High-temperature-resistant wear-resistant compound resin material table surface

A composite resin and high temperature resistant technology, applied in the field of composite resin material countertops, can solve the problems of poor decoration, difficult maintenance, rough surface of cement-type artificial stone countertops, etc., and achieve the effect of improving high temperature resistance and good wear resistance.

Inactive Publication Date: 2016-01-06
SUZHOU FAST INFORMATION TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The present in this patented technology improves upon existing materials by adding certain types of compounds or modifying their surfaces during manufacturing process. This results in higher heat stability at temperatures greater than 250 degrees Celsius (-170). Additionally, it suggests replacing some parts of these materials altogether when possible due to its superior properties such as abrasion resistance and thermal shock tolerance. Overall, this new type of material provides more durability against severe conditions while maintaining good cutting capabilities over longer periods of time.

Problems solved by technology

This patents discusses different methods currently available for managing stones during excavations such as creation of temporary structures like tiles made by burning clay with iron (iron) powder, casting concrete into molds, etc., and how environmental concerns make recycling challenging. There exists an urgent challenge towards finding ways to effectively reuse waste material without causing harm on our planet's ecosystem.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] Embodiment 1: A high-temperature-resistant and wear-resistant composite resin material table, including the following raw materials in parts by weight: 22 parts of high-temperature-resistant unsaturated resin, 205 parts of inorganic raw materials added with functional modifiers, and 0.08 parts of rare earth oxides. The inorganic raw materials are quartz sand with a particle size of less than 5mm, 150-200 mesh diatomite and 350 mesh silica powder, and the functional modifiers are monoalkoxy titanate coupling agents, polytetrafluoroethylene and tertiary A mixture of butyl peroxycarbonate-2-ethylhexyl, the addition amount of the functional modifier is 5‰ of the weight of the inorganic raw material.

[0016] Further, the high temperature resistant unsaturated resin is MFE780 series novolak epoxy vinyl resin.

[0017] Further, the rare earth oxides are oxides of lanthanide elements.

[0018] Further, the weight ratio of each raw material of the inorganic raw material is: quart

Embodiment 2

[0023] Embodiment 2: A high-temperature-resistant and wear-resistant composite resin material table top, including the following raw materials in parts by weight: 20 parts of high-temperature-resistant unsaturated resin, 210 parts of inorganic raw materials added with functional modifiers, and 0.1 part of rare earth oxide. The inorganic raw materials are quartz sand with a particle size of less than 5mm, 150-200 mesh diatomite and 350 mesh silica powder, and the functional modifiers are monoalkoxy titanate coupling agents, polytetrafluoroethylene and tertiary A mixture of butyl peroxycarbonate-2-ethylhexyl, the addition amount of the functional modifier is 7‰ of the weight of the inorganic raw material.

[0024] Further, the high temperature resistant unsaturated resin is MFE780 series novolak epoxy vinyl resin.

[0025] Further, the rare earth oxides are oxides of lanthanide elements.

[0026] Further, the weight ratio of each raw material of the inorganic raw material is: quar

Embodiment 3

[0028] Embodiment 3: A high-temperature-resistant and wear-resistant composite resin material table top, including the following raw materials in parts by weight: 24 parts of high-temperature-resistant unsaturated resin, 202 parts of inorganic raw materials added with functional modifiers, and 0.07 parts of rare earth oxides. The inorganic raw materials are quartz sand with a particle size of less than 5mm, 150-200 mesh diatomite and 350 mesh silica powder, and the functional modifiers are monoalkoxy titanate coupling agents, polytetrafluoroethylene and tertiary A mixture of butyl peroxycarbonate-2-ethylhexyl, the addition of the functional modifier is 4‰ of the weight of the inorganic raw material.

[0029] Further, the high temperature resistant unsaturated resin is MFE780 series novolak epoxy vinyl resin.

[0030] Further, the rare earth oxides are oxides of lanthanide elements.

[0031] Further, the weight ratio of each raw material of the inorganic raw material is: quartz s

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Abstract

A high-temperature-resistant wear-resistant compound resin material table surface is characterized by comprising the following raw materials in parts by weight: 20-25 parts of high-temperature-resistant unsaturated resin, 200-210 parts of inorganic raw materials added with a functional modifier, and 0.05-0.1 part of rare earth oxide, wherein the inorganic raw materials comprise quartz sand of which the particle diameter is less than 5 mm, 150-200-mesh diatomite and 350-mesh silica powder; the functional modifier is a mixture of mono-alkoxyl titanate coupling agent, polytetrafluoroethylene and tert-Butylperoxy 2-ethylhexyl carbonate; the additive amount of the functional modifier is 0.4-0.7% of the weight of the inorganic raw materials. The adopted high-temperature-resistant unsaturated resin is better improved in high temperature resistance as compared with the unsaturated resin in the prior art, the high-wear-resistant functional modifier and the rare earth oxide are adopted to conduct wear-resistant and high-temperature-resistant modification on the compound resin material table surface, the high temperature resistance of the material is improved, and the product has better wear resistance.

Description

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Claims

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Application Information

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Owner SUZHOU FAST INFORMATION TECH CO LTD
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