A review of the techniques used to characterize laser sintering of polymeric powders for use and re-use in additive manufacturing

Additive manufacturing (AM), is one of the key components of the 4th industrial revolution. Polymer laser sintering (PLS) is a subset of AM that is commonly used to process polymers, and which achieves good surface finish, good mechanical properties of finished products and for which there is no nee...

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Published in	Manufacturing review (Ulis, France) Vol. 8; p. 14
Main Authors	Mwania, Fredrick Mulinge, Maringa, Maina, van der Walt, Jacobus G.
Format	Journal Article
Language	English
Published	Les Ulis EDP Sciences 2021
Subjects	Additive manufacturing Aging (materials) characterization of ls polymeric powder Cooling Degradation Differential scanning calorimetry High temperature Laser sintering Manufacturing Mechanical properties Melt flow index Morphology Optical properties Particle size Physical properties Polymers Rapid prototyping re-use of polymeric powder Recyclability Reuse Rheological properties Rheology Sintering (powder metallurgy) Surface finish Thermogravimetric analysis
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Abstract	Additive manufacturing (AM), is one of the key components of the 4th industrial revolution. Polymer laser sintering (PLS) is a subset of AM that is commonly used to process polymers, and which achieves good surface finish, good mechanical properties of finished products and for which there is no need for support structures. However, the requirements for polymeric powder for PLS are strident. Moreover, PLS subjects polymeric feed powders to high temperatures that lead to degradation of their thermal, rheological, and physical properties and is thus an impediment to their recyclability. Therefore, it is imperative to investigate the degree of polymer degradation or aging before re-using the material. This paper reviews the common techniques that are employed to characterize the suitability of polymeric powders for use and re-use in the PLS process. These include, but are not limited to, differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), laser diffraction analysis, gas pycnometry, scanning electron microscopy (SEM), and melt flow index (MFI) testing.
AbstractList	Additive manufacturing (AM), is one of the key components of the 4th industrial revolution. Polymer laser sintering (PLS) is a subset of AM that is commonly used to process polymers, and which achieves good surface finish, good mechanical properties of finished products and for which there is no need for support structures. However, the requirements for polymeric powder for PLS are strident. Moreover, PLS subjects polymeric feed powders to high temperatures that lead to degradation of their thermal, rheological, and physical properties and is thus an impediment to their recyclability. Therefore, it is imperative to investigate the degree of polymer degradation or aging before re-using the material. This paper reviews the common techniques that are employed to characterize the suitability of polymeric powders for use and re-use in the PLS process. These include, but are not limited to, differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), laser diffraction analysis, gas pycnometry, scanning electron microscopy (SEM), and melt flow index (MFI) testing.
Author	van der Walt, Jacobus G. Maringa, Maina Mwania, Fredrick Mulinge
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SubjectTerms	Additive manufacturing Aging (materials) characterization of ls polymeric powder Cooling Degradation Differential scanning calorimetry High temperature Laser sintering Manufacturing Mechanical properties Melt flow index Morphology Optical properties Particle size Physical properties Polymers Rapid prototyping re-use of polymeric powder Recyclability Reuse Rheological properties Rheology Sintering (powder metallurgy) Surface finish Thermogravimetric analysis
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Title	A review of the techniques used to characterize laser sintering of polymeric powders for use and re-use in additive manufacturing
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