CN103333565A - Anti-corrosion heat-dissipation coating and preparation method thereof - Google Patents

Abstract

The invention discloses an anti-corrosion heat-dissipation coating and a preparation method thereof. The coating comprises following raw materials: acrylic resin, calcium silicate powder, acetic ether, modified aluminium carbide, iron oxide, polyethylene wax powder, triethylene tetramine, anti-oxidant 264, water-soluble nano-level silica sol, dimethyl adipate, dispersant NNO, and acetone. The method adopts acrylic resin as the main material, which has the advantages of aging resistance, good adhesivity, good heat-dissipation effect, and long-term use at the temperature between 150 and 200 DEG C. Calcium silicate powder strengthens the anti-corrosion performance of the product, and alum and modified aluminium carbide strengthen the combination between the raw materials. The coating has the advantages of durability, waterproofness, damp-resistance, corrosion-resistance and very good adhesive performance.

Description

A kind of anticorrosion heat radiation coating and preparation method thereof

Technical field

The present invention relates to technical field of coatings, be specifically related to a kind of anticorrosion heat radiation coating and preparation method thereof.

Background technology

Along with the rapid expansion of light fixture use range, prolong light fixture and also become urgent problem work-ing life; Adopt heat-conducting glue to solve the light fixture heat dissipation problem at present, but there is heatproof and ageing-resistant poor in its employed material, the technical problem little to the base material cohesive force, that radiating effect is not good and construction is inconvenient is difficult to satisfy people to the requirement of light fixture heat radiation.

Summary of the invention

The object of the present invention is to provide a kind of anticorrosion heat radiation coating and preparation method thereof.

The present invention adopts following technical scheme:

A kind of anticorrosion heat radiation coating is characterized in that the weight part of its constitutive material is: acrylic resin 50-55, calcium silicate powder 3.0-4.0, vinyl acetic monomer 90-110, modified carbonize aluminium 4.3-4.8, ferric oxide 1.8-2.2, polyethylene wax powder 4.0-5.0, triethylene tetramine 4.5-5.0, antioxidant 264 0.3-0.5, water-soluble nano grade silica sol 1.5-2.5, dimethyl adipate 2.5-3.0, dispersion agent NNO 1.5-1.7 and acetone 18-22.

Described anticorrosion heat radiation coating is characterized in that the weight part of its constitutive material is: acrylic resin 52, calcium silicate powder 3.5, vinyl acetic monomer 100, modified carbonize aluminium 4.5, ferric oxide 2.0, polyethylene wax powder 4.5, triethylene tetramine 4.8, antioxidant 264 0.4, water-soluble nano grade silica sol 2.0, dimethyl adipate 2.8, dispersion agent NNO 1.6 and acetone 20.

The preparation method of described anticorrosion heat radiation coating is characterized in that may further comprise the steps:

(1) preparation of modified carbonize aluminium: 15-20 part aluminium carbide and equal proportion alum are mixed, add 1.5-2.5 part Starso, 2.0-3.0 part attapulgite, 2.5-3.0 part stalk ashes, 3.0-5.0 part nano powder coal ash and suitable quantity of water then, mix the back at 400-450 ℃ of sintering temperature, cooling gets final product then;

(2) take by weighing each raw material, mix to be incorporated in the reactor stirring then, when being ground to 20-30 μ m; Stop to grind packing.

Beneficial effect of the present invention:

It is major ingredient that the present invention adopts acrylic resin, ageing-resistant, cohesive force is big, good heat dissipation effect, can be at 150-200 ℃ of following life-time service, calcium silicate powder has Corrosion Protection preferably, as additive, can obviously improve Anticorrosive Character of the present invention, be suitable for the strong occasions of corrodibility such as various chemical plant.

Alum and aluminium carbide strengthen the Combination between each raw material, the persistence of filming, water-fast, moisture-proof, good corrosion resistance, and adhesion property is splendid.

During construction, the heat radiation coating spraying application was dried 1 hour down at 60 ℃, got final product film forming, made 20-30 μ m heat radiation coating.

Embodiment

Embodiment 1: a kind of anticorrosion heat radiation coating is characterized in that the weight part (kilogram) of its constitutive material is: acrylic resin 52, calcium silicate powder 3.5, vinyl acetic monomer 100, modified carbonize aluminium 4.5, ferric oxide 2.0, polyethylene wax powder 4.5, triethylene tetramine 4.8, antioxidant 264 0.4, water-soluble nano grade silica sol 2.0, dimethyl adipate 2.8, dispersion agent NNO 1.6 and acetone 20.

The preparation method is characterized in that may further comprise the steps:

(1) preparation of modified carbonize aluminium: 15-20 part aluminium carbide and equal proportion alum are mixed, add 1.5-2.5 part Starso, 2.0-3.0 part attapulgite, 2.5-3.0 part stalk ashes, 3.0-5.0 part nano powder coal ash and suitable quantity of water then, mix the back at 400-450 ℃ of sintering temperature, cooling gets final product then;

(2) take by weighing each raw material, mix to be incorporated in the reactor stirring then, when being ground to 20-30 μ m; Stop to grind packing.

The heat radiation coating that above-described embodiment 1 makes directly is sprayed at through on the glass light fixture that cleans up, heatproof test: behind the 187 ℃/3h of baking oven baking, the baking oven baking after 128 ℃/15 days the glass light fixture coat color and luster and do not have considerable change; Uviolizing 3.5h, not shedding of coating is non-yellowing, artificial accelerated aging test under 100 ℃ and 280W ultraviolet light irradiation condition, 5345 hours ageing-resistant time, 270 ℃ of heatproof high temperature, bonding shearing force 19.2MPa, thermal conductivity 275W/(mK).

Claims (3)

1. an anticorrosion heat radiation coating is characterized in that the weight part of its constitutive material is: acrylic resin 50-55, calcium silicate powder 3.0-4.0, vinyl acetic monomer 90-110, modified carbonize aluminium 4.3-4.8, ferric oxide 1.8-2.2, polyethylene wax powder 4.0-5.0, triethylene tetramine 4.5-5.0, antioxidant 264 0.3-0.5, water-soluble nano grade silica sol 1.5-2.5, dimethyl adipate 2.5-3.0, dispersion agent NNO 1.5-1.7 and acetone 18-22.

2. anticorrosion heat radiation coating according to claim 1 is characterized in that the weight part of its constitutive material is: acrylic resin 52, calcium silicate powder 3.5, vinyl acetic monomer 100, modified carbonize aluminium 4.5, ferric oxide 2.0, polyethylene wax powder 4.5, triethylene tetramine 4.8, antioxidant 264 0.4, water-soluble nano grade silica sol 2.0, dimethyl adipate 2.8, dispersion agent NNO 1.6 and acetone 20.

3. the preparation method of an anticorrosion heat radiation coating as claimed in claim 1 is characterized in that may further comprise the steps:

(1) preparation of modified carbonize aluminium: 15-20 part aluminium carbide and equal proportion alum are mixed, add 1.5-2.5 part Starso, 2.0-3.0 part attapulgite, 2.5-3.0 part stalk ashes, 3.0-5.0 part nano powder coal ash and suitable quantity of water then, mix the back at 400-450 ℃ of sintering temperature, cooling gets final product then;

(2) take by weighing each raw material, mix to be incorporated in the reactor stirring then, when being ground to 20-30 μ m; Stop to grind packing.