Experimental Validation Of A Solidification Model For Automated Disassembly

authored by

Richard Blümel, Annika Raatz

Abstract

Disassembly is a crucial step towards sustainable life cycle engineering. During the operation, assembly connections solidify to an unknown state, e.g. due to thermal or mechanical stress on the product. Therefore, disassembly forces are hard to predict. With regard to automated disassembly, this complicates the proper planning of disassembly times and tools. The uncertainties can lead to damage or destruction of the product, impeding regeneration. To tackle these problems, in earlier work, we proposed a solidification model, which enables planners to predict disassembly forces based on the products geometric properties and operational history without investigating the complex physical influences caused by the usage of the product. The disassembly of high-value capital goods like aircraft engines, in particular blade-disk connections, serves as an application case. Still, we were not yet able to validate the solidification model due to the lack of experimental reproducibility. In this work, we adapt the existing model of a solidified assembly connection created in prior work with an additional clamping force. The additional force aims to represent the solidification force. This can significantly increase reproducibility and reduce disturbances.

Organisation(s)

Institute for Assembly Technology and Robotics
CRC 871 Regeneration of Complex Capital Goods

Type

Paper

Pages

339-348

No. of pages

10

Publication date

2021

Publication status

Published

Peer reviewed

Yes

ASJC Scopus subject areas

Mechanical Engineering, Management of Technology and Innovation, Industrial and Manufacturing Engineering, Strategy and Management

Sustainable Development Goals

SDG 9 - Industry, Innovation, and Infrastructure

Electronic version(s)

https://doi.org/10.15488/11250 (Access: Open)