Multilayer piezoelectric device and method of producing same

Electrical generator or motor structure – Non-dynamoelectric – Piezoelectric elements and devices

Reexamination Certificate

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Details Multilayer piezoelectric device and method of producing same Multilayer piezoelectric device and method of producing same

: 2000-09-27
: 2002-05-07
: Ramirez, Nestor (Department: 2834)
: Electrical generator or motor structure
: Non-dynamoelectric
: Piezoelectric elements and devices

: C310S366000
: Reexamination Certificate
: active
: 06384517
: ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a multilayer piezoelectric actuator device or another multilayer piezoelectric device and a method of producing the same, more particularly relates to a multilayer piezoelectric device and method of producing the same superior in moisture resistance.
2. Description of the Related Art
In recent years, along with the increasing precision of machine tools, industrial machines, measurement machines, and other precision machinery, there has been a strong demand for establishment of super-precision positioning technology offering a high reliability of operation and enabling high speed operation. Further, progress in micromachines has led to a strong demand for development of microactuators.
In the past, various microactuators have been known. For the following reasons, however, a multilayer piezoelectric actuator device has been viewed as promising as a multilayer piezoelectric viewed as promising as a multilayer piezoelectric device. That is, a multilayer piezoelectric actuator device is small in size, enables microdisplacement precision control, offers a fast response speed, generates a large force, and is high in energy conversion efficiency.
In general, a multilayer piezoelectric actuator comprises a plurality of piezoelectric layers and internal electrode layers alternately stacked.
In the past, the internal electrode layers in multilayer piezoelectric actuator devices, as shown in Japanese Unexamined Patent Publication (Kokai) No. 9-261978, have been generally comprised of inexpensive silver or a silver and palladium alloy.
Such a conventional multilayer actuator device, however, suffers from a tendency of the insulating property of the piezoelectric layers to fall under a high humidity environment and therefore has a problem in durability. This is believed to be because migration of the silver in the electrodes (ionization of silver and movement between electrodes) occurs under a highly humid environment. Depending on the application of the multilayer piezoelectric actuator device etc., sometimes the ends of the internal electrodes have to be exposed from the end faces of the device. In such a device, moisture resistance is particularly required.
Further, Japanese Patent No. 2826078 discloses a multilayer actuator device having internal electrode layers comprised of platinum, palladium, rhodium, silver-palladium, silver-platinum, and platinum-palladium. As shown in this publication, however, when using silver-palladium, silver-platinum, or another metal mainly comprised of silver as the internal electrode layers, the silver in the electrodes is liable to undesirably migrate in a highly humid environment due to the above reasons. Further, as shown in this publication, when using platinum, palladium, or rhodium alone or alloys of the same as the internal electrode layers, there is little shrinkage of the electrode layers compared with shrinkage of the piezoelectric layers due to sintering in the process of production of the device, so that the piezoelectric layers and internal electrode layers peel apart during firing, that is, delamination occurs. Due to this delamination, the reliability of the device against moisture deteriorates.
SUMMARY OF THE INVENTION
An object of the present invention is to provide a multilayer piezoelectric actuator device or other multilayer piezoelectric device free from deterioration of the insulation resistance of the piezoelectric layers, superior in moisture resistance, and having a high reliability and a method of producing the same.
To achieve the above object, the multilayer piezoelectric device according to the present invention comprises piezoelectric layers and internal electrode layers alternately stacked, the internal electrode layers containing gold as an essential ingredient.
Further, according to the inventor, the method of producing a multilayer piezoelectric device comprised of piezoelectric layers and internal electrode layers alternately stacked, comprises the steps of including gold in the internal electrode layers as an essential ingredient and firing the piezoelectric layers and internal electrode layers at a temperature of 1020 to 1220° C., more preferably 1060 to 1200° C.
Preferably, the content of the gold in the internal electrode layers is 20 to 90 wt %, more preferably 60 to 90 wt %, particularly preferably 60 to 80 wt %, with respect to the total weight of the metal ingredients in the internal electrode layers as 100 wt %.
Preferably the internal electrode layers contain gold as an essential ingredient and preferably contain at least one element from palladium, platinum, and rhodium, more preferably at least one element from palladium and platinum, particularly preferably palladium. The total content of the palladium, platinum, and rhodium in the internal electrode layers is paticularly preferably 10 to 80 wt %, more preferably 10 to 40 wt %, preferably 20 to 40 wt % with respect to the total weight of the metal ingredients in the internal electrode layers as 100 wt %. Particularly, the content of the palladium is preferably 20 to 40 wt %, more preferably 25 to 35 wt %.
Preferably, the thickness of the internal electrode layers is 1 to 3 &mgr;m.
Preferably, the area of the piezoelectric layers which the internal electrode layers actually cover, that is, the coverage rate, is 50 to 99 percent, more preferably 70 to 90 percent. Note that the “coverage rate” means the rate obtained by assuming a virtual predetermined area on the surface of an internal electrode layer, defining that predetermined area as 100 percent, and expressing the area of a piezoelectric layer which the internal electrode layer actually covers, that is, the coverage, as a percent.
If no holes etc. are formed in the internal electrode layer, the coverage rate is 100 percent.
Preferably, each piezoelectric layer comprises a lead-based piezoelectric material.
Preferably, the lead-based piezoelectric material contains a composition of the formula:
Pb
a
[(&bgr;
1
,&bgr;
2
)
x
Zr
y
Ti
z
]
b
O
3
where &bgr;
1
is at least one element selected from Zn, Cd, Mg, Ni, Co, Fe, Sc, Cr, Yb, Lu, In, Mn, and Sn and &bgr;
2
is at least one element selected from Nb, Ta, W, Te, and Sb and
x, y, z, a, and b are in relations of 0<x<0.5,
0.1≦y≦0.55,
0.2≦z≦0.60,
x+y+z=1, and
0.97≦a/b≦1.
Alternatively, the lead-based piezoelectric material contains a composition of the formula:
(Pb
1−u
&agr;
u
)
a
[(&bgr;
1
,&bgr;
2
)
x
Zr
y
Ti
z
]
b
O
3
where &agr; is at least one element selected from Sr, Ba, Ca, and La, &bgr;
1
is at least one element selected from Zn, Cd, Mg, Ni, Co, Fe, Sc, Cr, Yb, Lu, In, Mn, and Sn, and &bgr;
2
is at least one element selected from Nb, Ta, W, Te, and Sb and
x, y, z, a, b, and u are in relations of
0<x<0.5,
0.1≦y≦0.55,
0.2≦z≦0.60,
x+y+z=1,
0.97≦a/b≦1, and
0<u≦0.15.
When using platinum, palladium, or rhodium alone or alloys of the same as the internal electrode layers, there is little shrinkage of the electrode layers compared with shrinkage of the piezoelectric layers due to sintering in the process of production of the device, so that the piezoelectric layers and internal electrode layers peel apart, that is, delamination occurs. Due to this delamination, the reliability of the device against moisture deteriorates. It has been considered to mix a low melting point metal and high melting point metal together to make the shrinkage behavior similar to that of the piezoelectric layers and thereby make delamination difficult. As the low melting point metal, silver or copper may be considered. In an internal electrode layer containing these metals, however, migration easily occurs under a high humidity environment.
In the multilayer piezoelectric device and method of producing the same according to the present invention, by designating gold as an essential ingredient and including palladium, platinum, and/or rhodium in the internal electrode layers, the adhesi

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Horino Kenji

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Kojima Tatsuya

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Oliff & Berridg,e PLC

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