Governor -- 3.2.5 Flight Control System -- Pitch and Roll Control -- Yaw Control -- Heave Control -- 3.3 Integrated Equations of Motion of the Helicopter -- 3.4 Beyond Level 1 Modelling -- 3.4.1 Rotor Aerodynamics and Dynamics -- Rotor Aerodynamics -- Modelling Section Lift, Drag, and Pitching Moment -- Modelling Local Incidence -- Rotor Dynamics -- 3.4.2 Interactional Aerodynamics -- 3.5 Chapter 3 Epilogue | |
| 520 | 3 | |a Appendix 3A Frames of Reference and Coordinate Transformations -- 3A.1 The Inertial Motion of the Aircraft -- 3A.2 The Orientation Problem - Angular Coordinates of the Aircraft -- 3A.3 Components of Gravitational Acceleration along the Aircraft Axes -- 3A.4 The Rotor System - Kinematics of a Blade Element -- 3A.5 Rotor Reference Planes - Hub, Tip Path, and No-Feathering -- Chapter 4 Modelling Helicopter Flight Dynamics: Trim and Stability Analysis -- 4.1 Introduction and Scope -- 4.2 Trim Analysis -- 4.2.1 The General Trim Problem -- 4.2.2 Longitudinal Partial Trim -- 4.2.3 Lateral/Directional Partial Trim -- 4.2.4 Rotorspeed/Torque Partial Trim -- 4.2.5 Balance of Forces and Moments -- 4.2.6 Control Angles to Support the Forces and Moments -- 4.3 Stability Analysis -- 4.3.1 Linearization -- 4.3.2 The Derivatives -- The Translational Velocity Derivatives -- The Derivatives Xu, Yv, Xv, and Yu (Mv and Lu) -- The Derivatives Mu and Mw -- The Derivatives Mw, Mv, and Mv -- The Derivative Zw -- The Derivatives Lv, Nv -- The Derivatives Nu, Nw, Lu, Lw -- The Angular Velocity Derivatives -- The Derivatives Xq, Yp -- The Derivatives Mq, Lp, Mp, Lq -- The Derivatives Nr, Lr, Np -- The Control Derivatives -- The Derivatives Z 0, Z 1s -- The Derivatives M 0, L 0 -- The Derivatives M 1s, M 1c, L 1s, L 1c -- The Derivatives Y OT, L OT, N OT -- The Effects of Nonuniform Rotor Inflow on Damping and Control Derivatives -- Some Reflections on Derivatives -- 4.3.3 The Natural Modes of Motion -- The Longitudinal Modes -- The Lateral/Directional Modes -- Comparison with Flight -- Appendix 4A The Analysis of Linear Dynamic Systems (with Special Reference to 6-Dof Helicopter Flight) -- Appendix 4B The Three Case Helicopters: Lynx, Bo105 and Puma -- 4B.1 Aircraft Configuration Parameters -- The RAE (DRA) Research Lynx, ZD559 -- The DLR Research Bo105, S123 | |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-030626462 | ||
Datensatz im Suchindex
| _version_ | 1804178970834370560 |
|---|---|
| any_adam_object | |
| author | Padfield, Gareth D. 1948- |
| author_GND | (DE-588)17299070X |
| author_facet | Padfield, Gareth D. 1948- |
| author_role | aut |
| author_sort | Padfield, Gareth D. 1948- |
| author_variant | g d p gd gdp |
| building | Verbundindex |
| bvnumber | BV045238221 |
| classification_tum | VER 530 VER 562 |
| ctrlnum | (OCoLC)1048392603 (DE-599)BVBBV045238221 |
| discipline | Verkehrstechnik |
| edition | Third edition |
| format | Book |
