Non-Destructive Measurement of Residual Strain in Connecting Rods Using Neutrons

Tomohiro Ikeda, Jeffrey Bunn, Chris Fancher, Alan Seid, Ryuta Motani, Hideki Matsuda, Tatsuya Okayama

Research output: Contribution to journalConference articlepeer-review

1 Scopus citations

Abstract

Increasing the strength of materials is effective in reducing weight and boosting structural part performance, but there are cases in where the residual strain generated during the process of manufacturing of high-strength materials results in a decline of durability. It is therefore important to understand how the residual strain in a manufactured component changes due to processing conditions. In the case of a connecting rod, because the strain load on the connecting rod rib sections is high, it is necessary to clearly understand the distribution of strain in the ribs. However, because residual strain is generally measured by using X-ray diffractometers or strain gauges, measurements are limited to the surface layer of the parts. Neutron beams, however, have a higher penetration depth than X-rays, allowing for strain measurement in the bulk material. The research discussed within this paper consists of non-destructive residual strain measurements in the interior of connecting rods using the 2nd Generation Neutron Residual Stress Mapping Facility (NRSF2) at Oak Ridge National Laboratory, measuring the Fe (211) diffraction peak position of the ferrite phase. The interior strain distribution of connecting rod, which prepared under different manufacturing processes, was revealed. By the visualization of interior strains, clear understandings of differences in various processing conditions were obtained. In addition, it is known that the peak width, which is also obtained during measurement, is suggestive of the size of crystallites in the structure; however the peak width can additionally be caused by microstresses and material dislocations.

Original languageEnglish
JournalSAE Technical Papers
Volume2018-April
DOIs
StatePublished - 2018
Event2018 SAE World Congress Experience, WCX 2018 - Detroit, United States
Duration: Apr 10 2018Apr 12 2018

Funding

A portion of this research at ORNL’s HFIR was sponsored by U.S. Department of Energy. Also, the authors would like to appreciate Dr. Andrew E. Payzant, Dr. Ke An and Dr. Takashi Katsurai for their valuable suggestions and discussions.

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