The present paper introduces a variable sensitivity displacement interferometer (VSDI) used to monitor both normal and in-plane particle displacements in wave propagation experiments. The general system consists of two interferometers working in tandem. Normally reflected light is interfered with each of two symmetrically diffracted light beams generated by the specimen rear surface. In cases where the surface motion simultaneously exhibits both in-plane and normal displacements, the fringes represent a linear combination of the longitudinal and transverse components of motion. Decoupling of the normal and in-plane displacement histories may be achieved through a linear combination of the two VSDI records. Alternatively, it is always possible to decouple the components of motion by combining a VSDI record with an independent measurement of either component. Moreover, it is shown that in the case of pure normal motion, the VSDI system functions as a desensitized normal displacement interferometer (DNDI). Similarly, in situations involving purely in-plane motion, the VSDI is shown to function as a desensitized transverse displacement interferometer (DTDI). The DNDI and DTDI fringe sensitivities are in general shown to depend on the angle θ or equivalently, the frequency σ of a grating manufactured at the observation point and the order n of the diffracted beams. The variable sensitivity feature of the VSDI greatly desensitizes normal displacement measurements and is particularly well suited for wave propagation studies in which normal particle velocities in excess of 100 m/s are generated. Experimental results are presented which demonstrate the application of this technique to monitoring particle motion histories in plate impact recovery experiments.

1.
Barker
L. M.
, and
Hollenbach
R. E.
,
1965
, “
Interferometer Technique for Measuring the Dynamic Mechanical Properties of Materials
,”
Rev. Sci. Instru.
, Vol.
36
, No.
11
, pp.
1617
1620
.
2.
Barker
L. M.
, and
Hollenbach
R. E.
,
1972
, “
Laser Interferometry for Measuring High Velocities of Any Reflecting Surface
,”
J. Appl. Physics
, Vol.
43
, No.
11
, pp.
4669
4675
.
3.
Chhabildas
L. C.
,
Sutherland
H. J.
, and
Asay
J. R.
,
1979
, “
A Velocity Interferometer Technique to Determine Shear-Wave Particle Velocity in Shock-Loaded Solids
,”
J. Appl Phys.
, Vol.
50
, No.
8
, pp.
5196
5201
.
4.
Clifton
R. J.
,
1970
, “
Analysis of the Laser Velocity Interferometer
,”
J. Appl. Phys.
, Vol.
41
, No.
13
, pp.
5335
5337
.
5.
Espinosa, H. D., and Clifton, R. J., 1991, “An Experimental Investigation of Inelasticity in Shock Loaded AIN/AI Composites,” Symposium on Experiments in Micromechanics of Fracture-Resistant Materials, ASME Winter Annual Meeting, K. S. Kim, ed., Atlanta, GA, pp. 37–56.
6.
Espinosa, H. D., 1992, “Micromechanics of the Dynamic Response of Ceramics and Ceramic Composites,” Ph.D. Thesis, Brown University, Providence, RI.
7.
Espinosa
H. D.
,
Raiser
G.
,
Clifton
R. J.
, and
Ortiz
M.
,
1992
, “
Performance of the Star-Shaped Flyer in the Study of Brittle Materials: Three Dimensional Computer Simulations and Experimental Observations
,”
J. Appl. Phys.
, Vol.
72
, No.
8
, pp.
3451
3457
.
8.
Espinosa
H. D.
,
1996
, “
Dynamic Compression-Shear Loading with In-Material Interferometric Measurements
,”
Rev. Sci. Inst.
, Vol.
67
, No.
11
, pp.
3931
3939
.
9.
Hemsing
W. F.
,
1979
, “
Velocity Sensing Interferometer (VISAR) Modification
,”
Rev. Sci. Instrum.
, Vol.
50
, No.
1
, pp.
73
78
.
10.
Kim
K. S.
,
Clifton
R. J.
, and
Kumar
P.
,
1977
, “
A Combined Normal and Transverse Displacement Interferometer with an Application to Impact of Y-Cut Quartz
,”
J. Appl. Phys.
, Vol.
48
, No.
10
, pp.
4132
4139
.
11.
Kumar
P.
, and
Clifton
R. J.
,
1977
, “
Optical Alignment of Impact Faces for Plate Impact Experiments
,”
J. Appl. Physics
, Vol.
48
, No.
3
, pp.
1366
1367
.
12.
Kumar
P.
, and
Clifton
R. J.
,
1979
, “
Dislocation Motion and Generation in LiF Single Crystals Subjected to Plate-Impact
,”
J. Appl. Physics
, Vol.
50
, No.
7
, pp.
4747
4762
.
13.
Mello, M. C., Prakash, V., and Clifton, R. J., 1991, “Multi-Point Interferometer for Monitoring Two Dimensional Wave Motion,” Proceedings of 1991 APS Topical Conference on Shock Compression of Condensed Matter, S. C. Schmidt, R. D. Dick, J. W. Forbes, and D. G. Tasker, eds., Williamsburg, VA, pp. 763–766.
14.
Sullivan
J. P.
, and
Ezekiel
S.
,
1974
, “
A Two-Component Laser Doppler Velocimeter for Periodic Flow Fields
,”
J. Phys.
, Vol.
E7
, pp.
272
274
.
15.
Tong, W., 1991, “Pressure-Shear Impact Investigation of Strain-Rate History Effects in OFHC Copper,” PhD Thesis, Brown University, Providence, RI.
16.
VALYN VISAR, 1995, User’s Handbook, Valyn International, Alburquerque, NM.
17.
VALYN VISAR DATA REDUCTION PROGRAM, 1995, User’s Handbook, Valyn International, Alburquerque, NM.
18.
Yadav
S.
,
Davis
J. A.
, and
Ramesh
K. T.
,
1993
, “
Damage and Recovery Experiments Using Pressure-Shear Plate Impact
,”
Experimental Techniques in the Dynamics of Deformable Solids
, ASME AMD-Vol.
165
, pp.
71
78
.
This content is only available via PDF.
You do not currently have access to this content.