Andere Kunden interessierten sich auch für
![INVESTIGATION OF MECHANICAL AND THERMAL BEHAVIOUR OF NATURAL COMPOSITE]( "INVESTIGATION OF MECHANICAL AND THERMAL BEHAVIOUR OF NATURAL COMPOSITE")
INVESTIGATION OF MECHANICAL AND THERMAL BEHAVIOUR OF NATURAL COMPOSITE29,99 €![The Fundamentals of Internal Combustion Engines]( "The Fundamentals of Internal Combustion Engines")
The Fundamentals of Internal Combustion Engines61,99 €![Internal Model Controller for Conical Tank System]( "Internal Model Controller for Conical Tank System")
Internal Model Controller for Conical Tank System40,99 €![Internal Combustion Engine Lab Manual]( "Internal Combustion Engine Lab Manual")
Internal Combustion Engine Lab Manual33,99 €![Enhancement of Internal Dump Capacity vis-a-vis Stability]( "Enhancement of Internal Dump Capacity vis-a-vis Stability")
Enhancement of Internal Dump Capacity vis-a-vis Stability50,99 €![UNE ÉTUDE SUR L'EFFET ET L'INFLUENCE DE LA STRUCTURE INTERNE SUR LA PLA]( "UNE ÉTUDE SUR L'EFFET ET L'INFLUENCE DE LA STRUCTURE INTERNE SUR LA PLA")
UNE ÉTUDE SUR L'EFFET ET L'INFLUENCE DE LA STRUCTURE INTERNE SUR LA PLA28,99 €![Effect of vegetation on floods in the river Magra]( "Effect of vegetation on floods in the river Magra")
Effect of vegetation on floods in the river Magra33,99 €
This thesis explores the use of natural fibers, specifically Pineapple Leaf Fiber (PALF), in combination with Polylactic Acid (PLA) core material, to create composite materials with enhanced mechanical properties. The study employs 3D printing technology, specifically Fusion Deposition Modeling (FDM), to create core plates with varied patterns (triangular, grid, and honeycomb). The core plates are then layered with PALF mats and bound together using a resin. Luffa biochar is added as a filler material to improve mechanical properties. The fabricated samples undergo various experimental evaluations, including flexural, impact, tensile, hardness, water absorption, and wear tests. Scanning Electron Microscopy (SEM) analysis is also conducted to study fiber-matrix adhesion. The goal is to create lightweight structures with high dimensional accuracy and reduced manufacturing costs.