SYNTHESIS AND CHARACTERIZATION OF MELTING COPOLY(LACTIC-GLYCOLIC ACID)

Cheng Yan-Ling; M. A. Liu-Qiang; Feng Shu-Hua; L. I. Ruo-Hui; Shaobo Deng

SYNTHESIS AND CHARACTERIZATION OF MELTING COPOLY(LACTIC-GLYCOLIC ACID)

Cheng Yan-Ling, M. A. Liu-Qiang, Feng Shu-Hua, L. I. Ruo-Hui, Shaobo Deng

Southern Research and Outreach Center

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

Lactic-glycolic acid polymer composite (PLGA) combined their respective advantages of poly(lactic acid) and poly(glycolic acid), meanwhile developed some new functions such as better controlled biodegradation, mechanic features, physics and chemistry and so on. Poly (lactic-glycolic Acid) were synthesized directly by melting polymerization with lactic acid and glycolic acid as monomers. The paper shows the influence factors on copolymer intrinsic viscosity including polymerization time, catalyst category, mixing speed, monomer ratio. The optimum reaction conditions are: the ratio of LA/GA 1:1, reaction time 10 hours, catalyst stannous chloride, stirred speed 200r/min. The structure, appearance and biodegradation of copolymer are characterized.

Original language	English (US)
Title of host publication	Encyclopedia of Polymer Composites
Subtitle of host publication	Properties, Performance and Applications
Publisher	Nova Science Publishers, Inc.
Pages	1173-1179
Number of pages	7
ISBN (Electronic)	9781611224764
ISBN (Print)	9781607417170
State	Published - Jan 1 2020

Bibliographical note

Publisher Copyright:
© 2010 by Nova Science Publishers, Inc.

Keywords

Biodegradation
Melting polymerization
Poly (lactic-glycolic acid)

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AU - Yan-Ling, Cheng

AU - Liu-Qiang, M. A.

AU - Shu-Hua, Feng

AU - Ruo-Hui, L. I.

AU - Deng, Shaobo

PY - 2020/1/1

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N2 - Lactic-glycolic acid polymer composite (PLGA) combined their respective advantages of poly(lactic acid) and poly(glycolic acid), meanwhile developed some new functions such as better controlled biodegradation, mechanic features, physics and chemistry and so on. Poly (lactic-glycolic Acid) were synthesized directly by melting polymerization with lactic acid and glycolic acid as monomers. The paper shows the influence factors on copolymer intrinsic viscosity including polymerization time, catalyst category, mixing speed, monomer ratio. The optimum reaction conditions are: the ratio of LA/GA 1:1, reaction time 10 hours, catalyst stannous chloride, stirred speed 200r/min. The structure, appearance and biodegradation of copolymer are characterized.

AB - Lactic-glycolic acid polymer composite (PLGA) combined their respective advantages of poly(lactic acid) and poly(glycolic acid), meanwhile developed some new functions such as better controlled biodegradation, mechanic features, physics and chemistry and so on. Poly (lactic-glycolic Acid) were synthesized directly by melting polymerization with lactic acid and glycolic acid as monomers. The paper shows the influence factors on copolymer intrinsic viscosity including polymerization time, catalyst category, mixing speed, monomer ratio. The optimum reaction conditions are: the ratio of LA/GA 1:1, reaction time 10 hours, catalyst stannous chloride, stirred speed 200r/min. The structure, appearance and biodegradation of copolymer are characterized.

KW - Biodegradation

KW - Melting polymerization

KW - Poly (lactic-glycolic acid)

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SYNTHESIS AND CHARACTERIZATION OF MELTING COPOLY(LACTIC-GLYCOLIC ACID)

Abstract

Bibliographical note

Keywords

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