Optics and Precision Engineering, Volume. 24, Issue 1, 102(2016)
Optimization design of amplification mechanism for level flexure hinge based on compliance ratio
[1] [1] XU Q S. Design, testing and precision control of a novel long-stroke flexure micro-positioning system [J]. Mechanism and Machine Theory, 2013, 70(6): 209-224.
[2] [2] LI Q X, WANG D SH, LI Y H. Design of Modern Precision Instruments [M]. Beijing: Tsinghua University Press, 2004.(in Chinese)
[3] [3] ZUO X Y, LIU X M. Calculation and analysis of rotational stiffness for three types of flexure hinges [J]. Chinese Journal of Scientific Instrument, 2006, 27(12): 1725-1728.(in Chinese)
[4] [4] TIAN Y, SHIRINZADEH B, ZHANG D, et al.. Three flexure hinges for compliant mechanism designs based on dimensionless graph analysis [J]. Precision Engineering, 2010, 34(1): 92-100.
[5] [5] ZELENIKA S, MUNTEANU M G, DE BONA F. Optimized flexural hinge shapes for microsystems and high-precision applications [J]. Mechanism and Machine Theory, 2009, 44(10): 1826-1839.
[6] [6] SMITH T S, BADAMI V G, DALE J S, et al.. Elliptical flexure hinges[J]. Review of Scientific Instruments, 1997, 68(3): 1474-1483.
[8] [8] CHEN G M, LIU X Y, JIA J Y. Compliance calculation of elliptical flexure hinge [J]. Chinese Journal of Mechanical Engineering, 2006, 42(Z): 111-114.(in Chinese)
[9] [9] ZHAO L, GONG Y, HUA Y Y. Compliance matrix analysis of corner-filleted flexure hinge [J]. China Mechanical Engineering, 2013, 24(18): 2462-2468.(in Chinese)
[12] [12] BI S S, ZHAO S S, ZHAO X F. Dimensionless design graphs for three types of annulus-shaped flexure hinges [J]. Precision Engineering, 2010, 34(3): 659-666.
[13] [13] LOBONTIU N. Compliance-based matrix method for modeling the quasi-static response of planar serial flexure-hinge mechanisms [J]. Precision Engineering, 2014, 38(3): 639-650.
[14] [14] WANG SH X, CHEN G P, ZHOU J H, et al.. Compliant mechanisms consisted of compound flexible hinges and its applications [J]. Opt. Precision Eng., 2005, 13(S1): 91-97.(in Chinese)
[15] [15] GONG J L, HU G X, ZHANG Y P. Closed loop design method of micro-driving displacement amplifier module targeting for stiffness [J]. Journal of Mechanical Engineering, 2012, 48(15): 58-64.(in Chinese)
[16] [16] SHEN J Y, ZHANG H J, ZHAO Y. Calculation method of magnification ratio for lever-type flexure hinge mechanism driven by piezoactuator[J]. Transactions of the Chinese Society for Agricultural Machinery, 2013, 44(9): 267-271.(in Chinese)
[17] [17] LI W, YE G, WANG Y Q. Study of properties of a kind of bridge-type micro-displacement mechanism [J]. Journal of China University of Mining & Technology, 2011, 40(2): 310-314.(in Chinese)
[18] [18] BOLZMACHER C, BAUER K, SCHMID U, et al.. Displacement amplification of piezoelectric microactuators with a micromachined leverage unit [J]. Sensors and Actuators A: Physical, 2010, 157(1): 61-67.
[19] [19] KIM J J, CHOI Y M, AHN D, et al.. A millimeter-range flexure-based nano-positioning stage using a self-guided displacement amplification mechanism [J]. Mechanism and Machine Theory, 2012, 50(2): 109-120.
[20] [20] XU Q S, LI Y M. Analytical modeling, optimization and testing of a compound bridge-type compliant displacement amplifier [J]. Mechanism and Machine Theory, 2011, 46(2): 183-200.
[21] [21] CHOI K B, LEE J J, HATA S. A piezo-driven compliant stage with double mechanical amplification mechanisms arranged in parallel [J]. Sensors and Actuators A: Physical, 2010, 161(1-2): 173-181.
Get Citation
Copy Citation Text
LU Qian, HUANG Wei-qing, SUN Meng-xin. Optimization design of amplification mechanism for level flexure hinge based on compliance ratio[J]. Optics and Precision Engineering, 2016, 24(1): 102
Category:
Received: Jun. 10, 2015
Accepted: --
Published Online: Mar. 22, 2016
The Author Email: