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- March 2025
- 192 Pages
Global
From €3370EUR$3,545USD£2,831GBP
€3745EUR$3,939USD£3,146GBP
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- August 2024
- 150 Pages
Global
From €4706EUR$4,950USD£3,953GBP
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- June 2024
- 183 Pages
Global
From €4278EUR$4,500USD£3,594GBP
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- October 2024
- 195 Pages
Global
From €3370EUR$3,545USD£2,831GBP
€3745EUR$3,939USD£3,146GBP
- Report
- February 2023
- 194 Pages
Global
From €4706EUR$4,950USD£3,953GBP
- Report
- December 2023
- 159 Pages
Global
From €2353EUR$2,475USD£1,977GBP
€4706EUR$4,950USD£3,953GBP
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- January 2024
- 150 Pages
Global
From €4611EUR$4,850USD£3,873GBP
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- November 2021
- 64 Pages
Global
From €1421EUR$1,495USD£1,194GBP
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- November 2024
- 568 Pages
Global
From €2524EUR$2,655USD£2,120GBP
- Book
- October 2018
- 542 Pages
Material Informatics is a field of advanced materials that focuses on the use of data-driven approaches to optimize the design, development, and production of materials. It combines data science, materials science, and engineering to create a comprehensive understanding of materials and their properties. This understanding is used to develop new materials, improve existing materials, and optimize the production process.
Material Informatics is used in a variety of industries, including automotive, aerospace, energy, and medical. It is used to develop new materials for specific applications, such as lightweight materials for automotive applications or materials with improved thermal properties for energy applications. It is also used to optimize the production process, such as reducing waste and improving efficiency.
Companies in the Material Informatics market include Citrine Informatics, Granta Design, and Materials Design. Show Less Read more
