Noise and vibration control / / M.L. Munjal, Indian Institute of Science, India |
Autore | Munjal M. L (Manchar Lal), <1945-> |
Pubbl/distr/stampa | Hackensack, N.J., : World Scientific, c2013 |
Descrizione fisica | 1 online resource (xvi, 277 pages) : illustrations |
Disciplina | 620.23 |
Collana | IISc lecture notes series |
Soggetto topico |
Noise control
Active noise and vibration control Noise Vibration |
ISBN |
1-62870-537-X
981-4434-74-4 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Dedication; Series Preface; Preface; Contents; Chapter 1 - Noise and Its Measurement; 1.1 Plane Wave Propagation; 1.2 Spherical Wave Propagation; 1.3 Decibel Level; 1.4 Frequency Analysis; 1.5 Weighted Sound Pressure Level; 1.6 Logarithmic Addition, Subtraction and Averaging; 1.7 Directivity; 1.8 Measurement of Sound Pressure Level; 1.9 Loudness; 1.10 Noise Limits in India; 1.10.1 The noise pollution (regulation and control) rules, 2000; 1.10.2 Permissible noise exposure for industrial workers; 1.10.3 Noise limit for diesel generator sets; 1.10.4 Noise limit for portable gensets
1.10.5 Noise limit for fire crackers1.10.6 Noise limit for vehicles; 1.11 Masking; 1.12 Sound Level Meter; 1.13 Microphones; 1.14 Microphone Sensitivity; 1.15 Intensity Meter; References; Problems in Chapter 1; Chapter 2 - Vibration and Its Measurement; 2.1 Vibration of Single Degree of Freedom System; 2.1.1 Free vibration; 2.1.2 Forced response; 2.2 Vibration of a Multiple Degrees of Freedom System; 2.2.1 Free response; 2.2.2 Forced response of multi-DOF system; 2.2.3 Modal expansion; 2.3 Transmissibility; 2.4 Critical Speed; 2.5 Dynamical Analogies; 2.6 Vibration of Beams and Plates 2.7 Vibration Measurement2.8 Measurement of Damping Measurement of Sound Pressure Level; 2.8.1 Logarithmic decrement method; 2.8.2 Half-power bandwidth method; References; Problems in Chapter 2; Chapter 3 - Vibration Control; 3.1 Vibration Control at the Source; 3.2 Vibration Isolators; 3.2.1 Bonded rubber springs; 3.2.2 Effect of compliant foundation; 3.2.3 Pneumatic suspension; 3.3 Dynamic Vibration Absorber (DVA); 3.4 Impedance Mismatch to Block Transmission of Vibration; 3.4.1 Viscoelastic interlayer; 3.4.2 Effect of blocking mass on longitudinal waves 3.4.3 Effect of blocking mass on flexural waves3.5 Damping Treatments for Plates; 3.5.1 Free layer damping (FLD) treatment; 3.5.2 Constrained layer damping (CLD) treatment; 3.6 Active Vibration Control; References; Problems in Chapter 3; Chapter 4 - Acoustics of Rooms, Partitions, Enclosures and Barriers; 4.1 Sound Field in a Room; 4.2 Acoustics of a Partition Wall; 4.3 Design of Acoustic Enclosures; 4.4 Noise Reduction of a Partition Wall and Enclosure; 4.5 Acoustics of Barriers; References; Problems in Chapter 4; Chapter 5 - Mufflers and Silencers; 5.1 Electro-Acoustic Modeling 5.2 Transfer Matrix Modeling5.3 Simple Expansion Chamber (SEC); 5.4 Extended Tube Expansion Chamber (ETEC); 5.5 Extended Concentric Tube Resonator (ECTR); 5.6 Plug Muffler; 5.7 Multiply Connected Muffler; 5.8 Absorptive Ducts and Mufflers; 5.9 Combination Mufflers; 5.10 Acoustic Source Characteristics of I.C. Engines; 5.11 Designing for Adequate Insertion Loss; 5.12 Mufflers for High Pressure Vents and Safety Valves; 5.13 Design of Muffler Shell and End Plates; 5.14 Helmholtz Resonators; 5.15 Active Noise Control in a Duct; 5.16 Pressure Drop Considerations; References; Problems in Chapter 5 Chapter 6 - Noise Control Strategies |
Record Nr. | UNINA-9910787694703321 |
Munjal M. L (Manchar Lal), <1945-> | ||
Hackensack, N.J., : World Scientific, c2013 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Noise and vibration control / / M.L. Munjal, Indian Institute of Science, India |
