CN106673430A - LED lamp glass material and preparation method thereof - Google Patents

Abstract

The invention discloses an LED lamp glass material which comprises the following raw materials in parts by weight: 3-7 parts of magnesium oxide, 5-12 parts of barium oxide, 1-7 parts of boric acid, 3-11 parts of lauric acid, 3-7 parts of graphene, 2-4 parts of calcium oxide, 4-10 parts of polyvinyl alcohol, 1-4 parts of a bonding agent, 3-7 parts of fluoride, 4-10 parts of hydrogen-containing silicon oil and 2-6 parts of an anti-fog auxiliary. The LED lamp glass material disclosed by the invention has the advantages of being simple in processing flow, convenient to use, long in service life and the like.

Description

A kind of LED glass material and preparation method thereof

Technical field

The present invention relates to a kind of LED glass material and preparation method thereof.

Background technology

At present, with the development of science and technology, all in fast development, LED is used because of it for industry and home lighting field Life-span length, while there is more preferable illuminating effect and good energy-conserving effect to be widely used by people, but existing LED glass The problems such as selecting unreasonable because of its material, often there are problems that material settling out performance difference and and, give people Processing and using bringing many inconvenience.

The content of the invention

In order to overcome the defect of above-mentioned prior art, it is an object of the invention to provide a kind of LED glass material and its system Preparation Method.

The present invention takes technical scheme below to realize：A kind of LED glass material, by following according to parts by weight Raw material composition：3 ~ 9 parts of magnesium oxide, 5 ~ 15 parts of Barium monoxide, 1 ~ 9 part of boric acid, 3 ~ 13 parts of lauric acid, 3 ~ 9 parts of Graphene, calcium oxide 2 ~ 6 parts, 4 ~ 12 parts of polyvinyl alcohol, 1 ~ 5 part of binding agent, 3 ~ 9 parts of fluoride, 4 ~ 12 parts of siliceous hydrogen oil, 2 ~ 8 parts of antifog auxiliary agent.

A kind of above-mentioned LED glass material, is made up of the following raw material according to parts by weight：3 ~ 7 parts of magnesium oxide, oxidation 5 ~ 12 parts of barium, 1 ~ 7 part of boric acid, 3 ~ 11 parts of lauric acid, 3 ~ 7 parts of Graphene, 2 ~ 4 parts of calcium oxide, 4 ~ 10 parts of polyvinyl alcohol, binding agent 1 ~ 4 part, 3 ~ 7 parts of fluoride, 4 ~ 10 parts of siliceous hydrogen oil, 2 ~ 6 parts of antifog auxiliary agent.

A kind of above-mentioned LED glass material, is made up of the following raw material according to parts by weight：6 parts of magnesium oxide, Barium monoxide 10 parts, 5 parts of boric acid, 8 parts of lauric acid, 6 parts of Graphene, 4 parts of calcium oxide, 8 parts of polyvinyl alcohol, 3 parts of binding agent, 6 parts of fluoride contains 8 parts of silicon hydrogen oil, 5 parts of antifog auxiliary agent.

A kind of preparation method of above-mentioned LED glass material, comprises the steps of：

Choose the parts by weight of material in claim 3, by magnesium oxide, Barium monoxide, boric acid, lauric acid, Graphene, calcium oxide and Polyvinyl alcohol mix homogeneously by weight, mixed material is put in crucible carries out heat treated, and heat time heating time is 40min, Add binding agent, fluoride, the oily and antifog auxiliary agent of siliceous hydrogen that place is stirred to batch mixing by agitating device while heating Reason, natural cooling obtains finished product after the completion of stirring.

In sum the invention has the advantages that：The present invention has work flow simple, easy to use and uses The advantages of life-span, can effectively extend the service life of LED, facilitate the use of people.

Specific embodiment

A kind of LED glass material, is made up of the following raw material according to parts by weight：3 ~ 9 parts of magnesium oxide, Barium monoxide 5 ~ 15 Part, 1 ~ 9 part of boric acid, 3 ~ 13 parts of lauric acid, 3 ~ 9 parts of Graphene, 2 ~ 6 parts of calcium oxide, 4 ~ 12 parts of polyvinyl alcohol, 1 ~ 5 part of binding agent, 3 ~ 9 parts of fluoride, 4 ~ 12 parts of siliceous hydrogen oil, 2 ~ 8 parts of antifog auxiliary agent.

