Abstract:
A machine based on Static Light Scattering theories was developed for the cost effective and
efficient Quality Control of the average particle size of nano-particles used in different
manufacturing industries. In particular the instrument was adapted to measurement of carbon black
filler used in rubber compounding. Carbon blacks are amorphous quasi graphitic particulates of the
nanometer scale whose mean particle size affects the reinforcement, conductivity pigmentation and
UV resistance properties of the rubber. The instrument would enable local rubber compounding
companies to independently monitor and control the average particle size of the filler.
The system is semi-autonomous and measures approximately 29cm × 23cm × 17.5cm and weighs
approximately 4.2 kg. The instrument accepts a solution of nano-particles. Adjusts the solution
concentration automaticallyand measures the scattered intensity of light which it used to calculate
the particle size.
The system comprises of a fluidics module that handles the pumping and dilution of solutions, an
optics module that generates and detects the light and a control & power supply module that
operates the other components and supplies the right voltages to them. These modules are housed
in a corrosion protected steel frame and an aesthetically appealing enclosure.
Key features of the instrument are a self diagnostic system, a modular structure, a graphical user
interface with record keeping facility and extendibility to other particle size control applications. It
is of a modular design and has been constructed with the ease of maintenance and accessibility to
internal hardware, and manufacturability in mind. The components selection was based on the
optimization of performance parameter, size and cost. Mechanical, thermal and vibration stabilities
were considered in the design.
Citation:
Anuradha, S.K.A., Ishan, H.H.A., & Amarasinghe, D.A.S. (2017). Development of a low cost, static light scattering based nano-particle size analyzer
[Abstract]. In V. Sivahar (Ed.), Leveraging materials for a smart future (p. 1). Society of Mechanical Engineering Students, Department of Materials Science and Engineering, University of Moratuwa.