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Nanocellular Polymers : From Microscale to Nanoscale / Judith Martín de León, Victoria Bernardo García, Miguel Angel Rodríguez Pérez.

By: Contributor(s): Material type: TextLanguage: Publisher: Berlin Boston De Gruyter, [2023]Copyright date: ©2024Description: 1 online resource (IX, 205 p.)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9783110756135
Subject(s): Additional physical formats: No title; No titleOnline resources: Available additional physical forms:
  • Issued also in print.
Contents:
Frontmatter -- Acknowledgments -- Contents -- Chapter 1. Introduction -- Chapter 2. Fundamentals -- Chapter 3. From the microscale to the nanoscale in cellular materials production process -- Chapter 4. Optical properties -- Chapter 5. Thermal conductivity -- Chapter 6. Mechanical properties -- Chapter 7. Surface area -- Chapter 8. Other properties -- Chapter 9. Applications of nanocellular polymers and future trends -- Index
Title is part of eBook package: eBook Package Physics, Chemistry, Industrial Chemistry, Materials Sciences, Geosciences 2023 / eBook-Paket Physik, Chemie, Industrielle Chemie, Materialwissenschaft, Geowissenschaften 2023 De GruyterTitle is part of eBook package: eBook Package Complete 2023 / eBook-Paket Gesamt 2023 De GruyterTitle is part of eBook package: eBook Package Physics, Chemistry, Industrial Chemistry, Materials Sciences, Geosciences 2023 English / eBook-Paket Physik, Chemie, Industrielle Chemie, Materialwissenschaft, Geowissenschaften 2023 Englisch De GruyterTitle is part of eBook package: eBook Package Complete 2023 English / eBook-Paket Gesamt 2023 Englisch De GruyterTitle is part of eBook package: DG Plus DeG Package 2024 Part 1 De GruyterTitle is part of eBook package: EBOOK PACKAGE Physical and Material Sciences, Chemistry 2023 DGB - ALL LANG De GruyterTitle is part of eBook package: EBOOK PACKAGE Physical and Material Sciences, Chemistry 2023 DGB - ENG De GruyterSummary: The book covers production, structure, properties and potential applications of nanocellular polymers fabricated by using foaming methods. These materials are porous materials with pore sizes in the nanometer range, processed as bulk or film materials, from a wide set of polymers. Reduction of pore size to the nanoscale drastically modifies important properties such as thermal conductivity, optical properties, mechanical properties and specific surface area among others providing improved properties and promising applications for these materials in automotive, aeronautic, renewable energies, construction, filtration or thermal insulation.
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Electronic Books CUTN Central Library Link to resource Available EB04733

Frontmatter -- Acknowledgments -- Contents -- Chapter 1. Introduction -- Chapter 2. Fundamentals -- Chapter 3. From the microscale to the nanoscale in cellular materials production process -- Chapter 4. Optical properties -- Chapter 5. Thermal conductivity -- Chapter 6. Mechanical properties -- Chapter 7. Surface area -- Chapter 8. Other properties -- Chapter 9. Applications of nanocellular polymers and future trends -- Index

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http://purl.org/coar/access_right/c_16ec

The book covers production, structure, properties and potential applications of nanocellular polymers fabricated by using foaming methods. These materials are porous materials with pore sizes in the nanometer range, processed as bulk or film materials, from a wide set of polymers. Reduction of pore size to the nanoscale drastically modifies important properties such as thermal conductivity, optical properties, mechanical properties and specific surface area among others providing improved properties and promising applications for these materials in automotive, aeronautic, renewable energies, construction, filtration or thermal insulation.

Issued also in print.

The accessibility of this resources in unknown or unassessed.

Mode of access: Internet via World Wide Web.

Miguel Angel Rodríguez Pérez, Judith Martín de León, Univ. of Valladolid, Spain; Victoria Bernardo García, CellMat Technologies, Spain.

In English.

Description based on online resource; title from PDF title page (publisher's Web site, viewed March 03 2026)

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