Nagaraja, SR and Rakesh, SG and Prasad, JK and Barhai, PK and Jagadeesh, G (2012) Investigations on micro-blast wave assisted metal foil forming for biomedical applications. In: INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES, 61 (1). pp. 1-7.
int_jol_mec_sci_61-1_1-7_2012.pdf - Published Version
Restricted to Registered users only
Download (680Kb) | Request a copy
The deformation dynamics of metal foils (<0.25 mm thick) subjected to micro-blast wave are presented in this paper. The energy of micro-blast wave emanating from the open end of a polymer tube is used to deliver micro-particles for bio-medical applications. In these experiments metal foils are used to transfer the energy of the micro-blast wave to the micro-particles. Using cubic root scaling law the over pressure of the blast wave at the open end of the polymer tube is estimated and using this peak plate over pressure is estimated. The finite element analysis is used to estimate the velocity profile of the deforming metal foils. The finite element analysis results are compared with experimental results for the maximum deformation and deformed shape. Based on the deformation velocity, metal foil to be used for experiments is selected. Among the materials investigated 0.1 mm thick brass foil has the maximum velocity of 205 m/s and is used in the experiments. It is found from finite element analysis that the particles deposited within a radius of 0.5 mm will leave the foil with nearly equal velocity (error < 5%). The spray cone angle which is the angle of deviation of the path of particles from the axis of the polymer tube is also estimated and found to be less than 7 degrees up to a radius of 0.75 mm. Illustrative experiments are carried out to deliver micro particles (0.7 mu m diameter tungsten) into plant tissues. Particle penetration depth up to 460 mu m was achieved in ground tissue of potato tuber. (C) 2012 Elsevier Ltd. All rights reserved.
|Item Type:||Journal Article|
|Additional Information:||Copyright for this article belongs to PERGAMON-ELSEVIER SCIENCE LTD, ENGLAND|
|Keywords:||Metal forming;Micro-blast waves;Explicit dynamic analysis;FEM;Biomedical applications|
|Department/Centre:||Division of Mechanical Sciences > Aerospace Engineering (Formerly, Aeronautical Engineering)|
|Date Deposited:||18 Feb 2013 09:13|
|Last Modified:||18 Feb 2013 09:13|
Actions (login required)