| fullrecord | <?xml version="1.0" encoding="UTF-8"?><collection xmlns="http://www.loc.gov/MARC21/slim"><record><leader>06933nam a2200433 c 4500</leader><controlfield tag="001">BV045238221</controlfield><controlfield tag="003">DE-604</controlfield><controlfield tag="005">20201104 </controlfield><controlfield tag="007">t</controlfield><controlfield tag="008">181018s2018 |||| 00||| eng d</controlfield><datafield tag="020" ind1=" " ind2=" "><subfield code="a">9781119401056</subfield><subfield code="9">978-1-119-40105-6</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(OCoLC)1048392603</subfield></datafield><datafield tag="035" ind1=" " ind2=" "><subfield code="a">(DE-599)BVBBV045238221</subfield></datafield><datafield tag="040" ind1=" " ind2=" "><subfield code="a">DE-604</subfield><subfield code="b">ger</subfield><subfield code="e">rda</subfield></datafield><datafield tag="041" ind1="0" ind2=" "><subfield code="a">eng</subfield></datafield><datafield tag="049" ind1=" " ind2=" "><subfield code="a">DE-91G</subfield></datafield><datafield tag="084" ind1=" " ind2=" "><subfield code="a">VER 530</subfield><subfield code="2">stub</subfield></datafield><datafield tag="084" ind1=" " ind2=" "><subfield code="a">VER 562</subfield><subfield code="2">stub</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Padfield, Gareth D.</subfield><subfield code="d">1948-</subfield><subfield code="e">Verfasser</subfield><subfield code="0">(DE-588)17299070X</subfield><subfield code="4">aut</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Helicopter flight dynamics</subfield><subfield code="b">including a treatment of tiltrotor aircraft</subfield></datafield><datafield tag="250" ind1=" " ind2=" "><subfield code="a">Third edition</subfield></datafield><datafield tag="264" ind1=" " ind2="1"><subfield code="a">Hoboken, NJ</subfield><subfield code="b">Wiley</subfield><subfield code="c">[2018]</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">© 2018</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">xlii, 810 Seiten</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="b">n</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="b">nc</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="490" ind1="0" ind2=" "><subfield code="a">Aerospace Series</subfield></datafield><datafield tag="520" ind1="3" ind2=" "><subfield code="a">Cover -- Title Page -- Copyright -- Contents -- Series Preface -- Preface to Third Edition -- Preface to Second Edition -- Preface to First Edition -- Acknowledgements -- Notation -- List of Abbreviations -- Chapter 1 Introduction -- 1.1 Simulation Modelling -- 1.2 Flying Qualities -- 1.3 Missing Topics -- 1.4 Simple Guide to the Book -- Chapter 2 Helicopter and Tiltrotor Flight Dynamics - An Introductory Tour -- 2.1 Introduction -- 2.2 Four Reference Points -- 2.2.1 The Mission and Piloting Tasks -- 2.2.2 The Operational Environment -- 2.2.3 The Vehicle Configuration, Dynamics, and Flight Envelope -- Rotor Controls -- Two Distinct Flight Regimes -- Rotor Stall Boundaries -- 2.2.4 The Pilot and Pilot-Vehicle Interface -- 2.2.5 Résumé of the Four Reference Points -- 2.3 Modelling Helicopter/Tiltrotor Flight Dynamics -- 2.3.1 The Problem Domain -- 2.3.2 Multiple Interacting Subsystems -- 2.3.3 Trim, Stability, and Response -- 2.3.4 The Flapping Rotor in a Vacuum -- 2.3.5 The Flapping Rotor in Air - Aerodynamic Damping -- 2.3.6 Flapping Derivatives -- 2.3.7 The Fundamental 90∘ Phase Shift -- 2.3.8 Hub Moments and Rotor/Fuselage Coupling -- 2.3.9 Linearization in General -- 2.3.10 Stability and Control Résumé -- 2.3.11 The Static Stability Derivative Mw -- 2.3.12 Rotor Thrust, Inflow, Zw, and Vertical Gust Response in Hover -- 2.3.13 Gust Response in Forward Flight -- 2.3.14 Vector-Differential Form of Equations of Motion -- 2.3.15 Validation -- 2.3.16 Inverse Simulation -- 2.3.17 Modelling Review -- 2.4 Flying Qualities -- 2.4.1 Pilot Opinion -- 2.4.2 Quantifying Quality Objectively -- 2.4.3 Frequency and Amplitude - Exposing the Natural Dimensions -- 2.4.4 Stability - Early Surprises Compared with Aeroplanes -- 2.4.5 Pilot-in-the-Loop Control -- Attacking a Manoeuvre -- 2.4.6 Bandwidth - A Parameter for All Seasons?</subfield></datafield><datafield tag="520" ind1="3" ind2=" "><subfield code="a">2.4.7 Flying a Mission Task Element -- 2.4.8 The Cliff Edge and Carefree Handling -- 2.4.9 Agility Factor -- 2.4.10 Pilot's Workload -- 2.4.11 Inceptors and Displays -- 2.4.12 Operational Benefits of Flying Qualities -- 2.4.13 Flying Qualities Review -- 2.5 Design for Flying Qualities -- Stability and Control Augmentation -- 2.5.1 Impurity of Primary Response -- 2.5.2 Strong Cross-Couplings -- 2.5.3 Response Degradation at Flight Envelope Limits -- 2.5.4 Poor Stability -- 2.5.5 The Rotor as a Control Filter -- 2.5.6 Artificial Stability -- 2.6 Tiltrotor Flight Dynamics -- 2.7 Chapter Review -- Chapter 3 Modelling Helicopter Flight Dynamics: Building a Simulation Model -- 3.1 Introduction and Scope -- 3.2 The Formulation of Helicopter Forces and Moments in Level 1 Modelling -- 3.2.1 Main Rotor -- Blade Flapping Dynamics - 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| id | DE-604.BV045238221 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T08:12:26Z |
| institution | BVB |
| isbn | 9781119401056 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-030626462 |
| oclc_num | 1048392603 |
| open_access_boolean | |
| owner | DE-91G DE-BY-TUM |
| owner_facet | DE-91G DE-BY-TUM |
| physical | xlii, 810 Seiten |
| publishDate | 2018 |
| publishDateSearch | 2018 |
| publishDateSort | 2018 |
| publisher | Wiley |
| record_format | marc |
| series2 | Aerospace Series |
| spelling | Padfield, Gareth D. 1948- Verfasser (DE-588)17299070X aut Helicopter flight dynamics including a treatment of tiltrotor aircraft Third edition Hoboken, NJ Wiley [2018] © 2018 xlii, 810 Seiten txt rdacontent n rdamedia nc rdacarrier Aerospace Series Cover -- Title Page -- Copyright -- Contents -- Series Preface -- Preface to Third Edition -- Preface to Second Edition -- Preface to First Edition -- Acknowledgements -- Notation -- List of Abbreviations -- Chapter 1 Introduction -- 1.1 Simulation Modelling -- 1.2 Flying Qualities -- 1.3 Missing Topics -- 1.4 Simple Guide to the Book -- Chapter 2 Helicopter and Tiltrotor Flight Dynamics - An Introductory Tour -- 2.1 Introduction -- 2.2 Four Reference Points -- 2.2.1 The Mission and Piloting Tasks -- 2.2.2 The Operational Environment -- 2.2.3 The Vehicle Configuration, Dynamics, and Flight Envelope -- Rotor Controls -- Two Distinct Flight Regimes -- Rotor Stall Boundaries -- 2.2.4 The Pilot