Method of preparing biodegradable, water-resistant, and molded paper board

Abstract

A method of preparing biodegradable, water-resistant, moldable paper board or molded paper utensil which includes the steps of: (a) preparing a pulp aqueous slurry at a consistency of about 4%; (b) adding surfactant selected from the group consisting of rosin soap, sodium oleate, sodium stearate, and sodium palmitate to the pulp aqueous slurry; (c) adding between 25-75% weight of a biodegradable and water-resistant agent selected from the group consisting of calcium stearate, cellulose stearate, calcium palmitate and cellulose palmitate to the pulp aqueous slurry to form a slurry mixture; (d) refining the slurry mixture at a consistency of about 4% to a desired drainage; (e) diluting the refined slurry mixture and adding thereto an aggregating agent as alum to form a furnish; (f) forming the furnish to obtain a dry moldable soft paper board; (g) preheating the moldable paper board obtained in step (f) at a temperature from 110.degree. to 170.degree. C.; and (h) hot-pressing the preheated moldable paper board obtained in step (g) in a mold at a temperature from 115.degree. to 170.degree. C. for 2 to 40 seconds to obtain a molded paper utensil.

Description

BACKGROUND OF THE INVENTION

The present invention is an improvement over the prior art for the following reasons. First, the prior art discloses a paper added with 0.5 to 1.5 wt % of water-resistant agent, such as calcium stearate or calcium palmitate, to adjust the printability of the paper. The dosage of the water-resistant agent cannot be greater, otherwise, the paper will contain too much oily material and cannot be written or printed on. However, the water-resistant agent, such as calcium stearate or calcium palmitate, used in this invention provides adhesive, molding and water-resistant effects after heating at a temperature of 115 to 170.degree. C. Therefore, at least 8 wt % of the water-resistant agent should be used to achieve the above-mentioned unexpected results.

Furthermore, the present process for manufacturing the present moldable paper board utensil is characterized by the step of mixing the pulp, surfactant, like rosin soap and water-resistant agent orderly before the refining step. With this step, the water-resistant agent can be homogeneously dispersed on the surface of the pulp, and its retention rate is also significantly increased. Before the final product is obtained, the product should be hot pressed. Thereby, the water-resistant agent will melt to provide the water-resistant effect. In other words, the subject biodegradable paper utensil and the prior art water-proof paper are quite different in process, usage and purpose.

Recently, to overcome the environmental pollution problem caused by such non-degradable disposable utensils, effort and labor have been devoted to the development of naturally degradable materials, such as degradable polymers, for manufacturing degradable food containing utensils. However, such biodegradable plastic materials are either in experimental stages or are too expensive to commercialize. Therefore, some paper utensils have been used in order to prevent the contamination of the environment. However, utensils, such as paper lunch boxes, cups, and trays, were made with milk carton paper board, a paper sheet with polyethylene layer laminated on both sides thereof. However, the polyethylene is not naturally degradable and thus causes the environmental problem.

It is therefore desirable to provide biodegradable water-resistant, moldable paper boards and molded paper utensils thereof to overcome the above-mentioned problems.

SUMMARY OF THE INVENTION

An object of this invention is to provide paper boards which are biodegradable and thus do not adversely affect the environment when disposed of.

Another object of this invention is to provide moldable paper board and molded paper utensils and the preparing methods thereof which can eliminate the disadvantages of the prior art.

Accordingly, disclosed herein are a biodegradable moldable paper board and molded paper utensil and a method of preparing same. The moldable paper board is produced by pulp, surfactant like rosin soap, aggregating agent like alum and at between 25-75 wt % of biodegradable and water resistant agent selected from stearate, palmitate and the derivatives thereof. For example, the surfactant can be selected from the group consisting of rosin soap, sodium oleate, sodium stearate and sodium palmitate. The pulp is selected from the group consisting of non-wood plant pulp such as bagasse pulp, wood pulp such as nadelholz pulp. Before the final product molded paper utensil is obtained, the prepared moldable paper board should be hot pressed at a temperature from 115 to 170.degree. C. to melt the water-resistant agent dispersed therein to achieve the water-resistant, adhesive and molding effect. Therefore, the resulting paper utensil is usable, biodegradable and does not affect the environment.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION

