Composite plate and preparation method thereof
a technology of composite plates and preparation methods, applied in the field of construction materials, can solve the problems of poor chemical resistance, high cost of stone plates obtained this way, and limited application, and achieve the effects of low raw material cost, good physical and chemical properties, and reduced raw material cos
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embodiment 1
[0056]This embodiment provides a composite plate prepared from the following formula:
[0057]45% cullet, 38% calcium carbonate, 15% unsaturated polyester resin, 1% curing agent, 1% auxiliary agent;
[0058]wherein the curing agent is t-butyl peroxybenzoate and the auxiliary agent is a titanate coupling agent.
[0059]The cullet has a particle size ranging from 130 to 150 mesh, the calcium carbonate has a particle size ranging from 280 to 300 mesh.
[0060]Preparation:
[0061](1) Each raw material was prepared according to the formula.
[0062](2) Various raw materials were mixed uniformly to obtain a base material.
[0063](3) The base material was subjected to vibration pressing to obtain a plate clay body, wherein the vibration pressing frequency was 30 Hz, the time was 5 min.
[0064](4) The plate clay body was heat-cured at 80° C. to obtain the composite plate product.
embodiment 2
[0065]This embodiment provides a composite plate prepared from the following formula:
[0066]49.8% cullet, 45% calcium carbonate, 5% unsaturated polyester resin, 0.1% curing agent, 0.1% auxiliary agent;
[0067]wherein the curing agent is benzoyl peroxide and the auxiliary agent is an aluminate coupling agent.
[0068]The cullet has a particle size ranging from 40 to 50 mesh, the calcium carbonate has a particle size ranging from 380 to 400 mesh.
[0069]Preparation:
[0070](1) Each raw material was prepared according to the formula.
[0071](2) Various raw materials were mixed uniformly to obtain a base material.
[0072](3) The base material was subjected to vibration pressing to obtain a plate clay body, wherein the vibration pressing frequency was 40 Hz, the time was 2 min.
[0073](4) The plate clay body was heat-cured at 90° C. to obtain the composite plate product.
embodiment 3
[0074]This embodiment provides a composite plate prepared from the following formula:
[0075]51% cullet, 41.8% calcium carbonate, 6% unsaturated polyester resin, 0.7% curing agent, 0.5% auxiliary agent;
[0076]wherein the curing agent is t-butyl peroxy-2-ethylhexanoate and the auxiliary agent is γ-methacryloxypropyltrimethoxysilane.
[0077]The cullet has a particle size ranging from 100 to 120 mesh, the calcium carbonate has a particle size ranging from 300 to 320 mesh.
[0078]Preparation:
[0079](1) Each raw material was prepared according to the formula.
[0080](2) Various raw materials were mixed uniformly to obtain a base material.
[0081](3) The base material was subjected to vibration pressing to obtain a plate clay body, wherein the vibration pressing frequency was 45 Hz, the time was 2 min.
[0082](4) The plate clay body was heat-cured at 90° C. to obtain the composite plate product.
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