and Pilot-Vehicle Interface -- 2.2.5 Résumé of the Four Reference Points -- 2.3 Modelling Helicopter/Tiltrotor Flight Dynamics -- 2.3.1 The Problem Domain -- 2.3.2 Multiple Interacting Subsystems -- 2.3.3 Trim, Stability, and Response -- 2.3.4 The Flapping Rotor in a Vacuum -- 2.3.5 The Flapping Rotor in Air - Aerodynamic Damping -- 2.3.6 Flapping Derivatives -- 2.3.7 The Fundamental 90∘ Phase Shift -- 2.3.8 Hub Moments and Rotor/Fuselage Coupling -- 2.3.9 Linearization in General -- 2.3.10 Stability and Control Résumé -- 2.3.11 The Static Stability Derivative Mw -- 2.3.12 Rotor Thrust, Inflow, Zw, and Vertical Gust Response in Hover -- 2.3.13 Gust Response in Forward Flight -- 2.3.14 Vector-Differential Form of Equations of Motion -- 2.3.15 Validation -- 2.3.16 Inverse Simulation -- 2.3.17 Modelling Review -- 2.4 Flying Qualities -- 2.4.1 Pilot Opinion -- 2.4.2 Quantifying Quality Objectively -- 2.4.3 Frequency and Amplitude - Exposing the Natural Dimensions -- 2.4.4 Stability - Early Surprises Compared with Aeroplanes -- 2.4.5 Pilot-in-the-Loop Control -- Attacking a Manoeuvre -- 2.4.6 Bandwidth - A Parameter for All Seasons? 2.4.7 Flying a Mission Task Element -- 2.4.8 The Cliff Edge and Carefree Handling -- 2.4.9 Agility Factor -- 2.4.10 Pilot's Workload -- 2.4.11 Inceptors and Displays -- 2.4.12 Operational Benefits of Flying Qualities -- 2.4.13 Flying Qualities Review -- 2.5 Design for Flying Qualities -- Stability and Control Augmentation -- 2.5.1 Impurity of Primary Response -- 2.5.2 Strong Cross-Couplings -- 2.5.3 Response Degradation at Flight Envelope Limits -- 2.5.4 Poor Stability -- 2.5.5 The Rotor as a Control Filter -- 2.5.6 Artificial Stability -- 2.6 Tiltrotor Flight Dynamics -- 2.7 Chapter Review -- Chapter 3 Modelling Helicopter Flight Dynamics: Building a Simulation Model -- 3.1 Introduction and Scope -- 3.2 The Formulation of Helicopter Forces and Moments in Level 1 Modelling -- 3.2.1 Main Rotor -- Blade Flapping Dynamics - Introduction -- The Centre-Spring Equivalent Rotor -- Multiblade Coordinates -- Rotor Forces and Moments -- Rotor Torque -- Rotor Inflow -- Momentum Theory for Axial Flight -- Momentum Theory in Forward Flight -- Local-Differential Momentum Theory and Dynamic Inflow -- Rotor Flapping-Further Considerations of the Centre-Spring Approximation -- Rotor in-Plane Motion: Lead-Lag -- Rotor Blade Pitch -- Ground Effect on Inflow and Induced Power -- 3.2.2 The Tail Rotor -- 3.2.3 Fuselage and Empennage -- The Fuselage Aerodynamic Forces and Moments -- The Empennage Aerodynamic Forces and Moments -- 3.2.4 Powerplant and Rotor Governor -- 3.2.5 Flight Control System -- Pitch and Roll Control -- Yaw Control -- Heave Control -- 3.3 Integrated Equations of Motion of the Helicopter -- 3.4 Beyond Level 1 Modelling -- 3.4.1 Rotor Aerodynamics and Dynamics -- Rotor Aerodynamics -- Modelling Section Lift, Drag, and Pitching Moment -- Modelling Local Incidence -- Rotor Dynamics -- 3.4.2 Interactional Aerodynamics -- 3.5 Chapter 3 Epilogue Appendix 3A Frames of Reference and Coordinate Transformations -- 3A.1 The Inertial Motion of the Aircraft -- 3A.2 The Orientation Problem - Angular Coordinates of the