In accordance with the present invention, there is provided a biodegradable paper utensil which is made of pulp, surfactant between 25-75 wt % of biodegradable water-resistant agent and aggregating agent. The pulp is selected from the group consisting of non-wood plant pulp such as bagasse pulp, wood pulp such as nadelholz pulp. The amounts of surfactant and aggregating agent used are respectively in the range from 0 to 5 wt % based on the dry weight of the pulp used. The water-resistant agent used is selected from the group consisting of stearate, palmitate and derivatives thereof and the melting point thereof is from 130 to 160.degree. C. Preferably, the water-resistant agent is selected from the group consisting of calcium stearate, cellulose stearate, calcium palmitate and cellulose palmitate. The surfactant is selected from the group consisting of rosin soap, sodium oleate, sodium stearate and sodium palmitate, and the aggregating agent is alum (aluminum sulfate).

One method of preparing a biodegradable moldable paper board or molded paper utensil of this invention comprises the steps of: preparing a pulp aqueous slurry; adding 0 to 5 wt % of rosin soap as surfactant; adding between 25-75 wt % of a biodegradable and water-resistant agent selected from the group consisting of calcium stearate, cellulose stearate, calcium palmitate and cellulose palmitate to the pulp aqueous slurry to form a slurry mixture; refining the slurry mixture to a desirable drainage; adding 0 to 5 wt % of alum as an aggregating agent to the slurry mixture; and forming the slurry mixture by a paper machine to obtain a dry soft moldable paper board, preheating it, and hot pressing the preheated moldable paper board at a temperature of 115 to 170.degree. C. to obtain a molded paper utensil.

In accordance with an embodiment of the present invention, the paper product step comprises a wet-forming process, in which the pulp used is from 92 to 70 wt % and the amount of water-resistant agent used is from 8 to 30 wt %, the amount of the surfactant used is from 0.5 to 5 wt %, based on the dry weight of the pulp, and the amount of aggregating agent used is from 0.5 to 5 wt %, based on the dry weight of the pulp used. The pulp used in the pulp aqueous slurry is 15 to 85 wt % of bleached bagasse pulp and 85 to 15 wt % of nadelholz bleached kraft pulp. Alternatively, the pulp used can be composed of 15 to 85 wt % of laubholz bleached kraft pulp and 85 to 15 wt % of nadelholz bleached kraft pulp.

The forming step of the wet-forming process further comprises the steps of: (a) de-watering the slurry mixture to form a wet paper board or a wet molded paper mat; (b) drying the wet paper board or wet molded paper mat at a temperature of 90 to 100.degree. C.; (c) hot pressing the dry paper board or dry molded paper mat provided by step (b) at a temperature from 115 to 170.degree. C. to form a water-proof paper board or the molded paper utensil directly; and (d) processing the paper board provided by step (c) to form the desired paper utensil.

Alternatively, the present invention can comprise a dry-forming process. The amount of pulp used is from 25 to 75 wt %, and the amount of water-resistant agent used is from 75 to 25 wt %. The pulp used in this process is composed of 15 to 85 wt % of bleached bagasse pulp and 85 to 15 wt % of nadelholz bleached kraft pulp. Furthermore, the pulp used can be composed of 15 to 85 wt % of laubholz bleached kraft pulp and 85 to 15 wt % of nadelholz bleached kraft pulp.

The forming step for the dry-forming process comprises the following steps: (a) de-watering the slurry mixture to form a dry, molded, soft paper board having a density from 0.25 to 0.5 g/cm.sup.3 ; (b) preheating the moldable paper board obtained in step (a) at a temperature of 110 to 170.degree. C. to soften it; and (c) hot-pressing the moldable paper board obtained in step (b) in a mold at a temperature from 115 to 170.degree. C. to obtain a molded paper utensil.

The present invention will now be described more specifically with reference to the following embodiments. The following descriptions of the embodiments are simply for the purpose of illustration and description and are not intended to be exhaustive or to limit the invention to the precise forms or methods disclosed.

EXAMPLE 1

This shows how a moldable paper board and a utensil are made. The amount of the pulp, surfactant, the water-resistant agent and the aggregating agent used in the present example are respectively listed in Table 1. During the preparing process, the pulp is dispersed in water and rosin soap as surfactant and the water-resistant agent are added to the pulp aqueous slurry to form a slurry mixture of about 4% consistency. After refining and diluting the furnish, a soft moldable paper board with the density of 0.25 to 0.5 g/cm.sup.3 was formed and dried at a temperature of from 90 to 100.degree. C. Then, the paper board was preheated at a temperature of from 110 to 170.degree. C. for two to forty seconds to soften the board and hot-pressed by a hot mold to form the paper utensil.

