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Polymerizable composition for epoxy acrylic optical material, and method for preparing epoxy acrylic optical material

A polymeric composition, epoxy acrylic technology, applied in optics, optical components, instruments, etc., can solve the problem of difficult adjustment of polymeric composition viscosity and reaction speed, refractive index, strength, transparency, optical characteristics reduction, low processing It is difficult to carry out the optical material preparation process and other problems, and achieves the effect of excellent optical characteristics, excellent processability, and high Abbe number

Active Publication Date: 2015-04-15
江苏可奥熙光学材料科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, since dibenzyl maleate is a solid phase, it is difficult to adjust the viscosity and reaction rate of the polymerizable composition, resulting in poor handling during the process of mixing the composition, and there are problems in maintaining an appropriate reaction rate in the future.
Reduction of production cost has become a major concern in the lens field recently, and the low processability in the production process makes it difficult to carry out the production process of optical materials, thus becoming a factor that reduces productivity
And, when the appropriate reaction speed cannot be maintained, that is, when the reaction speed is slow at the beginning, but suddenly becomes faster as the temperature rises, the quality of the lens such as pulsation may be reduced. On the contrary, when mixed If the polymerization reaction proceeds too fast, various optical properties such as refractive index, strength, and transparency may decrease due to incomplete polymerization, so maintaining an appropriate reaction speed becomes an important factor for lens quality

Method used

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  • Polymerizable composition for epoxy acrylic optical material, and method for preparing epoxy acrylic optical material
  • Polymerizable composition for epoxy acrylic optical material, and method for preparing epoxy acrylic optical material
  • Polymerizable composition for epoxy acrylic optical material, and method for preparing epoxy acrylic optical material

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Embodiment

[0041] Hereinafter, the present invention will be described in more detail through specific examples. However, these examples are only for illustrating the present invention more specifically, and the scope of the present invention should not be limited to these examples.

[0042] Dibenzyl maleate preparation

Synthetic example 1

[0044] The dimethyl maleate of 144g (1.0 moles) and the benzyl alcohol of 216g (2.0 moles) are put into the four-necked flask of 2L, stir after adding the dibutyltin oxide (dibutyltin oxide) of 0.2g as catalyst, when The temperature was raised when the internal temperature was 140°C (the temperature of the external heat medium was set at 160°C). About 1 hour after the internal temperature reached 140° C., methanol generation started, and after about 30 g of methanol was generated, the reaction rate slowed down. Thereafter, vacuum distillation was carried out using a vacuum pump to additionally recover about 21 g of methanol, and cooling was performed to increase the degree of vacuum so that the temperature of the content became 105° C. or lower, and residual benzyl alcohol was recovered and concentrated into the total content. The content of benzyl alcohol is 1% or less. Thereafter, after cooling to 60° C. or lower and releasing the decompression, the product was analyzed by ...

Embodiment 1

[0088] 35 g of styrene, 5 g of α-methylstyrene, 2g of methyl styrene dimer, 2g of tributylphosphite (TBP, tributylphosphite) and 8g of the dibenzyl maleate preparation in Synthesis Example 1, and stirred for about 30 minutes. After that, filter with a filter paper of 0.45 μm or less, add 0.05 g of V65, 0.13 g of 3-M as a catalyst, and mix 0.2 g of ZelecUN with an internal release agent TM , thereby preparing a resin composition for ophthalmic lenses. The thus-prepared resin composition for ophthalmic lenses was stirred for 1 hour, degassed under reduced pressure for 10 minutes, filtered, and then poured into a glass mold assembled with a polyester adhesive tape. Put the glass mold filled with the resin composition for spectacle lenses into a forced circulation oven, heat and solidify from 35°C to 110°C for 20 hours, then cool to 70°C, and assemble and disassemble the glass mold to obtain spectacle lenses. After the obtained lens was processed to a diameter of 72 mm, it was c...

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Abstract

The present invention relates to a polymerizable composition for an epoxy acrylic optical material, and a method for preparing an epoxy acrylic optical material, and particularly, to: a polymerizable composition for an epoxy acrylic optical material which maintains suitable viscosity and reaction velocity, and thereby facilitates preparation of an optical material; and a method for preparing an optical material. The present invention provides a polymerizable composition for an epoxy acrylic optical material, comprising an epoxy acrylate-based compound and a dibenzyl malate product containing 10-25 wt% of monobenzyl malate. The present invention can provide a polymerizable composition for an epoxy acrylic optical material which uses a dibenzyl malate product containing 10-25 wt% of monobenzyl malate together with a monomer component, thereby having a suitable handling property and reactivity to facilitate the preparation of an optical material. It is possible to prepare, in a high yield, a high quality epoxy acrylic optical material having a high refractive index, a high Abbe's number and remarkable optical properties such as transparency, lightweightness, heat resistance and the like by template polymerizing the polymerizable composition of the present invention.

Description

technical field [0001] The present invention relates to a polymerizable composition for epoxy-acrylic optical materials and a method for producing epoxy-acrylic optical materials, and in particular, to a polymerization method for epoxy-acrylic optical materials that can be easily prepared into optical materials by maintaining an appropriate viscosity and reaction speed. Preparation methods of optical compositions and optical materials. Background technique [0002] Plastic optical lenses are introduced as high specific gravity and low impact alternatives to solve the problems of glass lenses. Representative examples include polyethylene glycol bis (allyl carbonate), polymethyl methacrylate, diallyl phthalate, and the like. However, optical lenses prepared from polymers among them are excellent in physical properties such as templating properties, dyeability, hard coating film tightness, and impact resistance, but there are problems due to the refractive index dropping to ab...

Claims

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Application Information

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IPC IPC(8): C08L33/04C08L35/00C08F20/32G02B1/04
CPCG02B1/041C08L33/04C08L33/14C08L33/068C08L2201/08C08F20/10G02B1/04G02B3/00
Inventor 张东奎卢守均金钟孝
Owner 江苏可奥熙光学材料科技有限公司