Keyphrases
Low Energy
100%
3D Printing Materials
100%
Upcycling
100%
Plasticization
100%
Spent Coffee Grounds
100%
Sustainable 3D Printing
100%
Spent Tea Leaves
100%
Polylactic Acid
75%
Tensile Strength
25%
High Tensile Strength
25%
Complex Effects
25%
Ductility
25%
Elongation at Break
25%
Strength Performance
25%
Microscopic Imaging
25%
Uphold
25%
Composite Performance
25%
Sustainable Composites
25%
Filling Material
25%
Pore Formation
25%
3D Printed Specimens
25%
Polylactic Acid Composites
25%
Plasticizing Effect
25%
Biomass Loading
25%
3D Printability
25%
Filler Property
25%
Spent Coffee Grounds Oil
25%
High Biomass Loading
25%
Food Processing Byproducts
25%
3D Printing Inks
25%
Biomass Addition
25%
Material Science
Three Dimensional Printing
100%
Natural Material
100%
Composite Material
100%
Polylactide
100%
Plasticizer
100%
Ultimate Tensile Strength
50%
Ink
25%
Engineering
Ultimate Tensile Strength
100%
Plasticisation
100%
Three Dimensional Printing
100%
Strength Performance
50%
Acid Interface
50%
Filling Material
50%
Elongation at Break
50%