A kind of above-mentioned LED glass material, is made up of the following raw material according to parts by weight：3 ~ 7 parts of magnesium oxide, oxidation 5 ~ 12 parts of barium, 1 ~ 7 part of boric acid, 3 ~ 11 parts of lauric acid, 3 ~ 7 parts of Graphene, 2 ~ 4 parts of calcium oxide, 4 ~ 10 parts of polyvinyl alcohol, binding agent 1 ~ 4 part, 3 ~ 7 parts of fluoride, 4 ~ 10 parts of siliceous hydrogen oil, 2 ~ 6 parts of antifog auxiliary agent.

A kind of above-mentioned LED glass material, is made up of the following raw material according to parts by weight：6 parts of magnesium oxide, Barium monoxide 10 parts, 5 parts of boric acid, 8 parts of lauric acid, 6 parts of Graphene, 4 parts of calcium oxide, 8 parts of polyvinyl alcohol, 3 parts of binding agent, 6 parts of fluoride contains 8 parts of silicon hydrogen oil, 5 parts of antifog auxiliary agent.

By magnesium oxide, Barium monoxide, boric acid, lauric acid, Graphene, calcium oxide and polyvinyl alcohol mix homogeneously by weight, will Mixed material is put in crucible carries out heat treated, and heat time heating time is 40min, and while heating binding agent, fluorine are added Compound, the oily and antifog auxiliary agent of siliceous hydrogen, is stirred by agitating device to batch mixing, and natural cooling is obtained after the completion of stirring Finished product.

The present invention has the advantages that work flow is simple, easy to use and service life, can effectively extend LED Service life, facilitates the use of people.

The above is embodiments of the invention, therefore all constructions according to described in the present patent application scope, feature and principle institute The equivalence changes done or modification, are included in the range of present patent application.

Claims (4)

1. a kind of LED glass material, it is characterised in that be made up of the following raw material according to parts by weight：3 ~ 9 parts of magnesium oxide, 5 ~ 15 parts of Barium monoxide, 1 ~ 9 part of boric acid, 3 ~ 13 parts of lauric acid, 3 ~ 9 parts of Graphene, 2 ~ 6 parts of calcium oxide, 4 ~ 12 parts of polyvinyl alcohol glues 1 ~ 5 part of agent of knot, 3 ~ 9 parts of fluoride, 4 ~ 12 parts of siliceous hydrogen oil, 2 ~ 8 parts of antifog auxiliary agent.

2. a kind of LED glass material according to claim 1, it is characterised in that by the following original according to parts by weight Material composition：3 ~ 7 parts of magnesium oxide, 5 ~ 12 parts of Barium monoxide, 1 ~ 7 part of boric acid, 3 ~ 11 parts of lauric acid, 3 ~ 7 parts of Graphene, calcium oxide 2 ~ 4 Part, 4 ~ 10 parts of polyvinyl alcohol, 1 ~ 4 part of binding agent, 3 ~ 7 parts of fluoride, 4 ~ 10 parts of siliceous hydrogen oil, 2 ~ 6 parts of antifog auxiliary agent.

3. a kind of LED glass material according to claim 1, it is characterised in that by the following original according to parts by weight Material composition：6 parts of magnesium oxide, 10 parts of Barium monoxide, 5 parts of boric acid, 8 parts of lauric acid, 6 parts of Graphene, 4 parts of calcium oxide, polyvinyl alcohol 8 Part, 3 parts of binding agent, 6 parts of fluoride, siliceous 8 parts of hydrogen oil, 5 parts of antifog auxiliary agent.

4. the preparation method of a kind of LED glass material according to claim 1 ~ 3, it is characterised in that by following steps Composition：

Choose the parts by weight of material in claim 3, by magnesium oxide, Barium monoxide, boric acid, lauric acid, Graphene, calcium oxide and Polyvinyl alcohol mix homogeneously by weight, mixed material is put in crucible carries out heat treated, and heat time heating time is 40min, Add binding agent, fluoride, the oily and antifog auxiliary agent of siliceous hydrogen that place is stirred to batch mixing by agitating device while heating Reason, natural cooling obtains finished product after the completion of stirring.