Simultaneous Multi-Translational-Axis Motion used in the Evaluation of Product Component Frequency Response and Unit Load Stability
| Dublin Core | PKP Metadata Items | Metadata for this Document | |
| 1. | Title | Title of document | Simultaneous Multi-Translational-Axis Motion used in the Evaluation of Product Component Frequency Response and Unit Load Stability |
| 2. | Creator | Author's name, affiliation, country | Gregory Batt; Food, Nutrition, and Packaging Sciences Department, Clemson University, Clemson, South Carolina, USA |
| 2. | Creator | Author's name, affiliation, country | (doi: 10.23953/cloud.ijapt.24) |
| 3. | Subject | Discipline(s) | |
| 3. | Subject | Keyword(s) | Packaging Dynamics; Multi-Axis Vibration; Transport Vibration Testing; Frequency Response; Load Stability |
| 4. | Description | Abstract |
The motion of packaged product transport vehicles can be described with six axes of motion: three translational (vertical, lateral, longitudinal) and three rotational (pitch, yaw, roll). Laboratory simulation of six axis motion is complex and typically requires expensive equipment with many moving parts. For these reasons, the packaging industry has focused laboratory simulation on the one axis that contains the most energy, the vertical translation axis. Analysis of three axes translational motion in truck, rail, and air transport reveals that although the vertical motion often contains more overall energy, the lateral and longitudinal motion is equal, or even higher, in intensity than that of the vertical motion within particular frequency ranges. In this study, a relatively cost effective way of reproducing simultaneous three-axis-translational motion is used to evaluate the vibration frequency response of a product’s components. In addition, the stability effect of multi-translational-axis motion as compared to single-axis motion is evaluated on both a unit load and a single stack of packaged products. The value of simultaneous multi-translational-axis vibration testing is demonstrated through literature review and results from laboratory testing of unit loads, single stacks of packaged products, and the analysis of the frequency response of a product’s components. |
| 5. | Publisher | Organizing agency, location | |
| 6. | Contributor | Sponsor(s) | Hewlett-Packard Company, Electrolux, Kokusai Inc. |
| 7. | Date | (YYYY-MM-DD) | 2016-06-27 |
| 8. | Type | Status & genre | Peer-reviewed Article |
| 8. | Type | Type | |
| 9. | Format | File format | |
| 10. | Identifier | Uniform Resource Identifier | http://technical.cloud-journals.com/index.php/IJAPT/article/view/Tech-601 |
| 10. | Identifier | Digital Object Identifier | 10.23953/Tech-601 |
| 11. | Source | Journal/conference title; vol., no. (year) | International Journal of Advanced Packaging Technology; Vol 4, No 1 (2016) |
| 12. | Language | English=en | en |
| 14. | Coverage | Geo-spatial location, chronological period, research sample (gender, age, etc.) | |
| 15. | Rights | Copyright and permissions |
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