Sage Journals: Discover world-class research

Abstract

The aim of the work was to demonstrate an alternative to conventional end-of-life (EOL) disassembly strategies such as robotic or hand dismantling. This initial investigation reports the disassembly of consumer electronic products using smart materials in the design of embedded releasable fasteners. A series of products was tested in a variety of different ways using shape memory polymers (SMPs). Tests were run on macroassemblies and subassemblies of telecommunications goods. The devices designed with SMP used two distinct properties of the material suited to active disassembly:

the mechanical property loss (MPL), in this case a loss of rigidity in the thread of the SMP screws;

the shape memory effect (SME), a change in form, resulting in this case in the loss of moulded thread from SMP shape memory effect screws.

Once SMP components were developed and embedded into the candidate products, timed disassembly experiments were conducted. These tests used infrared, air jet and water bath methods for applying heat to trigger the SMP devices. Once the trigger temperature was reached, shape change and property loss occurred in the screws and brackets, allowing assembly release.

Keywords

active disassembly shape memory polymer recycling

References

3rd Draft Proposal for Directive on waste electrical and electronic equipment, 76/769/EEC, EU (European Union) DGXI, 1999.

Chiodo

J. D.

Billett

Harrison

Active disassembly. J. Sustainable Des., October 1998.

Chiodo

J. D

Billett

Harrison

Preliminary investigations of active disassembly using shape memory polymers. In 1st IEEE International Symposium on Environmentally Conscious Design and Inverse Manufacturing (EcoDesign '99), Tokyo, Japan, 1–3 Feburary 1999, pp. 590–596.

Chiodo

J. D.

Billett

Harrison

Active disassembly using shape memory polymers for the mobile industry. In IEEE International Symposium on Electronics and the Environment (ISEE), Danvers, Massachusetts, 11–13 May 1999, pp. 151–156.

Chiodo

J. D.

Billett

Harrison

Shape memory alloy actuators for ADSM of consumer electronic products. In 38th Gateway Annual Conference of Metallurgists, Quebec City, Quebec, Canada, 22–26 August 1999, pp. 425–439.

Chiodo

J. D.

Billett

E. H.

Active disassembly using smart materials (ADSM). In Green Electronics/Green Bottom Line, July 1999 (Butterworth-Heinemann, Woburn, Massachusetts).

Chiodo

J. D.

Eco-design for active disassembly using smart materials. In Shape Memory and Superelastic Technologies (SMST '97) Conference, Pacific Grove, California, 2–6 March 1997.

Chiodo

J. D.

Billett

Harrison

Investigations of generic self disassembly using shape memory alloys. In IEEE International Symposium on Electronics and the Environment (ISEE-1998), Chicago, Illinois, 4–6 May 1998, pp. 82–87.

Spillman

W. B.

Jr. Sirkis

J. S.

Gardiner

P. T.

Smart materials and structures: What are they?

Smart Mater, and Structs, June 1996, 5(3), 248.

10.

Otsuka

Wayman

(Eds) Shape Memory Materials, 1998, pp. 203–219 (Cambridge University Press).

11.

Shirai

Hayashi

Development of polymeric shape memory material. Mitsubishi Technical Bulletin 184, Nagoya Research and Development Center, Mitsubishi Heavy Industries Limited, Nagoya, Japan, 1988 (market availability 1994).

12.

Takahashi

Structure and properties of shape memory polyurethane block copolymers material. J. Appl. Polym. Sci., 1996, 60, 1061–1069.

13.

Tobushi

Shape fixity and shape recovery in a film of shape memory polymer of polyurethane series material. J. Mater. Processing and Mfg Sci., October 1998, 9.

14.

Tobushi

Thermomechanical constitutive modeling in shape memory polymer of polyurethane series material. J. Intell. Mater. Systs and Structs, August 1997, 8.

15.

Gordon

R. F.

Applications of shape memory polyurethanes. In 1st International Conference on Shape Memory and Superelastic Technologies, Pacific Grove, California, 7–10 March 1994, pp. 115–120.

An initial investigation into active disassembly using shape memory polymers

Abstract

Abstract

Keywords

References