Autore | Munjal M. L (Manchar Lal), <1945-> |
Pubbl/distr/stampa | Hackensack, N.J., : World Scientific, c2013 |
Descrizione fisica | 1 online resource (xvi, 277 pages) : illustrations |
Disciplina | 620.23 |
Collana | IISc lecture notes series |
Soggetto topico |
Noise control
Active noise and vibration control Noise Vibration |
ISBN |
1-62870-537-X
981-4434-74-4 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Dedication; Series Preface; Preface; Contents; Chapter 1 - Noise and Its Measurement; 1.1 Plane Wave Propagation; 1.2 Spherical Wave Propagation; 1.3 Decibel Level; 1.4 Frequency Analysis; 1.5 Weighted Sound Pressure Level; 1.6 Logarithmic Addition, Subtraction and Averaging; 1.7 Directivity; 1.8 Measurement of Sound Pressure Level; 1.9 Loudness; 1.10 Noise Limits in India; 1.10.1 The noise pollution (regulation and control) rules, 2000; 1.10.2 Permissible noise exposure for industrial workers; 1.10.3 Noise limit for diesel generator sets; 1.10.4 Noise limit for portable gensets
1.10.5 Noise limit for fire crackers1.10.6 Noise limit for vehicles; 1.11 Masking; 1.12 Sound Level Meter; 1.13 Microphones; 1.14 Microphone Sensitivity; 1.15 Intensity Meter; References; Problems in Chapter 1; Chapter 2 - Vibration and Its Measurement; 2.1 Vibration of Single Degree of Freedom System; 2.1.1 Free vibration; 2.1.2 Forced response; 2.2 Vibration of a Multiple Degrees of Freedom System; 2.2.1 Free response; 2.2.2 Forced response of multi-DOF system; 2.2.3 Modal expansion; 2.3 Transmissibility; 2.4 Critical Speed; 2.5 Dynamical Analogies; 2.6 Vibration of Beams and Plates 2.7 Vibration Measurement2.8 Measurement of Damping Measurement of Sound Pressure Level; 2.8.1 Logarithmic decrement method; 2.8.2 Half-power bandwidth method; References; Problems in Chapter 2; Chapter 3 - Vibration Control; 3.1 Vibration Control at the Source; 3.2 Vibration Isolators; 3.2.1 Bonded rubber springs; 3.2.2 Effect of compliant foundation; 3.2.3 Pneumatic suspension; 3.3 Dynamic Vibration Absorber (DVA); 3.4 Impedance Mismatch to Block Transmission of Vibration; 3.4.1 Viscoelastic interlayer; 3.4.2 Effect of blocking mass on longitudinal waves 3.4.3 Effect of blocking mass on flexural waves3.5 Damping Treatments for Plates; 3.5.1 Free layer damping (FLD) treatment; 3.5.2 Constrained layer damping (CLD) treatment; 3.6 Active Vibration Control; References; Problems in Chapter 3; Chapter 4 - Acoustics of Rooms, Partitions, Enclosures and Barriers; 4.1 Sound Field in a Room; 4.2 Acoustics of a Partition Wall; 4.3 Design of Acoustic Enclosures; 4.4 Noise Reduction of a Partition Wall and Enclosure; 4.5 Acoustics of Barriers; References; Problems in Chapter 4; Chapter 5 - Mufflers and Silencers; 5.1 Electro-Acoustic Modeling 5.2 Transfer Matrix Modeling5.3 Simple Expansion Chamber (SEC); 5.4 Extended Tube Expansion Chamber (ETEC); 5.5 Extended Concentric Tube Resonator (ECTR); 5.6 Plug Muffler; 5.7 Multiply Connected Muffler; 5.8 Absorptive Ducts and Mufflers; 5.9 Combination Mufflers; 5.10 Acoustic Source Characteristics of I.C. Engines; 5.11 Designing for Adequate Insertion Loss; 5.12 Mufflers for High Pressure Vents and Safety Valves; 5.13 Design of Muffler Shell and End Plates; 5.14 Helmholtz Resonators; 5.15 Active Noise Control in a Duct; 5.16 Pressure Drop Considerations; References; Problems in Chapter 5 Chapter 6 - Noise Control Strategies |
Record Nr. | UNINA-9910808318503321 |
Munjal M. L (Manchar Lal), <1945-> | ||
Hackensack, N.J., : World Scientific, c2013 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|