Aircraft -- 3A.3 Components of Gravitational Acceleration along the Aircraft Axes -- 3A.4 The Rotor System - Kinematics of a Blade Element -- 3A.5 Rotor Reference Planes - Hub, Tip Path, and No-Feathering -- Chapter 4 Modelling Helicopter Flight Dynamics: Trim and Stability Analysis -- 4.1 Introduction and Scope -- 4.2 Trim Analysis -- 4.2.1 The General Trim Problem -- 4.2.2 Longitudinal Partial Trim -- 4.2.3 Lateral/Directional Partial Trim -- 4.2.4 Rotorspeed/Torque Partial Trim -- 4.2.5 Balance of Forces and Moments -- 4.2.6 Control Angles to Support the Forces and Moments -- 4.3 Stability Analysis -- 4.3.1 Linearization -- 4.3.2 The Derivatives -- The Translational Velocity Derivatives -- The Derivatives Xu, Yv, Xv, and Yu (Mv and Lu) -- The Derivatives Mu and Mw -- The Derivatives Mw, Mv, and Mv -- The Derivative Zw -- The Derivatives Lv, Nv -- The Derivatives Nu, Nw, Lu, Lw -- The Angular Velocity Derivatives -- The Derivatives Xq, Yp -- The Derivatives Mq, Lp, Mp, Lq -- The Derivatives Nr, Lr, Np -- The Control Derivatives -- The Derivatives Z 0, Z 1s -- The Derivatives M 0, L 0 -- The Derivatives M 1s, M 1c, L 1s, L 1c -- The Derivatives Y OT, L OT, N OT -- The Effects of Nonuniform Rotor Inflow on Damping and Control Derivatives -- Some Reflections on Derivatives -- 4.3.3 The Natural Modes of Motion -- The Longitudinal Modes -- The Lateral/Directional Modes -- Comparison with Flight -- Appendix 4A The Analysis of Linear Dynamic Systems (with Special Reference to 6-Dof Helicopter Flight) -- Appendix 4B The Three Case Helicopters: Lynx, Bo105 and Puma -- 4B.1 Aircraft Configuration Parameters -- The RAE (DRA) Research Lynx, ZD559 -- The DLR Research Bo105, S123 Hubschrauber (DE-588)4025993-6 gnd rswk-swf Flugmechanik (DE-588)4154760-3 gnd rswk-swf Hubschrauber (DE-588)4025993-6 s Flugmechanik (DE-588)4154760-3 s DE-604 Erscheint auch als Online-Ausgabe, EPUB 978-1-119-40107-0 Erscheint auch als Online-Ausgabe, PDF 978-1-119-40102-5 |
| spellingShingle | Padfield, Gareth D. 1948- Helicopter flight dynamics including a treatment of tiltrotor aircraft Hubschrauber (DE-588)4025993-6 gnd Flugmechanik (DE-588)4154760-3 gnd |
| subject_GND | (DE-588)4025993-6 (DE-588)4154760-3 |
| title | Helicopter flight dynamics including a treatment of tiltrotor aircraft |
| title_auth | Helicopter flight dynamics including a treatment of tiltrotor aircraft |
| title_exact_search | Helicopter flight dynamics including a treatment of tiltrotor aircraft |
| title_full | Helicopter flight dynamics including a treatment of tiltrotor aircraft |
| title_fullStr | Helicopter flight dynamics including a treatment of tiltrotor aircraft |
| title_full_unstemmed | Helicopter flight dynamics including a treatment of tiltrotor aircraft |
| title_short | Helicopter flight dynamics |
| title_sort | helicopter flight dynamics including a treatment of tiltrotor aircraft |
| title_sub | including a treatment of tiltrotor aircraft |
| topic | Hubschrauber (DE-588)4025993-6 gnd Flugmechanik (DE-588)4154760-3 gnd |
| topic_facet | Hubschrauber Flugmechanik |
| work_keys_str_mv | AT padfieldgarethd helicopterflightdynamicsincludingatreatmentoftiltrotoraircraft |