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Acoustic Materials and Metamaterials. Instructor: Prof. Sneha Singh, Department of Mechanical Engineering, IIT Roorkee.
1083 years, 2 months
39
The study of electromagnetic and acoustic waves is an endeavor that dates back centuries. An important subdomain of this field that affects our daily life is the use of acoustic principles to control environmental noise. In this regard, acoustic materials, which are materials designed to manipulate sound wave propagation, are of prime importance. Within this field, about three decades ago, the concept of metamaterials was proposed that has created a revolution. Theoretical formulation and experiments have shown the feasibility of realizing man-made acoustic metamaterials that can manipulate waves beyond the defined limits of those found in nature. Therefore, within a time span of 15 years, acoustic materials have emerged as an active field driven by scientific discoveries and diverse application potentials in machinery noise control, frequency filtering, speech transmission technology, acoustic imaging, and cloaking. This is the first-ever organized coursework on acoustic materials with a special focus on acoustic metamaterials. This course will cover the following topics: 1) Acoustic fundamentals. 2) Theory and design principles of acoustic barrier materials, sound absorbing materials. 3) Limitations of conventional materials. 4) Principles of acoustic metamaterials. 5) Theory and design principles of membrane type metamaterials, of sonic crystals. 6) Guidelines for selecting acoustic materials. (from nptel.ac.in)
Course Currilcum
- Lecture 01 – Introduction Unlimited
- Lecture 02 – Sound Wave Propagation in Fluid I Unlimited
- Lecture 03 – Sound Wave Propagation in Fluid II Unlimited
- Lecture 04 – Sound Wave Propagation in Fluid III Unlimited
- Lecture 05 – Sound Propagation at Medium Boundaries Unlimited
- Lecture 06 – Sound Propagation at Medium Boundaries (cont.) Unlimited
- Lecture 07 – Standing Waves and Modes Unlimited
- Lecture 08 – Sound Signal Analysis Unlimited
- Lecture 09 – Sound Signal Analysis (cont.) Unlimited
- Lecture 10 – Principles of Noise Control Unlimited
- Lecture 11 – Acoustic Materials Unlimited
- Lecture 12 – Enclosures Unlimited
- Lecture 13 – Barriers Unlimited
- Lecture 14 – Enclosures and Barriers – Tutorial Unlimited
- Lecture 15 – Sound Absorbing Materials Unlimited
- Lecture 16 – Porous-Fibrous Sound Absorbers Unlimited
- Lecture 17 – Panel Sound Absorbers Unlimited
- Lecture 18 – Helmholtz Resonators Unlimited
- Lecture 19 – Tutorial on Sound Absorbers Unlimited
- Lecture 20 – Perforated Panel Absorbers Unlimited
- Lecture 21 – Microperforated Panel Absorbers 1 Unlimited
- Lecture 22 – Microperforated Panel Absorbers 2 Unlimited
- Lecture 23 – Microperforated Panel Absorbers 3 Unlimited
- Lecture 24 – Introduction to Acoustic Metamaterials Unlimited
- Lecture 25 – Introduction to Acoustic Metamaterials (cont.) Unlimited
- Lecture 26 – History of Acoustic Metamaterials Unlimited
- Lecture 27 – Applications of Acoustic Metamaterials Unlimited
- Lecture 28 – Membrane Type Acoustic Metamaterials 1 Unlimited
- Lecture 29 – Membrane Type Acoustic Metamaterials 2 Unlimited
- Lecture 30 – Membrane Type Acoustic Metamaterials 3 Unlimited
- Lecture 31 – Membrane Type Acoustic Metamaterials 4 Unlimited
- Lecture 32 – Advantages and Applications of Membrane Type AMM Unlimited
- Lecture 33 – Tutorial on Membrane Type AMM Unlimited
- Lecture 34 – Introduction to Sonic Crystals Unlimited
- Lecture 35 – Fundamentals of Crystals Unlimited
- Lecture 36 – Principle of Working of Sonic Crystals Unlimited
- Lecture 37 – Principle of Working of Sonic Crystals (cont.) Unlimited
- Lecture 38 – Tutorial on Sonic Crystals Unlimited
- Lecture 39 – More on Sonic Crystals and Conclusions Unlimited