JPH0767778B2 - Electric laminate - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an electrical laminate using a glass fiber substrate and a light-transmitting thermosetting resin such as an epoxy resin as a binder matrix.

(Prior Art) A solder resist is formed in order to prevent solder from sticking to unnecessary places on a circuit and to protect a conductor pattern when an electronic component is mounted on a printed wiring board. . The pattern of this solder resist is applied with liquid photosensitive resin on the circuit surface, or a photosensitive resin film is attached on the circuit surface, and ultraviolet rays are exposed (exposed) in a predetermined pattern to dissolve the photosensitive resin in unnecessary parts. It is formed by removing (developing).

With a light-transmissive laminate such as an epoxy resin laminate, when resist patterns are formed on both sides, ultraviolet rays on one side are transmitted and the photosensitive resin on the other side is exposed, preventing accurate pattern formation. .

Therefore, pigments such as phthalocyanine blue and zinc white, dyes such as methyl violet and Victoria blue, ultraviolet absorbers such as orthohydroxybenzophenones, and fillers such as calcium carbonate and clay are used to prevent the transmission of ultraviolet rays. .

(Problems to be solved by the invention) However, pigments such as phthalocyanine blue and zinc white,
Dyes such as methyl violet and Victoria blue, UV absorbers such as ortho-hydroxybenzophenones,
When a filler such as calcium carbonate or clay is used, there is a problem that the hue of the laminated plate is changed from that of a normal product.

An object of the present invention is to provide an electrical laminate which has the same hue as that of a normal product and can shield ultraviolet rays.

(Means for Solving the Problems) The present invention is an electrical laminate comprising a glass fiber base material and a thermosetting resin matrix containing a fluorescent whitening agent.

Examples of the fluorescent whitening agent include coumarin-based, oxazolyl-based, and thiophene-based agents.

The electrical laminate of the present invention is manufactured by laminating a predetermined number of prepregs obtained by impregnating and drying a glass fiber base material with a thermosetting resin varnish to which a fluorescent whitening agent is added, and heat-processing the laminated prepregs.

Usually, a laminated board is manufactured by stacking a plurality of prepregs and heating and pressing them. It is not necessary to add optical brightener to all prepregs. It is preferably added to the thermosetting resin that constitutes the prepreg in contact with the copper foil.

(Function) The fluorescent whitening agent absorbs ultraviolet rays having a wavelength of 300 to 400 nm and emits visible light. Therefore, the ultraviolet rays can be shielded without impairing the original hue of the laminated plate.

(Example) (Example 1) 1% by weight of a fluorescent whitening agent (UBITEX OB manufactured by Ciba-Geeky)
The epoxy resin varnish to which was added was impregnated into a glass fiber cloth base material having a thickness of 0.2 nm and dried to obtain a prepreg (prepreg A). Separately, an epoxy resin varnish containing no optical brightening agent was similarly impregnated into a glass fiber cloth having a thickness of 0.2 nm and dried to obtain a prepreg (prepreg B).

Two pieces of prepreg B are piled up, and prepreg A is placed on both outsides of them.
And a copper foil having a thickness of 18 μm was placed on both outer sides and heated and pressed to obtain a double-sided copper-clad laminate.

(Example 2) A double-sided copper-clad laminate was obtained in the same manner as in Example 1 except that the number of prepregs B was four.

(Example 3) A double-sided copper-clad laminate was obtained in the same manner as in Example 1 except that the number of prepregs B was six.

Comparative Example 1 A glass fiber cloth having a thickness of 0.2 mm was impregnated with an epoxy resin varnish containing 3% by weight of an ultraviolet absorber (Sumisorb 300, Sumitomo Chemical Co., Ltd.) and dried to obtain a prepreg.

Four prepregs are piled up, and the thickness is 18μm on both outer sides.
The above copper foils were stacked and heated and pressed to obtain a double-sided copper-clad laminate.

Comparative Example 2 A double-sided copper-clad laminate was obtained in the same manner as in Comparative Example 1 except that the number of prepregs was 6.

(Comparative Example 3) A double-sided copper-clad laminate was obtained in the same manner as in Comparative Example 1 except that the number of prepregs was eight.

With respect to each of the double-sided copper-clad laminates obtained above, the ultraviolet transmittance, the presence / absence of resist remaining on the surface opposite to the exposure during exposure, and the hue were examined. The results are shown in the table. The test method is as follows.

(UV transmittance) The copper foil was dissolved and removed from the double-sided copper-clad laminate with ammonium persulfate, and 700 mJ / cm with a UV irradiation machine (Oak Seisakusho).
Irradiate ² ultraviolet rays, ultraviolet illuminance meter (UV manufactured by Oak Manufacturing Co., Ltd.
The ultraviolet transmittance was determined by -MOI using two types of sensors, UV-35 and UV-42).

(Presence or absence of resist remaining on the surface opposite to the exposure) Apply liquid resist (PSR-1000 manufactured by Taiyo Ink Co., Ltd.) to both surfaces of the double-sided copper-clad laminate by screen printing, and
It was dried at 0 ° C for 15 minutes. Next, apply a negative film on one side, irradiate with ultraviolet rays by an ultraviolet irradiator, and develop,
Whether or not the resist remained was observed on the surface opposite to the exposure.

(Hue) The hue of the laminate obtained by dissolving and removing the copper foil with ammonium persulfate from the double-sided copper-clad laminate was compared with the laminate without the optical brightener.

(Effect of the invention) According to the present invention, since the fluorescent whitening agent is contained in the resin matrix, it is possible to block ultraviolet rays without changing the hue of the laminate, and when forming a resist pattern on the double-sided printed wiring board, A sharp pattern can be obtained.

Continuation of the front page (56) Reference JP-A-54-32769 (JP, A) JP-A-48-42723 (JP, A) Actual development-Sho 56-146540 (JP, U) JP-B-49-16301 (JP) , B1)

Claims (1)

[Claims] 1. An electrical laminate comprising a glass fiber base material and a thermosetting resin matrix containing a fluorescent whitening agent.