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Ankit, K.
- Measurement of Straightness of High Aspect Ratio Thick Walled Cylinder-A Concept
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Authors
Affiliations
1 Central Manufacturing Technology Institute, Bangalore, IN
1 Central Manufacturing Technology Institute, Bangalore, IN
Source
Manufacturing Technology Today, Vol 11, No 1-2 (2012), Pagination: 5-10Abstract
Productivity in manufacture of high aspect ratio cylinders depends on how quickly the inspection parameters are measured and corrective actions are token. Long cylinders undergo a series of processes including bend removal and machining. These processes undergo a series of iterations consuming considerable amount of time for the measurement of straightness of cylinder. In this paper, a concept is proposed, where, the straightness of the bore of a cylinder (barrel) is measured in-situ on the machine. In this method, the barrel diameter and thickness are measured at number of planes using touch trigger probe and ultrasonic transducer respectively. Ultrasonic transducer assembly and the touch trigger probe are mounted on the turret of the CNC Turn Mill Centre. The setup for ultrasonic based measurement includes a nozzle for the supply of stream of liquid on the work piece, an ultrasonic transducer and a data capturing unit. Echo from ultrasonic waves is obtained back from the stream enabling the measurement of the relative position from the outer profile of the work piece to its internal profile. By orienting (rotating) the work piece at different locations in the same plane, thickness and diameters are measured. Straightness is measured by continuing to measure along the length of the cylinder. The thickness and diameters obtained are then used for the evaluation of straightness of the bore.Keywords
Straightness, Cylinder, Touch Trigger Probe, Ultrasonic Transducer.- Investigation on the Effect of Nucleation Time on CNT Growth Process using RF-PECVD
Abstract Views :228 |
PDF Views:0
Authors
Affiliations
1 Central Manufacturing Technology Institute (CMTI), Bengaluru, IN
2 National Institute of Technology Karnataka (NITK), Surathkal, IN
1 Central Manufacturing Technology Institute (CMTI), Bengaluru, IN
2 National Institute of Technology Karnataka (NITK), Surathkal, IN
Source
Manufacturing Technology Today, Vol 18, No SP 3 (2019), Pagination: 25-30Abstract
Carbon Nano Tubes (CNTs) were deposited on Silicon substrate by RF plasma enhanced chemical vapour deposition (RF-PECVD). The deposition was carried out at 550 V bias and 600°C with C2H2 precursor gas diluted with H2 in the ratio of 1:4. Transition metal catalysts are required for CNT growth by PECVD. It is believed that the catalyst on the substrate must be in the form of particles instead of smooth, continuous films. The eventual particle size and the resultant nanotube diameter correlates to film thickness. Thinner films in general lead to smaller particles and tube diameters. While a small grain size is not guaranteed in as-prepared films, steps are taken to break the film into desired particles to form island like structures. This work investigates the effect of Nucleation and the time interval of Nucleation on the CNT growth process.Keywords
CNT, Nucleation, RF-PECVDReferences
- 1. Meyyappan M and Srivastava D: Carbon Nanotubes: Handbook of Nanoscience, Engineering, and Technology, 2003, Boca Raton, FL: CRC Press.
- Meyyappan M: Plasma Sources, ‘Sci. Technol’. 12, 2003, 205–216.
- RGuzm´an de Villoria: Nanotechnology, 20, 2009, 405611 (IOP publishing)
- The Wondrous World of Carbon Nanotubes ‘a review of current carbon nanotube technologies’: 2003, Eindhoven University of Technology