Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties
- Author
- WIBOWO, Arief C1 ; MISRA, Manjusri1 ; PARK, Hwan-Man1 ; DRZAL, Lawrence T1 ; SCHALEK, Richard1 ; MOHANTY, Amar K2
[1] Department of Chemical Engineering and Materials Science, and Composite Materials and Structures Center, 2100 Engineering Building, Michigan State University, East Lansing, MI 48824, United States
[2] School of Packaging, 130 Packaging Building, Michigan State University, East Lansing, MI 48824, United States - Source
Composites. Part A, Applied science and manufacturing. 2006, Vol 37, Num 9, pp 1428-1433, 6 p ; ref : 21 ref
- Publisher
- Elsevier, Oxford
- Publication country
- United Kingdom
- Document type
- Article
- Language
- English
- Author keyword
- A. Cellulose acetate A. Clay B. Physico-mechanical and thermal characteristics E. Extrusion/injection/compression molding
- Keyword (fr)
- Additif Argile organique Argile Cellulose acétate Cellulose dérivé Cellulose ester organique Coefficient dilatation thermique Effet concentration Etude expérimentale Matériau composite Matériau renforcé dispersion Modèle mécanique Modélisation Montmorillonite Moulage compression Moulage extrusion Moulage injection Nanocomposite Optimisation Plastifiant Propriété mécanique Propriété thermique Propriété thermodynamique Relation mise en oeuvre propriété Renforcement mécanique Résistance traction Biocomposite
- Keyword (en)
- Additive Organic clay Clay Cellulose acetate Cellulose derivatives Cellulose organic ester Thermal expansion coefficient Concentration effect Experimental study Composite material Dispersion reinforced material Mechanical model Modeling Montmorillonite Compression molding Extrusion molding Injection molding Nanocomposite Optimization Plasticizer Mechanical properties Thermal properties Thermodynamic properties Property processing relationship Strengthening Tensile strength
- Keyword (es)
- Aditivo Arcilla orgánica Arcilla Celulosa acetato Celulosa derivado Celulosa ester orgánico Coeficiente dilatación térmica Efecto concentración Estudio experimental Material compuesto Material renforzado dispersión Modelo mecánico Modelización Montmorilonita Moldeo por compresión Moldeo por extrusión Moldeo por inyección Nanocompuesto Optimización Plastificante Propiedad mecánica Propiedad térmica Propiedad termodinámica Relación puesta en marcha propiedad Refuerzo mecánico Resistencia tracción
- Classification
- Pascal
- 001 Exact sciences and technology / 001D Applied sciences / 001D10 Polymer industry, paints, wood / 001D10A Technology of polymers / 001D10A06 Forms of application and semi-finished materials / 001D10A06H Composites
- Discipline
- Polymer industry, paints, wood
- Origin
- Inist-CNRS
- Database
- PASCAL
- INIST identifier
- 18022997
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
Access to the document
Install on your browser
DOI
10.1016/j.compositesa.2005.06.019 
https://dx.doi.org/10.1016/j.compositesa.2005.06.019
