Optimal design of rubber mounts supporting notebook hdd for shock and vibration isolation

Seungho Lim; Young Bae Chang; No Cheol Park; Young Pil Park

doi:10.1109/APMRC.2006.365930

Optimal design of rubber mounts supporting notebook hdd for shock and vibration isolation

Seungho Lim, Young Bae Chang, No Cheol Park, Young Pil Park

Department of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

7 Citations (Scopus)

Abstract

Notebook PCs, especially its hard disk, suffer impact-induced failure as well as vibration problems. Consequently shock and vibration performance plays a decisive role in the product design. To minimize the likelihood of failure in such cases, cushioning materials are often used. In this paper, we analyzed dynamic characteristics and shock response of the system supported by non-linear rubber mounts using modal parameters extracted from vibration test. In addition, optimal design of rubber mount was developed.

Original language	English
Title of host publication	Asia-Pacific Magnetic Recording Conference 2006, Digest of APMRC 2006
DOIs	https://doi.org/10.1109/APMRC.2006.365930
Publication status	Published - 2006
Event	Asia-Pacific Magnetic Recording Conference 2006, APMRC 2006 - , Singapore Duration: 2006 Nov 29 → 2006 Dec 1

Publication series

Name	Asia-Pacific Magnetic Recording Conference 2006, Digest of APMRC 2006

Other

Other	Asia-Pacific Magnetic Recording Conference 2006, APMRC 2006
Country	Singapore
Period	06/11/29 → 06/12/1

All Science Journal Classification (ASJC) codes

Hardware and Architecture
Electrical and Electronic Engineering
Electronic, Optical and Magnetic Materials

Access to Document

10.1109/APMRC.2006.365930

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title = "Optimal design of rubber mounts supporting notebook hdd for shock and vibration isolation",

abstract = "Notebook PCs, especially its hard disk, suffer impact-induced failure as well as vibration problems. Consequently shock and vibration performance plays a decisive role in the product design. To minimize the likelihood of failure in such cases, cushioning materials are often used. In this paper, we analyzed dynamic characteristics and shock response of the system supported by non-linear rubber mounts using modal parameters extracted from vibration test. In addition, optimal design of rubber mount was developed.",

author = "Seungho Lim and Chang, {Young Bae} and Park, {No Cheol} and Park, {Young Pil}",

year = "2006",

doi = "10.1109/APMRC.2006.365930",

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series = "Asia-Pacific Magnetic Recording Conference 2006, Digest of APMRC 2006",

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Lim, S, Chang, YB, Park, NC & Park, YP 2006, Optimal design of rubber mounts supporting notebook hdd for shock and vibration isolation. in Asia-Pacific Magnetic Recording Conference 2006, Digest of APMRC 2006., 4215315, Asia-Pacific Magnetic Recording Conference 2006, Digest of APMRC 2006, Asia-Pacific Magnetic Recording Conference 2006, APMRC 2006, Singapore, 06/11/29. https://doi.org/10.1109/APMRC.2006.365930

Optimal design of rubber mounts supporting notebook hdd for shock and vibration isolation. / Lim, Seungho; Chang, Young Bae; Park, No Cheol; Park, Young Pil.

Asia-Pacific Magnetic Recording Conference 2006, Digest of APMRC 2006. 2006. 4215315 (Asia-Pacific Magnetic Recording Conference 2006, Digest of APMRC 2006).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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AU - Chang, Young Bae

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AU - Park, Young Pil

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N2 - Notebook PCs, especially its hard disk, suffer impact-induced failure as well as vibration problems. Consequently shock and vibration performance plays a decisive role in the product design. To minimize the likelihood of failure in such cases, cushioning materials are often used. In this paper, we analyzed dynamic characteristics and shock response of the system supported by non-linear rubber mounts using modal parameters extracted from vibration test. In addition, optimal design of rubber mount was developed.

AB - Notebook PCs, especially its hard disk, suffer impact-induced failure as well as vibration problems. Consequently shock and vibration performance plays a decisive role in the product design. To minimize the likelihood of failure in such cases, cushioning materials are often used. In this paper, we analyzed dynamic characteristics and shock response of the system supported by non-linear rubber mounts using modal parameters extracted from vibration test. In addition, optimal design of rubber mount was developed.

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Optimal design of rubber mounts supporting notebook hdd for shock and vibration isolation

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