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Mechanical resonator

Research output: Patent

Published

Standard

Mechanical resonator. / Padowitz, David (Inventor); Matsiev, L (Inventor); Kolosov, Oleg (Inventor).

IPC No.: GO1N 29/00. Patent No.: US7210332B2. Dec 09, 2004.

Research output: Patent

Harvard

Padowitz, D, Matsiev, L & Kolosov, O Dec. 09 2004, Mechanical resonator, Patent No. US7210332B2, IPC No. GO1N 29/00. <http://www.google.com/patents/US7210332>

APA

Padowitz, D., Matsiev, L., & Kolosov, O. (2004). IPC No. GO1N 29/00. Mechanical resonator. (Patent No. US7210332B2). http://www.google.com/patents/US7210332

Vancouver

Padowitz D, Matsiev L, Kolosov O, inventors. Mechanical resonator. GO1N 29/00. 2004 Dec 9.

Author

Padowitz, David (Inventor) ; Matsiev, L (Inventor) ; Kolosov, Oleg (Inventor). / Mechanical resonator. IPC No.: GO1N 29/00. Patent No.: US7210332B2. Dec 09, 2004.

Bibtex

@misc{fd864109c2a544c6b480fab4075a84ab,
title = "Mechanical resonator",
abstract = "A sensor and methods for making and using the same in which a mechanical resonator is employed, comprising a resonator portion for resonating in a fluid without the substantial generation of acoustic waves; and an electrical connection between the resonator portion for oscillating and a source of an input signal; wherein the portion for resonating, the electrical connection or both includes a base material and a performance-tuning material that is different from the base material.",
keywords = "sensor, fluid properties, tuning fork, resonator, fluid density, fluid viscosity, environmental monitoring",
author = "David Padowitz and L Matsiev and Oleg Kolosov",
year = "2004",
month = dec,
day = "9",
language = "English",
type = "Patent",
note = "US7210332B2; GO1N 29/00",

}

RIS

TY - PAT

T1 - Mechanical resonator

AU - Padowitz, David

AU - Matsiev, L

AU - Kolosov, Oleg

PY - 2004/12/9

Y1 - 2004/12/9

N2 - A sensor and methods for making and using the same in which a mechanical resonator is employed, comprising a resonator portion for resonating in a fluid without the substantial generation of acoustic waves; and an electrical connection between the resonator portion for oscillating and a source of an input signal; wherein the portion for resonating, the electrical connection or both includes a base material and a performance-tuning material that is different from the base material.

AB - A sensor and methods for making and using the same in which a mechanical resonator is employed, comprising a resonator portion for resonating in a fluid without the substantial generation of acoustic waves; and an electrical connection between the resonator portion for oscillating and a source of an input signal; wherein the portion for resonating, the electrical connection or both includes a base material and a performance-tuning material that is different from the base material.

KW - sensor

KW - fluid properties

KW - tuning fork

KW - resonator

KW - fluid density

KW - fluid viscosity

KW - environmental monitoring

M3 - Patent

M1 - US7210332B2

ER -