JPH0725618B2 - A-l N-type tungsten metallized structure - Google Patents

Description

The present invention relates to an aluminum nitride (AlN) body of tungsten metallized structure.

[Conventional technology]

In order to cope with an increase in the amount of heat generated due to higher density, higher speed, and higher output of semiconductor devices, a substrate material having excellent heat dissipation has been required. As a substrate material having excellent heat dissipation, a substrate made of AlN is attracting attention in place of Al ₂ O ₃ which has been conventionally used.

However, for use as a substrate on which a semiconductor device is mounted, a technique for metallizing the substrate surface must be established before the problem of heat dissipation. As a method of metallizing an AlN substrate, a method is known in which a tungsten paste obtained by mixing tungsten powder and an organic vehicle is printed on an AlN green sheet and baked.

[Technical problem to be solved by the invention]

However, when a so-called Tungste plain paste containing only tungsten powder and an organic vehicle is used, it is difficult to obtain sufficient bonding strength between AlN and tungsten because AlN has poor wettability with a metal. It was

Therefore, an object of the present invention is to provide a metallized structure of tungsten having a sufficient bonding strength to AlN.

[Means for solving technical problems]

The metallized structure of tungsten for the AlN body according to the present invention has a total composition of 35 to 90% by weight of the same composition as the AlN body, a first layer comprising 10 to 65% by weight of tungsten, and a first layer above the first layer. And a second layer made of tungsten is formed on the substrate.

[Operation and effect of the invention]

The present inventor has obtained a tungsten metallized layer having sufficient bonding strength with respect to AlN, even if a tungsten plain paste consisting only of tungsten powder and an organic vehicle is applied to an AlN green sheet and baked in a dried state. In consideration of the fact that various tungsten pastes were created, and as a result of intensive studies, it was found that if an additive material having the same composition as the AlN green sheet is mixed into the tungsten paste, the bonding strength with the AlN body can be increased. The present invention has been completed and the present invention has been accomplished.

That is, the present invention is
By mixing an additive having the same composition as the AlN body and metallizing the additive, the first tungsten metallized layer is formed into Al.
By firmly bonding to the N-body and further forming a second metallization layer made of tungsten capable of firmly bonding to the first tungsten metallization layer on the first tungsten metallization layer, It provides a metallization structure.

As apparent from the examples described below, according to the present invention,
The second metallization layer made of tungsten is firmly bonded to the AlN body via the first tungsten metallization layer. Therefore, as compared with the case of using the conventional paste containing only tungsten, the bonding strength of the tungsten layer with respect to AlN can be dramatically increased, so that an AlN substrate with excellent heat dissipation can be effectively metallized. Therefore, it becomes possible to cope with higher density, higher speed, and higher output of the semiconductor device.

[Explanation of Examples]

An AlN green sheet prepared by adding 3% by weight of Y ₂ O ₃ as a sintering aid was prepared. Further, as the first tungsten paste, a mixture was prepared by mixing the tungsten powder and the additive having the same composition as the AlN green sheet in the ratio shown in Table 1, and further adding the necessary amount of the organic vehicle. Further, a second tungsten paste prepared by adding a required amount of organic vehicle to tungsten powder was prepared.

The first tungsten paste was applied to the surface of the AlN green sheet in the shape of a disk having a diameter of 3 mm and dried. next,
The second tungsten paste was applied on top of the first tungsten paste and also dried. After that, the binder in the green sheet and the organic vehicle in the paste were scattered and a binder removal treatment was performed. It was fired at a temperature of 1850 ° C. for 5 hours in a non-oxidizing atmosphere to obtain an AlN sintered substrate having a metallized layer.

A Ni layer was formed on the metallized layer on the sintered substrate by electroplating. Further, a copper wire having a diameter of 2 mm was soldered on the Ni layer to obtain a test sample.

The wire of the above test sample was pulled, and the tensile strength when the wire was detached from the AlN substrate was measured. The measurement results are also shown in Table 1.

As is clear from Table 1, as in sample number 1, the first
When the amount of the additive in the layer is larger than the range of the present invention, the effect of forming the two-layer structure is hardly obtained, and the bonding strength between the first layer and the second layer decreases. If the amount of the additive in the first layer is less than the range of the present invention, as in Sample No. 6, the joint strength with the AlN body will decrease.

Further, the tensile strength of the single-layer structure (conventional example) as in Sample No. 7 was as small as 3.2 kg / mm ² .

On the other hand, in the sample (Sample Nos. 2 to 5) in which the first layer, which is within the scope of the present invention, contained 35 to 90% by weight of the same composition as the AlN body and had a two-layer structure, Strength is 6.
It can be seen that it is 0 Kg / mm ² or more.

From the above results, the first layer containing the additive having the same composition as the AlN body only within the scope of the present invention and the second layer containing tungsten
By forming a two-layer structure in layers, the AlN of the metallized layer
It can be seen that the bonding strength to the can be dramatically increased.

In the above example, the two-layer structure metallizing tungsten paste was printed on the surface of the AlN green sheet, but after the two-layer structure metallizing tungsten paste was printed, the green sheets were stacked and metallized inside the laminate. The tungsten paste of the present invention can also be used in the method of forming the metallized layer in the AlN sintered body by positioning the layers and pressing and firing the laminated green sheets to form a stable inner conductor. it can.

Further, in the above-mentioned examples, the sintering and metallization of the AlN body were performed at the same time.However, the AlN body was bonded to tungsten by forming a metallized layer having a two-layer structure on the surface of the sintered AlN body. High strength products can be obtained.

Front Page Continuation (72) Inventor Akira Nagai 2-26-10 Tenjin Tenjin, Nagaokakyo-shi, Kyoto Inside Murata Manufacturing Co., Ltd. (56) References JP 61-281089 (JP, A) JP 62-207789 ( JP, A) JP-A-63-195183 (JP, A)

Claims (1)

[Claims] 1. A first layer comprising 35 to 90% by weight of the same composition as the AlN body and 10 to 65% by weight of tungsten on the AlN body, and tungsten on the first layer. And a second layer formed of AlN.