KR20090041476A - Biodegradable plastic composition and window making using same - Google Patents

Abstract

A biodegradable resin composition is provided to prevent the generation of environmental pollutants and dioxins and to ensure high strength, weatherproof property and durability. A biodegradable resin composition for windows comprises polylactic acid resin 60-90 weight %, PPC 5-30 weight %, calcium, tin and zinc-based stabilizer 1~3 weight %, antioxidant 0.2~1 weight %, reaction aid 0.5~3 weight %, TiO2, calcium carbonate or talc 5~20 weight % as an inorganic filler, silicon-based ceramics 0.5~1 weight %, accelerator 0.5~1.5 weight % and WAX 1-2 weight %.

Description

Biodegradable plastic composition and window making using the same

The present invention relates to a biodegradable composition and a window product using the same. More specifically, the biodegradable resin 30-90% by weight of PLA resin and 5-30% by weight of PPC, stabilizer 1-3%, antioxidant 0.2-1 Weight%, 0.5 to 3% by weight of reaction aid, inorganic filler TiO2 or calcium carbonate, 5 to 20% by weight of talc, 0.5 to 1% by weight of silicon ceramic, 0.5 to 1.5% by weight of accelerator, 1-2% by weight of WAX Pellets made of Pellet extruder are mixed with 5-10% by weight of biodegradable Master Batch to improve aesthetics. To the composition.

The present invention relates to windows and doors made of biodegradable resins, and more particularly to compositions for making them into windows, doors, window frames, door frames made of biodegradable resins.

A window is a general term for various windows or doors installed to pass through the inside and outside of a building, and is referred to herein as including a window frame into which a window is inserted. Windows and window frames are classified into synthetic resins, wood and metal window materials according to the materials used. Especially, windows made of PVC raw materials generate environmental pollutants from the production stage, and dioxin is produced when incinerated, and the soil is contaminated when reclaimed. It is a technology that manufactures the same machine as the existing PVC extrusion production equipment which does not cause problems. It controls the ratio of raw materials, the concentration of stabilizer and nonflammable in the extrusion manufacturing process, and extrudes with high pressure and low temperature by using a mold with smooth and high gloss surface. By manufacturing high strength biodegradable windows, it is a technology in resin that can produce products superior to current PVC windows.

Synthetic resin windows are generally made of PVC (polyvinyl chloride) as the main raw material and extruded. PVC raw materials are treated with chlorine gas, which is a toxic gas in the process of manufacturing and processing. Windows and windows release harmful substances, for example, vinyl chloride, which is used as a building PVC block, causes various cancers, tumors of the liver, lungs, brain, and disorders of the genitals of men and women. In addition, additives include toxic chemicals, which are 50% of the components of the finished PVC products, such as plasticizers, stabilizers, accelerators or complexing agents, disinfectants, foams, etc., which make the product soft and flexible. In addition to causing problems, incineration of discarded products produces dioxins and toxic additives when landfill flows into the soil, contaminating groundwater and soil.

In addition, colored PVC windows have the disadvantage of changing the physical properties of PVC when made by adding pigments to PVC resins. As an attempt to express conventional colors and patterns, COLOR FILM is fused to an extruded synthetic resin window. In order to improve the decorative beauty, however, when only PVC resin is used as the surface member to be fused to the outer surface of the extruded PVC windows and doors, the weather resistance of the PVC itself is very weak, and as the temperature is increased, the color of the colored colors increases. This rapidly changing and warping occurs, but the extruded PLA windows by mixing a color masterbatch made by mixing a dye in the same biodegradable composition to the biodegradable composition made of the biodegradable resin of the present invention is more weather-resistant and The appearance without distortion is beautiful and could make the window of high gloss.

Technical problem to be invented

The present invention has been made to solve the above problems, a biodegradable resin composition that does not discharge environmental pollutants in the process of manufacturing the composition and windows, does not produce dioxin during incineration and landfill, and does not pollute the soil; The purpose is to provide a finished window.

