Search preferences
Skip to main search results

Search filters

Product Type

  • All Product Types 
  • Books (1)
  • Magazines & Periodicals (No further results match this refinement)
  • Comics (No further results match this refinement)
  • Sheet Music (No further results match this refinement)
  • Art, Prints & Posters (No further results match this refinement)
  • Photographs (No further results match this refinement)
  • Maps (No further results match this refinement)
  • Manuscripts & Paper Collectibles (No further results match this refinement)

Condition Learn more

  • New (1)
  • As New, Fine or Near Fine (No further results match this refinement)
  • Very Good or Good (No further results match this refinement)
  • Fair or Poor (No further results match this refinement)
  • As Described (No further results match this refinement)

Binding

Collectible Attributes

Language (1)

Price

  • Any Price 
  • Under US$ 25 (No further results match this refinement)
  • US$ 25 to US$ 50 (No further results match this refinement)
  • Over US$ 50 
Custom price range (US$)

Free Shipping

  • Free Shipping to U.S.A. (No further results match this refinement)

Seller Location

  • Harbinde Singh

    Language: English

    Published by Elsevier Inc Mai 2025, 2025

    ISBN 10: 0443291624 ISBN 13: 9780443291623

    Seller: AHA-BUCH GmbH, Einbeck, Germany

    Seller rating 5 out of 5 stars 5-star rating, Learn more about seller ratings

    Contact seller

    US$ 549.16

    US$ 72.69 shipping
    Ships from Germany to U.S.A.

    Quantity: 2 available

    Add to basket

    Taschenbuch. Condition: Neu. Neuware - Metaheuristics-Based Materials Optimization: Enhancing Materials Applications provides a guide to using metaheuristics-based computational techniques to improve the design, performance, and broaden the applications of various materials. The book fuses optimization algorithms with materials engineering, enabling more accurate simulations and models for analyzing and predicting the behavior of materials under different conditions, allowing for design of materials with improved performance, durability, energy efficiency, cost-effectiveness, and other desired characteristics. Metaheuristic approaches for material synthesis and design, structural optimization, material characterization, property prediction, and process optimization are all covered, as are comparisons of different algorithms, step-by-step guidelines on how to implement them, and case studies of them being applied in real-world settings.