4.5 Article

Structural optimization for nonlinear dynamic response

出版社

ROYAL SOC
DOI: 10.1098/rsta.2014.0408

关键词

shape optimization; adjoint method; normal form; internal resonance; nonlinear normal mode

资金

  1. ERC [279529 INNODYN]
  2. US NSF [1234067]
  3. DARPA-MTO-DEFYS
  4. EPSRC [EP/K003836/1] Funding Source: UKRI
  5. Engineering and Physical Sciences Research Council [EP/K003836/1] Funding Source: researchfish
  6. Directorate For Engineering
  7. Div Of Civil, Mechanical, & Manufact Inn [1234067] Funding Source: National Science Foundation

向作者/读者索取更多资源

Much is known about the nonlinear resonant response of mechanical systems, but methods for the systematic design of structures that optimize aspects of these responses have received little attention. Progress in this area is particularly important in the area of micro-systems, where nonlinear resonant behaviour is being used for a variety of applications in sensing and signal conditioning. In this work, we describe a computational method that provides a systematic means for manipulating and optimizing features of nonlinear resonant responses of mechanical structures that are described by a single vibrating mode, or by a pair of internally resonant modes. The approach combines techniques from nonlinear dynamics, computational mechanics and optimization, and it allows one to relate the geometric and material properties of structural elements to terms in the normal form for a given resonance condition, thereby providing a means for tailoring its nonlinear response. The method is applied to the fundamental nonlinear resonance of a clamped-clamped beam and to the coupled mode response of a frame structure, and the results show that one can modify essential normal form coefficients by an order of magnitude by relatively simple changes in the shape of these elements. We expect the proposed approach, and its extensions, to be useful for the design of systems used for fundamental studies of nonlinear behaviour as well as for the development of commercial devices that exploit nonlinear behaviour.

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