In addition to producing windows with surface strength, durability, and heat, which are stronger than PVC windows, in addition to improving functionality, eco-friendly windows are available to satisfy consumer demands for aesthetics and to replace PVC and aluminum windows, which are becoming more advanced. It is an object of the present invention to provide a biodegradable resin composition which is produced and mixed with processing aids such as PLA resin, heat stabilizer, antioxidant, filler, and the like.

Composition and Function of the Invention

In order to achieve the above object, the biodegradable resin window composition according to the present invention is 5-30% by weight of PPC, 1 to 3% by weight of Tin, Ca or zinc-based stabilizer, antioxidant against 30-90% by weight of PLA resin 0.2 to 1% by weight, 0.5 to 3% by weight of reactive type aid, TIO2 as an inorganic filler, 5-20% of talc or calcium carbonate, 0.5 to 1% by weight of silicon-based ceramic which is a flame retardant, heat resistance and adsorbent, 0.5-1 of MINERAL wax It is characterized by mixing a weight% and 0.5-1.5 weight% of accelerators. PELLETS made by mixing, 5-10% by weight of biodegradable Master Batch is mixed in order to improve aesthetics, and exquisitely smooth and strong and durable than windows made of PVC through extruder, and the composition for manufacturing the same. It is about.

Hereinafter, the technical configuration of the biodegradable resin-made window and door composition of the present invention will be described briefly.

PLA resin, which is used as the main material of the present application, has problems in fluidity, low viscosity, and thermal stability required for processing and is weak to heat, and thus another biodegradable resin, PPC, is mixed to improve fluidity and low viscosity during synthesis. Thermal stabilizers, antioxidants and fillers can be added to solve the heat and light problems required during processing.

In addition, it is a biodegradable composition characterized by adding a silicon-based ceramic as a flame retardant, odor adsorbent so that the finished windows and doors can not be burned by the fire and adsorb the indoor odor.

[Effects of the Invention]

The windows and doors made of the biodegradable synthetic resin of the present application manufactured as described above have higher heat, strength, weather resistance, and durability than windows made of PVC, and do not emit contaminants during combustion and landfill, and can be used as existing PVC extruders. It is economical by extruding the extrusion temperature at the temperature below 145-160 degrees during production, and it is economical because it generates sick house syndrome due to the discharge of harmful chemicals of PVC window products. Not only does it occur, but it also has the effect of absorbing and removing pollutants.

The present invention is not only biodegradable resins but also stabilizers, fillers, and non-combustibles added to the window products made of a composition consisting of natural raw materials that are not harmful to the environment of the leading edge is an environmentally friendly product that can be reused.

Plastics such as PVC deteriorate under the influence of heat, light and oxygen, depending on the environmental conditions. The state of this deterioration differs depending on the cause and the type of plastic. Stabilizers to prevent or suppress thermal deterioration when plastic is formed by heating, and photo deterioration and oxidation deterioration due to light and oxygen occurring during long time use of the molded product. Is used. Typical examples include heat stabilizers, antioxidants, and light stabilizers.

In the present invention, the stabilizer is an insoluble organic and inorganic material that prevents agglomeration of mechanical agglomerates or synthetic polymers such as PVA, natural polymers such as gelatin, starch, methyl fibrin, and electrolytes that increase the interfacial tension between phases, BaCO3, One or more of powders of metals and metal oxides with organic polymer compounds such as CaSO 4, and insoluble salts such as MgCl 2, talc, and silicate silica may be used alone or in combination.

In addition, PLA can be degraded by heating and light, so heat stabilizers are used to prevent and suppress this. In the present invention, tin, calcium, and zinc stabilizers are used. Tin, calcium, or zinc-based stabilizer is added to PLA resin and PPC resin by 1-3% by weight so that it is slowly melted and blended to prevent carbonization.

In addition, the biodegradable synthetic resin window composition of the present invention is blended with an antioxidant (antioxidant) to prevent or inhibit the oxidative degradation of PLA as described above. In other words, the PLA is prevented from being oxidized, decomposed, and discolored by heat or ultraviolet rays when used after the finished product, and inhibits the decomposition promotion of such PLA. It is suitable to mix 0.2 to 1% by weight of antioxidant which can show optimum effect on PLA resin and PPC resin.

