Materials Banking and Resource Repletion, Role of Buildings, and Materials Passports

Publikation: Beiträge in SammelwerkenLexikonbeiträgeForschung

Standard

Materials Banking and Resource Repletion, Role of Buildings, and Materials Passports. / Braungart, Michael; Mulhall, Douglas; Hansen, Katja.
The Springer Encyclopedia of Sustainability Science and Technology. Hrsg. / Robert A. Meyers. New York: Springer, 2012.

Publikation: Beiträge in SammelwerkenLexikonbeiträgeForschung

Harvard

Braungart, M, Mulhall, D & Hansen, K 2012, Materials Banking and Resource Repletion, Role of Buildings, and Materials Passports. in RA Meyers (Hrsg.), The Springer Encyclopedia of Sustainability Science and Technology. Springer, New York. https://doi.org/10.1007/978-1-4939-2493-6_420-3

APA

Braungart, M., Mulhall, D., & Hansen, K. (2012). Materials Banking and Resource Repletion, Role of Buildings, and Materials Passports. In R. A. Meyers (Hrsg.), The Springer Encyclopedia of Sustainability Science and Technology Springer. https://doi.org/10.1007/978-1-4939-2493-6_420-3

Vancouver

Braungart M, Mulhall D, Hansen K. Materials Banking and Resource Repletion, Role of Buildings, and Materials Passports. in Meyers RA, Hrsg., The Springer Encyclopedia of Sustainability Science and Technology. New York: Springer. 2012 doi: 10.1007/978-1-4939-2493-6_420-3

Bibtex

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title = "Materials Banking and Resource Repletion, Role of Buildings, and Materials Passports",
abstract = "Improving the approach to materials and products sometimes requires revising traditional terminology. In the approach described here, usage of certain terms differs from traditional definitions, to account for innovative features of materials and products.Biobased vs. biodegradable Many biobased products such as biopolymers are not necessarily safely biodegradable because they contain additives such as heavy metals or are combined with nonbiodegradable materials. As well, petroleum-based products that are not biobased can be biodegradable. So it is important to distinguish these features to develop an effective defined-use pathway for materials. Especially, it is important to evaluate biobased and biodegradable in the context of the intended use of the material, e.g., if it is intended for a biosphere or technosphere pathway. For example, many materials designed for single use before disposal in a biosphere pathway and defined as biodegradable, such as cups, do not...",
keywords = "Sustainability Science",
author = "Michael Braungart and Douglas Mulhall and Katja Hansen",
year = "2012",
doi = "10.1007/978-1-4939-2493-6_420-3",
language = "English",
editor = "Meyers, {Robert A. }",
booktitle = "The Springer Encyclopedia of Sustainability Science and Technology",
publisher = "Springer",
address = "Germany",

}

RIS

TY - CHAP

T1 - Materials Banking and Resource Repletion, Role of Buildings, and Materials Passports

AU - Braungart, Michael

AU - Mulhall, Douglas

AU - Hansen, Katja

PY - 2012

Y1 - 2012

N2 - Improving the approach to materials and products sometimes requires revising traditional terminology. In the approach described here, usage of certain terms differs from traditional definitions, to account for innovative features of materials and products.Biobased vs. biodegradable Many biobased products such as biopolymers are not necessarily safely biodegradable because they contain additives such as heavy metals or are combined with nonbiodegradable materials. As well, petroleum-based products that are not biobased can be biodegradable. So it is important to distinguish these features to develop an effective defined-use pathway for materials. Especially, it is important to evaluate biobased and biodegradable in the context of the intended use of the material, e.g., if it is intended for a biosphere or technosphere pathway. For example, many materials designed for single use before disposal in a biosphere pathway and defined as biodegradable, such as cups, do not...

AB - Improving the approach to materials and products sometimes requires revising traditional terminology. In the approach described here, usage of certain terms differs from traditional definitions, to account for innovative features of materials and products.Biobased vs. biodegradable Many biobased products such as biopolymers are not necessarily safely biodegradable because they contain additives such as heavy metals or are combined with nonbiodegradable materials. As well, petroleum-based products that are not biobased can be biodegradable. So it is important to distinguish these features to develop an effective defined-use pathway for materials. Especially, it is important to evaluate biobased and biodegradable in the context of the intended use of the material, e.g., if it is intended for a biosphere or technosphere pathway. For example, many materials designed for single use before disposal in a biosphere pathway and defined as biodegradable, such as cups, do not...

KW - Sustainability Science

U2 - 10.1007/978-1-4939-2493-6_420-3

DO - 10.1007/978-1-4939-2493-6_420-3

M3 - Articles for encyclopedia

BT - The Springer Encyclopedia of Sustainability Science and Technology

A2 - Meyers, Robert A.

PB - Springer

CY - New York

ER -

DOI