"O:13:\"PanistOpenUrl\":36:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000idc\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:33:\"10.1016\/j.compositesa.2005.06.019\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:9:\"\u0000*\u0000jtitle\";s:53:\"Composites. Part A, Applied science and manufacturing\";s:9:\"\u0000*\u0000stitle\";s:32:\"Compos., Part A Appl. sci. manuf\";s:7:\"\u0000*\u0000date\";s:4:\"2006\";s:9:\"\u0000*\u0000volume\";s:2:\"37\";s:8:\"\u0000*\u0000issue\";s:1:\"9\";s:8:\"\u0000*\u0000spage\";s:4:\"1428\";s:8:\"\u0000*\u0000epage\";s:4:\"1433\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"1359-835X\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"WIBOWO\";s:10:\"\u0000*\u0000aufirst\";s:7:\"Arief C\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:5:{i:0;s:15:\"MISRA, Manjusri\";i:1;s:14:\"PARK, Hwan-Man\";i:2;s:17:\"DRZAL, Lawrence T\";i:3;s:16:\"SCHALEK, Richard\";i:4;s:15:\"MOHANTY, Amar K\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:8:\"\u0000*\u0000place\";s:6:\"Oxford\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Panist access
"O:12:\"IstexOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:33:\"10.1016\/j.compositesa.2005.06.019\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:9:\"\u0000*\u0000jtitle\";s:53:\"Composites. Part A, Applied science and manufacturing\";s:9:\"\u0000*\u0000stitle\";s:32:\"Compos., Part A Appl. sci. manuf\";s:7:\"\u0000*\u0000date\";s:4:\"2006\";s:9:\"\u0000*\u0000volume\";s:2:\"37\";s:8:\"\u0000*\u0000issue\";s:1:\"9\";s:8:\"\u0000*\u0000spage\";s:4:\"1428\";s:8:\"\u0000*\u0000epage\";s:4:\"1433\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"1359-835X\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"WIBOWO\";s:10:\"\u0000*\u0000aufirst\";s:7:\"Arief C\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:5:{i:0;s:15:\"MISRA, Manjusri\";i:1;s:14:\"PARK, Hwan-Man\";i:2;s:17:\"DRZAL, Lawrence T\";i:3;s:16:\"SCHALEK, Richard\";i:4;s:15:\"MOHANTY, Amar K\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:8:\"\u0000*\u0000place\";s:6:\"Oxford\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Istex access
"O:16:\"UnpaywallOpenUrl\":35:{s:8:\"\u0000*\u0000email\";s:27:\"assistance-portail@inist.fr\";s:6:\"\u0000*\u0000fmt\";N;s:6:\"\u0000*\u0000doi\";s:33:\"10.1016\/j.compositesa.2005.06.019\";s:6:\"\u0000*\u0000pii\";N;s:7:\"\u0000*\u0000pmid\";N;s:9:\"\u0000*\u0000atitle\";N;s:9:\"\u0000*\u0000jtitle\";N;s:9:\"\u0000*\u0000stitle\";N;s:7:\"\u0000*\u0000date\";N;s:9:\"\u0000*\u0000volume\";N;s:8:\"\u0000*\u0000issue\";N;s:8:\"\u0000*\u0000spage\";N;s:8:\"\u0000*\u0000epage\";N;s:8:\"\u0000*\u0000pages\";N;s:7:\"\u0000*\u0000issn\";N;s:8:\"\u0000*\u0000eissn\";N;s:9:\"\u0000*\u0000aulast\";N;s:10:\"\u0000*\u0000aufirst\";N;s:9:\"\u0000*\u0000auinit\";N;s:10:\"\u0000*\u0000auinitm\";N;s:5:\"\u0000*\u0000au\";N;s:9:\"\u0000*\u0000aucorp\";N;s:7:\"\u0000*\u0000isbn\";N;s:8:\"\u0000*\u0000coden\";N;s:8:\"\u0000*\u0000genre\";N;s:7:\"\u0000*\u0000part\";N;s:9:\"\u0000*\u0000btitle\";N;s:8:\"\u0000*\u0000title\";N;s:8:\"\u0000*\u0000place\";N;s:6:\"\u0000*\u0000pub\";N;s:10:\"\u0000*\u0000edition\";N;s:9:\"\u0000*\u0000tpages\";N;s:9:\"\u0000*\u0000series\";N;s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";N;}"
Unpaywall access
"O:16:\"EuropePMCOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:33:\"10.1016\/j.compositesa.2005.06.019\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:9:\"\u0000*\u0000jtitle\";s:53:\"Composites. Part A, Applied science and manufacturing\";s:9:\"\u0000*\u0000stitle\";s:32:\"Compos., Part A Appl. sci. manuf\";s:7:\"\u0000*\u0000date\";s:4:\"2006\";s:9:\"\u0000*\u0000volume\";s:2:\"37\";s:8:\"\u0000*\u0000issue\";s:1:\"9\";s:8:\"\u0000*\u0000spage\";s:4:\"1428\";s:8:\"\u0000*\u0000epage\";s:4:\"1433\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"1359-835X\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"WIBOWO\";s:10:\"\u0000*\u0000aufirst\";s:7:\"Arief