Abstract:
This study focuses on the comprehensive thermal, chemical, and mechanical characterization of neem gum, a
natural, colorless, tasteless polysaccharide obtained from Azadirachta indica tree’s trunk. The collection process
of gum involves manual extraction from crude neem tree exudates, followed by thorough cleaning and ho
mogenization with water. A portion of the resulting gum is then filtered, allowed to thicken, and naturally dried
for subsequent mechanical testing. Various analytical techniques, such as thermogravimetric analysis (TGA), and
differential scanning calorimetry (DSC) to determine the thermal properties, Fourier transform infrared spec
trometry (FTIR) to find the functional groups, scanning electron microscopy (SEM), and micro-X-ray fluorescence
analysis (µ-XRF) to decide the elemental composition, microhardness, tensile, flexural, and compression tests to
determine the mechanical properties, are employed in this study. The thermal and mechanical properties of neem
gum have been relatively unexplored, and this highlights the novelty and importance of this research. The results
are analyzed and compared with other natural tree gums. The pH of 5.07 shows that the gum is slightly acidic in
nature, and the peaks obtained from thermal analysis demonstrate that it doesn’t have a melting point. The
microhardness value, tensile strength, flexural strength, and compressive strength of neem gum are 238.64 MPa,
1.0155 MPa, 1.899 MPa, and 1.1023 MPa, respectively. This research provides valuable insights into the diverse
characteristics and potential applications of neem gum in various fields. It is being used in the pharmaceutical
industry. It can also be used as a cap for cutting tools, such as drill bits, after manufacturing, during trans
portation to protect their sharp edges from damage.
