The Influence of Rotational Speed on the Wall Thickness and Mechanical Characteristic of Rotomouldable Plastics

Authors

  • Nadhim Mejbil Faleh Al-Mustansiriah University, Engineering College
  • Fatima Masood Hani Al-Mustansiriah University, Engineering College

DOI:

https://doi.org/10.24203/ajas.v6i3.5353

Keywords:

rotational speed, wall thickness, roto-mouldable, plastic

Abstract

This study is interested in the main parameter of this technique that uses a cubic container with an internal dimension of 100 mm and a cylindrical container 100 mm in diameter. We implemented the work in the fifth stage: In the first stage, we designed and manufactured the multi-axial system. In the second stage, the specimens were moulded from polyester, PVC, and polyethylene at a rotational speed axis of 5–120 rpm. The results from this stage indicated that the optimal rotational speed of the steady quality in dimensions and properties of the parts are 85, 100 and 115 rpm. The third stage was concerned with the effect of the speed of rotation on the thickness of the wall. The rotational speed of the axes was changed, and the thickness of the moulded walls was measured. The laboratory measurements revealed that the maximum compression ratio with the change of speed is at the speed of 115 rpm. The fourth stage was concerned with the effect of the speed of rotation on the value of tensile strength. The rotational speed of the axes was changed, and the tensile strength of the mould was measured. The tests revealed an improvement in the tensile strength at the speed of 115 rpm compared with the other speeds. The fifth stage utilised a cylindrical mould, which was re-worked in the previous stages, to investigate the effect of the speed of rotation on the thickness of the wall and mechanical specifications. Based on the conducted experimental tests, the influence of the rotational speed, which characterized the moulding process, on selected geometrical features of the mould was studied and analysed theoretically and numerically. The results showed an increase of about 5% in the compression ratio with increased rotation speed within the range of 85 to 115 rpm. There was also an improvement of about 7% in the tensile strength with increased rotational speed from 85 to 115 rpm. These results are due to the increase in the centrifugal force on the wall of the mould during the process. Also, the study was characterized by the production of the composite of polyethylene reinforced by iron screen wire, with improvement in the mechanical properties by about 300% compared to the base material.

 

Author Biography

  • Nadhim Mejbil Faleh, Al-Mustansiriah University, Engineering College
    Professor of advanced vibration science for high students at the Faculty of Engineering - University of Mustansiriya (Baghdad). Published many research and scientific books, especially in the science of vibration. PhD in Design (Applied Mechanics).

References

Beal, G .1987 "Rotational Mould ing: Design "Material, Tolling and Processing" Munich, Germany, Hanser, Verlge.

Dodge, P.T. and Perry, J.L. (2001) "Rotomould Part Density and its Relationship to Physical Properties" Proceeding ANTEC SPE 2001 plastic, the lone star volume 1: processing, may 6-10 2001 Dallas, Texas, society of plastics engineering.

Crawford, R.J. and M.P. Kearns "Practical Guide to Rotational Mould ing" 2003: Rapra Technology Ltd.

RAMKUMAR PL "Study on Mechanical and Fracture Behavior of Linear Low Density Polyethylene for Rotational Mould ing" Birla institute of technology and science, Pilani 2015.

Crawford, R.J., et al., "Mould pressure control in rotational mould ing" Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2004. 218(12): p. 1683-1693.

Yan, W., R.J.T. Lin, and D. Bhattacharyya "Particulate reinforced rotationally mould ed polyethylene composites - Mixing methods and mechanical properties" Composites Science and Technology, 2006. 66(13): p. 2080-2088.

Crawford, R.J. "Recent advances in the manufacture of plastic products by rotomould ing" Journal of Materials Processing Technology, 1996. 56(1-4): p. 263-271.

R. J. Crawford, "Introduction to rotational moulding in Rotational moulding of plastics", Wiley, New York. 1992.

Shih- Jung Liu and Ching- Hsiung Yang (2001): "Rotational moulding of two layered Polyethylene foams" Advances in Polymer Technology, Vol. 20, pp. 108-115.

"Introduction to Rotational Mould ing" [Cited 26/5/07]; Available from: http://www.rotationalmoulding.com/Technical%20Papers/Introduction%2 0To%20Rotational%20Moulding.pdf.

Martin, D., et al., "Polyethylene-layered silicate Nano composites for rotational mould ing" Polymer International, 2003. 52(11): p. 1774-1779.

Carla F.M., Mohammad A.I and Vikas Prakash. (2007): "Dynamic fracture of linear Medium polyethylene under impact loading conditions" Materials Science and Engineering, Vol. 465, pp. 211-222.

Martin D et al "A summary of recent Australian R&D activities in rotational mould ing" Rotation 2001(January–February):44–50.

Crawford RJ, Robert A "Reinforcement of rotomould plastic parts – a challenge. The 3rd Asian-Australasian conference on composite materials (ACCM-3)" Auckland, New Zealand; 2002. p. 1 – 9.

Harkin-Jones E, Crawford RJ "Mechanical properties of rotationally mould ed Nyrim" Polymer Engineering and Science 1996; 36(5):615–25.

Yan W, Lin RJT, Bickerton S, Bhattacharyya D "Performance evaluation of mould ed polymeric composites" Polymer processing society Asia/Australia regional meeting (PPS-2002): G6, Thermoforming, Blow Moulding and Rotational Mould ing, Taipei, Taiwan; 2002, Paper No. 204.

Yuze Han "Rotational moulding of a polyethylene resin: preliminary results on the effects of moulding conditions on the mould ed part characteristics" November, 2002.

Laurenţiu Slătineanu1,*, Oana Dodun2, Margareta Coteaţă3, António Gonçalves-Coelho4, Irina Beşliu (Grigoraş) 5, Lorelei Gherman6, Maricela Poienaru7 "A Preliminary Study on the Rotational Moulding Process"

Proceedings in manufacturing systems, volume 7, issue 1, 2012.

Jachowicz1, Tomasz "Investigation Of The Influence Of Mould Rotational Speed On The Cast Wall Thickness In The Rotational Moulding Process" Science and Technology Research Journal. 2013, Vols. Volume 7, No. 19, pp. 79–87.

CHAUDHARI, D M KULKARNI and V V "Parametric And Mechanical Characterization Of Linear Low. Indian Academy Of Sciences" Vol. 39, Part 3, June 2014, pp. 625–635.

Dvorak, Maria"Applicability Of Recycled HDPE For Rotational Mould ing" Arcada . 2016, pp. 1-48.

Drummer, Martin Löhner and Dietmar "Multi-Layer Rotational Moulding Of Pe-Pa Utilizing A Mulitphase Interlayer To Generate Mechanical Adhesion" SPE ANTEC™. 2016, pp. 1690- 1697.

Roberto C. Vázquez Fletes, Pedro Ortega Gudiño,. "A Three-Layer Foamed Composite Prepared By Rotational Mould ing" SPE ANTEC™. 2016, pp. 1709- 1713.

Rodrigue*, Alexandre Raymond and Denis. "Foams and Wood Composite Foams Produced By Rotomould ing. ©Smithers Rapra Technology" 2013, Vols. Vol. 32, No. 4,

Paul Betschart "Strengthening Rotationally Mould ed Products: Development of a Rotomouldable Thermoplastic Composite" March, 2008.

F. J. Moscoso-Sánchez, J. Aguilar, R.M. Jiménez, J.R. Robledo-Ortíz, R. González-Núñez,. "Thermal Analysis Of The Rotational Moulding Cycle Followed By Internal Air Temperature Profiles: An Application For Foamed Polyethylene" SPE ANTEC™. 2016, pp. 1704-1708.

Scribben, Eric "Selection Of Thermotropic Liquid Crystalline Polymers For Rotational Mould ing" Appendix F. Publications. 2014, pp. 1-382.

E. ARCHER*, E. HARKIN-JONES AND M. P. KEARNS "The Rotational Moulding Characteristics of Metallocene Polyethylene Skin/Foam Structures" Journal of cellular plastics volume 43 — November 2007.

Emad Samy Abdalla "Rapid Rotational Foam Moulding Of Integral Skin Polypropylene Cellular Composites" May 2009.

Dixon Harold Abell "A Study of the Cause of Failure of Rotationally Mould ed, High-Density Polyethylene, Sodium Hypochlorite Storage Tanks" April 2011.

Bei Wang "Pre-treatment of Flax Fibers for USE in .Rotationally Mould ed Biocomposite" July 2004.

E.O. Cisneros-López, M.E. González-López, A.A. Pérez-Fonseca, R. González-Núñez "Fiber Surface Treatment As An Approach To Increase Fiber Content In Agave-Lmdpe Composites Produced By Rotomould ing" SPE ANTEC™. 2016, pp. 1681- 1685.

N. Barhoumi1, A. Maazouz1*, M. Jaziri2, R. Abdelhedi2 "Polyamide from lactams by reactive rotational moulding via anionic ring-opening polymerization: Optimization of processing parameters" express polymer letters vol.7, no.1 (2013) 76–87.

ORI1, Ottorino. "New Mould able And Water Soluble Cores For Hollow Composite Automotive Parts" Ottorino ORI1. 2016, pp. 1-6.

J.M. Boyd, S. Wu, E.S. Takacs, M.R. Thompson, J. Vlachopoulos "Studying Polymer Particle Sintering With An Automated Imaging System" SPE ANTECâ„¢. 2016.

David Roylance "PRESSURE VESSELS "Cambridge, August 23, 2001.

Serope Kalpakajian "Manufacturing engendering and technology processes" Hand Book Preface to Third Edition. Chicago, Illinois.

Robert MJ "Mechanical of Composite Material" Hand Book Preface to Second Edition Printcd in the United States of America (1999).

Downloads

Additional Files

Published

2018-06-26

Issue

Vol. 6 No. 3 (2018): June 2018

Section

Articles

License

  • Papers must be submitted on the understanding that they have not been published elsewhere (except in the form of an abstract or as part of a published lecture, review, or thesis) and are not currently under consideration by another journal published by any other publisher.
  • It is also the authors responsibility to ensure that the articles emanating from a particular source are submitted with the necessary approval.
  • The authors warrant that the paper is original and that he/she is the author of the paper, except for material that is clearly identified as to its original source, with permission notices from the copyright owners where required.
  • The authors ensure that all the references carefully and they are accurate in the text as well as in the list of references (and vice versa).
  • Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Attribution-NonCommercial 4.0 International that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
  • Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
  • Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).
  • The journal/publisher is not responsible for subsequent uses of the work. It is the author's responsibility to bring an infringement action if so desired by the author.

How to Cite

The Influence of Rotational Speed on the Wall Thickness and Mechanical Characteristic of Rotomouldable Plastics. (2018). Asian Journal of Applied Sciences, 6(3). https://doi.org/10.24203/ajas.v6i3.5353

Similar Articles

11-20 of 81

You may also start an advanced similarity search for this article.