The reaction aid is mixed with the biodegradable synthetic resin window composition of the present invention. In the present application, it is preferable to use aliphatic acid organic acid or aliphatic acid amine system as a reaction aid to be mixed. The reaction aid is to mix the PLA and the additives uniformly, it is preferable to mix 0.5 to 3% by weight of the reaction aid to the PLA + PPC resin so that the PLA + PPC and the additives can be uniformly mixed well.

In the biodegradable synthetic resin window composition according to the present invention, talc, titanium oxide or calcium carbonate (CaCO ₃ ) is used as a filler.

Additive fillers are generally colorless crystals or white solids and the purpose of the fillers used in the synthetic resin window and window compositions herein is to improve rigidity and heat distortion temperature. Can reduce the cost. The blending amount of the filler capable of exhibiting the minimum and maximum effects of the extrusion amount, the stiffness, and the heat deformation temperature improvement may be blended at a ratio of 5-20% by weight with respect to the biodegradable PLA + PPC resin.

In the biodegradable composition of the present application, silicon-based ceramics are added as heat absorbing and noncombustible odor adsorbents. In addition, PLA thermal deformation temperature is too low to put 0.2-1% by weight of silicon-based ceramics in PLA + PPC resin to enhance the thermal deformation temperature and the purpose of deodorizing the flame retardant also in the finished product.

In this application, PLA + PPC resin is mixed with additives such as stabilizers, fillers, sulphates, etc., except that paraffin or PP WAX is a low molecular polyolefin used to mix the raw materials well in a twin-screw extrusion machine and to release the composition raw materials from the machine. , Use PE WAX. In the present invention, it is preferable to mix 0.5 to 1% by weight of one of the waxes with respect to the PLA + PPC resin as a suitable compounding amount in which the PLA resin can be melted well without being carbonized.

In order to promote the reaction used in the present invention, 0.5 to 1.5% by weight of a promoter such as manganese oleate, magnesium stearate, ferrous oleic acid or calcistearate, which is a metal salt of an aliphatic organic acid, is blended with respect to the biodegradable PLA + PPC resin. Preferably, this is also an appropriate amount of PLA + PPC resin that does not carbonize and promotes well mixing.

In order to further express the color in the biodegradable windows and compositions of the present application, biodegradable color Master Batch may be additionally mixed by mixing 5-10% by weight instead of the dye.

Hereinafter, the preferred embodiment of the present invention will be described in detail.

60% by weight of PLA resin on PELLET, 30% by weight of PPC resin, 3% by weight stabilizer, 0.5% by weight antioxidant, 3% by weight reaction aid, 1% by weight silicon-based ceramic, 5% by weight inorganic filler, 1% by weight paraffin, After mixing 1% by weight of the accelerator, the mixture fed to the Pellet extruder is compressed, mixed, homogenized inside the extruder, melted completely by heat and friction, and flows. The melted mixture is kneaded and compressed by a screw and extruded. It is cooled, cut into granules, and pelletized.

By mixing the biodegradable Color Master Batch in order to color the desired color in the biodegradable synthetic resin window composition made as described above, to produce a beautiful and beautiful high gloss window by an existing plastic window extruder.

In addition, the biodegradable synthetic resin window composition is made of a natural material and all additives added to it are used as a raw material that does not contain any harmful substances so that harmful components are not emitted when installing the finished product. It can prevent indoor pollution by adsorbing odor inside the room and it doesn't discolor even if exposed to the sun for a long time.

Claims (3)

60-90% by weight of PLA resin, 5-30% by weight of PPC, 1-3% by weight of calcium, tin and zinc stabilizer, 0.2-1% by weight of antioxidant, 0.5-3% by weight of reaction aid, inorganic filler TiO2 or calcium carbonate 5-20% by weight of talc, 0.5-1% by weight of silicon-based ceramic, 0.5-1.5% by weight of accelerator, and 1-2% by weight of WAX, wherein the composition for windows and doors made of biodegradable synthetic resin A biodegradable Color Master Batch composition made by mixing a pigment 5-10% by weight through the Pellet extruder. Biodegradable windows and doors manufactured by conventional plastic extruder using the above composition