Add to ORKGPolylactide (PLA), a biopolymer, was reinforced with three fillers (two organic reinforcements and one inorganic filler). The processing technique used to fabricate the composites was the melt-blending technique. The composites and the unreinforced PLA were subjected to microhardness, compression and biodegradation characterisations. Data obtained are presented in this article as raw data. Data from microhardness and compression tests were used to predict the fracture toughness. The biodegradation of the composites was also examined, and the data obtained reported in this article. The data presented in this article allow for a comprehensive understanding of the mechanical behaviour and the biodegradation profile of three composites of PLA w...
transition temperature of polylactic acid-based biocomposite MR Kaiser1, H Anuar1 and SBA Razak2 Alm...
Polylactides (PLAs) have been vastly studied for biomedical engineering applications, but their rigi...
AbstractBiodegradable polymers such as poly(lactic) acid (PLA) have been studied for biomaterials ap...
Polylactide (PLA), a biopolymer, was reinforced with three fillers (two organic reinforcements and o...
Abstract only availableAn active area of research in the biomedical implant field is poly lactic aci...
Three-dimensional (3D) printable scaffolds are advantageous for their ability to be custom made to f...
Polylactide (PLA) was melt blended with poly(butylene carbonate) (PBC) in an effort to improve the t...
Despite the recent development in PLA and PLGA based medical devices, there are still needs to furth...
In attempts to address the growing need of materials with controlled degradation characteristics and...
Biopolymers are utilized extensively in the medical field. The production of biodegradable bone scre...
Many thermoplastic biocomposites made with non-biodegradable polymers as a matrix polymer are not bi...
The aim of this chapter is to introduce to the use and possible applications of polylactide‐based co...
The motive of this study is to lessen the dependence on non-degradable plastic packaging by developi...
Poly(lactic-co-glycolic) acid (PLGA) has attracted considerable interest as a base material for biom...
Author name used in this publication: Hoi-Yan CheungAuthor name used in this publication: Kin-Tak La...
transition temperature of polylactic acid-based biocomposite MR Kaiser1, H Anuar1 and SBA Razak2 Alm...
Polylactides (PLAs) have been vastly studied for biomedical engineering applications, but their rigi...
AbstractBiodegradable polymers such as poly(lactic) acid (PLA) have been studied for biomaterials ap...
Polylactide (PLA), a biopolymer, was reinforced with three fillers (two organic reinforcements and o...
Abstract only availableAn active area of research in the biomedical implant field is poly lactic aci...
Three-dimensional (3D) printable scaffolds are advantageous for their ability to be custom made to f...
Polylactide (PLA) was melt blended with poly(butylene carbonate) (PBC) in an effort to improve the t...
Despite the recent development in PLA and PLGA based medical devices, there are still needs to furth...
In attempts to address the growing need of materials with controlled degradation characteristics and...
Biopolymers are utilized extensively in the medical field. The production of biodegradable bone scre...
Many thermoplastic biocomposites made with non-biodegradable polymers as a matrix polymer are not bi...
The aim of this chapter is to introduce to the use and possible applications of polylactide‐based co...
The motive of this study is to lessen the dependence on non-degradable plastic packaging by developi...
Poly(lactic-co-glycolic) acid (PLGA) has attracted considerable interest as a base material for biom...
Author name used in this publication: Hoi-Yan CheungAuthor name used in this publication: Kin-Tak La...
transition temperature of polylactic acid-based biocomposite MR Kaiser1, H Anuar1 and SBA Razak2 Alm...
Polylactides (PLAs) have been vastly studied for biomedical engineering applications, but their rigi...
AbstractBiodegradable polymers such as poly(lactic) acid (PLA) have been studied for biomaterials ap...