STABILITAS TERMAL GALERI CLAY PADA KOMPOSIT NANO POLIPROPILENA-CLAY MONTMORILLONIT DENGAN PENGKOMPATIBEL POLIPROPILENA-g-MALEIK ANHIDIRIDA

Sotya Astutiningsih; Pandu Lanang Kinasih; Arief Cahyo  Wibowo

doi:10.7454/mst.v13i1.491

STABILITAS TERMAL GALERI CLAY PADA KOMPOSIT NANO POLIPROPILENA-CLAY MONTMORILLONIT DENGAN PENGKOMPATIBEL POLIPROPILENA-g-MALEIK ANHIDIRIDA

Translated title of the contribution: Thermal Stability of Clay's Galleries in Polypropylene - Clay (montmorillonite) Nanocomposites using Polypropylene-gMaleic Anhydride as Compatibilizer

Sotya Astutiningsih, Pandu Lanang Kinasih, Arief Cahyo Wibowo

Department of Metallurgical and Material Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Thermal Stability of Clay's Galleries in Polypropylene - Clay (montmorillonite) Nanocomposites using Polypropylene-g- Maleic Anhydride as Compatibilizer. Superior properties of food packaging can be achieved using nanocomposite technology. However, fabrication of this materials are complex and expensive. Long term objectives of this research is the synthesis of low cost polypropylene clay nanocomposites (PPCN) via a short-cut method known as ‘cascade engineering’. Cascade engineering principle in PPCN fabrication is performed by using compatibilizer (to enable the mixing of PP and clay) masterbatch, and PPCN in one pot process using melt mixer. This paper present the experimental results using small-angle x-ray diffraction (XRD) on the thermal stability of the PPCN. Results from the XRD analysis showed that the clay was intercalated, however no significant changes were observed as a result of variation in mixing time. XRD patterns of the annealed PPCN showed reduction of MMT’s gallery (deintercalation) These phenomenon was probably caused by insufficient bonding and lack of compatibility between PP-g-MA and MMT.

Translated title of the contribution	Thermal Stability of Clay's Galleries in Polypropylene - Clay (montmorillonite) Nanocomposites using Polypropylene-gMaleic Anhydride as Compatibilizer
Original language	Indonesian
Journal	MAKARA Journal of Technology Series
Volume	13
Issue number	1
DOIs	https://doi.org/10.7454/mst.v13i1.491 https://doi.org/10.7454/mst.v13i1.491
Publication status	Published - 1 Apr 2009

Keywords

cascade engineering
polypropylene clay nanocomposite
PP-g-MA
thermal stability

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https://scholarhub.ui.ac.id/context/mjt/article/1120/viewcontent

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@article{354a83d465654b698cb255a6e831145f,

title = "STABILITAS TERMAL GALERI CLAY PADA KOMPOSIT NANO POLIPROPILENA-CLAY MONTMORILLONIT DENGAN PENGKOMPATIBEL POLIPROPILENA-g-MALEIK ANHIDIRIDA",

abstract = "Thermal Stability of Clay's Galleries in Polypropylene - Clay (montmorillonite) Nanocomposites using Polypropylene-g- Maleic Anhydride as Compatibilizer. Superior properties of food packaging can be achieved using nanocomposite technology. However, fabrication of this materials are complex and expensive. Long term objectives of this research is the synthesis of low cost polypropylene clay nanocomposites (PPCN) via a short-cut method known as {\textquoteleft}cascade engineering{\textquoteright}. Cascade engineering principle in PPCN fabrication is performed by using compatibilizer (to enable the mixing of PP and clay) masterbatch, and PPCN in one pot process using melt mixer. This paper present the experimental results using small-angle x-ray diffraction (XRD) on the thermal stability of the PPCN. Results from the XRD analysis showed that the clay was intercalated, however no significant changes were observed as a result of variation in mixing time. XRD patterns of the annealed PPCN showed reduction of MMT{\textquoteright}s gallery (deintercalation) These phenomenon was probably caused by insufficient bonding and lack of compatibility between PP-g-MA and MMT. ",

keywords = "cascade engineering, polypropylene clay nanocomposite, PP-g-MA, thermal stability",

author = "Sotya Astutiningsih and Kinasih, {Pandu Lanang} and Wibowo, {Arief Cahyo}",

year = "2009",

month = apr,

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doi = "10.7454/mst.v13i1.491",

language = "Indonesian",

volume = "13",

journal = "Makara Journal of Technology",

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T1 - STABILITAS TERMAL GALERI CLAY PADA KOMPOSIT NANO POLIPROPILENA-CLAY MONTMORILLONIT DENGAN PENGKOMPATIBEL POLIPROPILENA-g-MALEIK ANHIDIRIDA

AU - Astutiningsih, Sotya

AU - Kinasih, Pandu Lanang

AU - Wibowo, Arief Cahyo

PY - 2009/4/1

Y1 - 2009/4/1

N2 - Thermal Stability of Clay's Galleries in Polypropylene - Clay (montmorillonite) Nanocomposites using Polypropylene-g- Maleic Anhydride as Compatibilizer. Superior properties of food packaging can be achieved using nanocomposite technology. However, fabrication of this materials are complex and expensive. Long term objectives of this research is the synthesis of low cost polypropylene clay nanocomposites (PPCN) via a short-cut method known as ‘cascade engineering’. Cascade engineering principle in PPCN fabrication is performed by using compatibilizer (to enable the mixing of PP and clay) masterbatch, and PPCN in one pot process using melt mixer. This paper present the experimental results using small-angle x-ray diffraction (XRD) on the thermal stability of the PPCN. Results from the XRD analysis showed that the clay was intercalated, however no significant changes were observed as a result of variation in mixing time. XRD patterns of the annealed PPCN showed reduction of MMT’s gallery (deintercalation) These phenomenon was probably caused by insufficient bonding and lack of compatibility between PP-g-MA and MMT.

AB - Thermal Stability of Clay's Galleries in Polypropylene - Clay (montmorillonite) Nanocomposites using Polypropylene-g- Maleic Anhydride as Compatibilizer. Superior properties of food packaging can be achieved using nanocomposite technology. However, fabrication of this materials are complex and expensive. Long term objectives of this research is the synthesis of low cost polypropylene clay nanocomposites (PPCN) via a short-cut method known as ‘cascade engineering’. Cascade engineering principle in PPCN fabrication is performed by using compatibilizer (to enable the mixing of PP and clay) masterbatch, and PPCN in one pot process using melt mixer. This paper present the experimental results using small-angle x-ray diffraction (XRD) on the thermal stability of the PPCN. Results from the XRD analysis showed that the clay was intercalated, however no significant changes were observed as a result of variation in mixing time. XRD patterns of the annealed PPCN showed reduction of MMT’s gallery (deintercalation) These phenomenon was probably caused by insufficient bonding and lack of compatibility between PP-g-MA and MMT.

KW - cascade engineering

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KW - PP-g-MA

KW - thermal stability

UR - http://journal.ui.ac.id/index.php/technology/article/view/491

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DO - 10.7454/mst.v13i1.491

M3 - Article

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STABILITAS TERMAL GALERI CLAY PADA KOMPOSIT NANO POLIPROPILENA-CLAY MONTMORILLONIT DENGAN PENGKOMPATIBEL POLIPROPILENA-g-MALEIK ANHIDIRIDA

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