C\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:5:{i:0;s:15:\"MISRA, Manjusri\";i:1;s:14:\"PARK, Hwan-Man\";i:2;s:17:\"DRZAL, Lawrence T\";i:3;s:16:\"SCHALEK, Richard\";i:4;s:15:\"MOHANTY, Amar K\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:8:\"\u0000*\u0000place\";s:6:\"Oxford\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Europe PubMed Central access
"O:11:\"BaseOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:33:\"10.1016\/j.compositesa.2005.06.019\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:9:\"\u0000*\u0000jtitle\";s:53:\"Composites. Part A, Applied science and manufacturing\";s:9:\"\u0000*\u0000stitle\";s:32:\"Compos., Part A Appl. sci. manuf\";s:7:\"\u0000*\u0000date\";s:4:\"2006\";s:9:\"\u0000*\u0000volume\";s:2:\"37\";s:8:\"\u0000*\u0000issue\";s:1:\"9\";s:8:\"\u0000*\u0000spage\";s:4:\"1428\";s:8:\"\u0000*\u0000epage\";s:4:\"1433\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"1359-835X\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"WIBOWO\";s:10:\"\u0000*\u0000aufirst\";s:7:\"Arief C\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:5:{i:0;s:15:\"MISRA, Manjusri\";i:1;s:14:\"PARK, Hwan-Man\";i:2;s:17:\"DRZAL, Lawrence T\";i:3;s:16:\"SCHALEK, Richard\";i:4;s:15:\"MOHANTY, Amar K\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:8:\"\u0000*\u0000place\";s:6:\"Oxford\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
Base Search access
"O:12:\"ArXivOpenUrl\":35:{s:10:\"\u0000*\u0000openUrl\";N;s:6:\"\u0000*\u0000fmt\";s:7:\"journal\";s:6:\"\u0000*\u0000doi\";s:33:\"10.1016\/j.compositesa.2005.06.019\";s:6:\"\u0000*\u0000pii\";s:0:\"\";s:7:\"\u0000*\u0000pmid\";s:0:\"\";s:9:\"\u0000*\u0000atitle\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:9:\"\u0000*\u0000jtitle\";s:53:\"Composites. Part A, Applied science and manufacturing\";s:9:\"\u0000*\u0000stitle\";s:32:\"Compos., Part A Appl. sci. manuf\";s:7:\"\u0000*\u0000date\";s:4:\"2006\";s:9:\"\u0000*\u0000volume\";s:2:\"37\";s:8:\"\u0000*\u0000issue\";s:1:\"9\";s:8:\"\u0000*\u0000spage\";s:4:\"1428\";s:8:\"\u0000*\u0000epage\";s:4:\"1433\";s:8:\"\u0000*\u0000pages\";s:0:\"\";s:7:\"\u0000*\u0000issn\";s:9:\"1359-835X\";s:8:\"\u0000*\u0000eissn\";s:0:\"\";s:9:\"\u0000*\u0000aulast\";s:6:\"WIBOWO\";s:10:\"\u0000*\u0000aufirst\";s:7:\"Arief C\";s:9:\"\u0000*\u0000auinit\";s:0:\"\";s:10:\"\u0000*\u0000auinitm\";s:0:\"\";s:5:\"\u0000*\u0000au\";a:5:{i:0;s:15:\"MISRA, Manjusri\";i:1;s:14:\"PARK, Hwan-Man\";i:2;s:17:\"DRZAL, Lawrence T\";i:3;s:16:\"SCHALEK, Richard\";i:4;s:15:\"MOHANTY, Amar K\";}s:9:\"\u0000*\u0000aucorp\";s:0:\"\";s:7:\"\u0000*\u0000isbn\";s:0:\"\";s:8:\"\u0000*\u0000coden\";s:0:\"\";s:8:\"\u0000*\u0000genre\";s:7:\"article\";s:7:\"\u0000*\u0000part\";s:0:\"\";s:9:\"\u0000*\u0000btitle\";s:0:\"\";s:8:\"\u0000*\u0000title\";s:103:\"Biodegradable nanocomposites from cellulose acetate : Mechanical, morphological, and thermal properties\";s:8:\"\u0000*\u0000place\";s:6:\"Oxford\";s:6:\"\u0000*\u0000pub\";s:8:\"Elsevier\";s:10:\"\u0000*\u0000edition\";s:0:\"\";s:9:\"\u0000*\u0000tpages\";s:1:\"6\";s:9:\"\u0000*\u0000series\";s:0:\"\";s:8:\"\u0000*\u0000proxy\";s:30:\"http:\/\/proxyout.inist.fr:8080\/\";s:12:\"\u0000*\u0000integrite\";b:1;}"
arXiv access