TABLE 1__________________________________________________________________________water-resistant pulpagent bleached nadelholz aggregating calcium calcium bagasse bleached surfactant agentRUNS stearate palmitate amount pulp kraft pulp (rosin soap) (alum)No. (%) (%) (%) (%) (%) (%) (%)__________________________________________________________________________1 30 0 70 40 60 4.0 4.02 40 0 60 50 50 4.0 4.03 50 0 50 70 30 5.0 5.04 60 0 40 85 15 5.0 5.05 0 30 70 40 60 4.0 4.06 0 40 60 50 50 4.0 4.07 0 50 50 60 30 5.0 5.08 0 60 40 85 15 5.0 5.09 15 15 70 40 60 4.0 4.010 20 20 60 50 50 4.0 4.011 25 25 50 70 30 5.0 5.012 30 30 40 85 15 5.0 5.0__________________________________________________________________________

The product appearances of the paper utensils produced were tested and are Table 2.

TABLE 2______________________________________ Hot- Hot- Hot- Pre-heating pressing pressing pressingRun temp. temp. pressure time ProductNo. (.degree. C.) (.degree. C.) (KG/cm.sup.2) (SEC) appearance______________________________________1 150 165 25 6 NO WRINKLES2 150 165 20 5 NO WRINKLES3 150 165 17 4 NO WRINKLES4 150 165 15 4 NO WRINKLES5 125 150 25 6 NO WRINKLES6 125 150 20 5 NO WRINKLES7 125 150 17 4 NO WRINKLES8 125 150 15 4 NO WRINKLES9 135 155 25 6 NO WRINKLES10 135 155 20 5 NO WRINKLES11 135 155 17 4 NO WRINKLES12 135 155 15 4 NO WRINKLES______________________________________

The biodegradable effect for the utensil produced is listed in Table 3. The utensil for test A was produced by this invention and was buried in soil. The utensil for test A' was an imported milk carton paper board with both sides polyethylene film laminated and was also buried in soil. The utensil for test B was produced by this invention and was immersed in sewage. The utensil for test B' was an imported milk carton paper board with both sides polyethylene film laminated and was also immersed in sewage.

TABLE 3__________________________________________________________________________THE WEIGHT CHANGE FOR THE UTENSILTEST 45 days 75 days 120 days 165 days 210 days 270 daysITEM g (%) g (%) g (%) g (%) g (%) g (%)__________________________________________________________________________A 6.4 73 3.7 42 1.2 13 0.4 4 0 0 -- --A' 7.6 86 6.4 73 5.4 61 4.0 45 2.1 24 0.7 8B 4.0 91 2.3 52 0.9 20 0.6 14 0.3 7 0 0B' 4.1 94 3.7 84 3.2 73 2.5 57 1.6 36 0.5 11__________________________________________________________________________

From the foregoing detailed description, it will be evident that there are a number of changes, adaptations and modifications of the present invention which come within the province of those skilled in the art. However, it is intended that all such variations not departing from the spirit of the invention be considered as within the scope thereof as limited solely by the claims appended hereto.

Claims

1. A method of preparing biodegradable paper utensils, comprising the steps of:

preparing a pulp aqueous slurry at a consistency of about 4%;

adding surfactant selected from the group consisting of rosin soap, sodium oleate, sodium stearate, and sodium palmitate to the pulp aqueous slurry;

after said surfactant adding step, adding between 25-75% weight of a biodegradable and water-resistant agent, based on the sum of the dry weight of pulp and water-resistant agent, the water-resistant agent selected from the group consisting of calcium stearate, cellulose stearate, calcium palmitate and cellulose palmitate to the pulp aqueous slurry to form a slurry mixture;

refining the slurry mixture at a consistency of about 4% to a desired drainage;

diluting the refined slurry mixture and adding thereto an aggregating agent as alum to form a furnish; and

dry forming the furnish into a biodegradable paper utensil wherein said dry forming step includes forming the furnish to obtain a moldable paperboard and molding the moldable paperboard to obtain the biodegradable paper utensil.