Bio-inspired advanced materials for reducing friction & wear in MEMS devices
Advanced Materials Research
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sg-nus-scholar.10635-732252023-09-03T23:07:37Z Bio-inspired advanced materials for reducing friction & wear in MEMS devices Singh, R.A. Satyanarayana, N. Sinha, S.K. MECHANICAL ENGINEERING Biomimetics Durability Friction MEMS Oxygen PFPE Plasma Tribology Wear Advanced Materials Research 545 359-363 2014-06-19T05:32:37Z 2014-06-19T05:32:37Z 2012 Conference Paper Singh, R.A., Satyanarayana, N., Sinha, S.K. (2012). Bio-inspired advanced materials for reducing friction & wear in MEMS devices. Advanced Materials Research 545 : 359-363. ScholarBank@NUS Repository. 9783037854495 10226680 http://scholarbank.nus.edu.sg/handle/10635/73225 000317553800064 Scopus |
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Biomimetics Durability Friction MEMS Oxygen PFPE Plasma Tribology Wear |
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Biomimetics Durability Friction MEMS Oxygen PFPE Plasma Tribology Wear Singh, R.A. Satyanarayana, N. Sinha, S.K. Bio-inspired advanced materials for reducing friction & wear in MEMS devices |
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Advanced Materials Research |
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MECHANICAL ENGINEERING |
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MECHANICAL ENGINEERING Singh, R.A. Satyanarayana, N. Sinha, S.K. |
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Conference or Workshop Item |
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Singh, R.A. Satyanarayana, N. Sinha, S.K. |
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Singh, R.A. |
title |
Bio-inspired advanced materials for reducing friction & wear in MEMS devices |
title_short |
Bio-inspired advanced materials for reducing friction & wear in MEMS devices |
title_full |
Bio-inspired advanced materials for reducing friction & wear in MEMS devices |
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Bio-inspired advanced materials for reducing friction & wear in MEMS devices |
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Bio-inspired advanced materials for reducing friction & wear in MEMS devices |
title_sort |
bio-inspired advanced materials for reducing friction & wear in mems devices |
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2014 |
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http://scholarbank.nus.edu.sg/handle/10635/73225 |
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