TR2022011834A2 - AN ADDITIVE SUITABLE TO BE USED FOR PACKAGING PAPER AND SIMILAR PAPER - Google Patents

Abstract

The invention relates to an additive containing bacterial cellulose, which is suitable for use in the production of packaging boxes, especially in the paper industry, and which allows the improvement of the air permeability, water absorbency and mechanical properties of the final product.

Description

DESCRIPTION AN ADDITIVE SUITABLE FOR USE IN PRODUCING PACKAGING PAPER AND SIMILAR PAPERS TECHNICAL FIELD The invention relates to an additive that enables the production of papers that are biodegradable, have low air permeability, provide barrier resistance to water absorption and increase in strength values in response to the increasing environmental awareness worldwide and the use of renewable resources as raw materials instead of primary fiber in paper production, and its use as an additive in the paper industry. PREVIOUS ART As is known in the art, the raw material of paper is plant-based cellulose. In this technical field, trees are used as a source of cellulose in the production of paper, and the process generally involves felling the trees, removing their bark, peeling them, splitting them into logs, shredding them, pulping them, and separating the cellulose they contain. The increasing global population and the use of large amounts of trees as raw materials to meet the ongoing needs of the paper industry are causing both environmental damage and increasing costs to meet these needs. It has been determined that the use of such large amounts of trees as raw materials is not sustainable for the paper industry in the future. Therefore, increasing environmental awareness worldwide, as in many other sectors, is leading to increased demand for renewable resources in the paper industry. The Horizon 2020 Program's Green Deal Call aims to design a series of profoundly transformative policies with the overall goal of making the European continent climate neutral by 2050, contributing to these goals through R&D and innovation projects. Corporate companies are opting for recycled paper over primary fiber in their packaging, unwilling to compromise on product strength. In particular, the loss of moisture in paper used in packaging boxes, particularly in dry weather conditions, leads to fiber breakage, deformation, and cracking of box lids. Experts in the relevant technical fields are conducting research and development activities to address the negative consequences of these renewable resources, which possess these strength values and will be used as raw materials in the paper industry. As a result, research and development of renewable resources has become essential in the paper industry, particularly in the production of packaging boxes, to address environmental awareness, reduce costs, and achieve sustainable raw materials. BRIEF DESCRIPTION OF THE INVENTION The invention relates to an additive that can be used as a raw material in the paper industry, particularly in the production of packaging boxes. The purpose of the invention is to provide a sustainable, biodegradable, and renewable additive suitable for use as a raw material source in the paper industry. The purpose of the invention is to provide an additive suitable for use as a raw material source for paper production with at least the same strength values. Another purpose of the invention is to provide an additive suitable for use in packaging boxes, particularly in the production of 100% recycled paper, to improve strength values and eliminate technical drawbacks. To achieve all of these, the invention relates to an additive containing bacterial cellulose, suitable for use in the paper industry, particularly in the production of packaging boxes, which allows for improvements in the final product's air permeability, water absorbency, and mechanical properties. A possible embodiment of the invention is characterized by the additive being included in the paper industry, particularly in packaging boxes, at a value between 5% and 40% by weight. A possible embodiment of the invention is characterized by the additive being included in the paper industry, particularly in packaging boxes, at a value between 10% and 20%. In another aspect, the invention relates to an additive containing bacterial cellulose, which allows for improvements in permeability, water absorbency, and mechanical properties, at a value between 5% by weight, particularly in the production of packaging boxes, in the paper industry, where 100% recycled paper is used as raw material. A possible embodiment of the invention is characterized by the additive being present at a value between 10% and 20% by weight in the paper industry, particularly in the production of packaging boxes, where 100% recycled paper is used as raw material. DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the subject of the invention relates to an additive suitable for use as a sustainable, renewable, and biodegradable raw material source in the paper industry, particularly in the production of packaging boxes, and is explained only with examples that will not create any limiting effects for a better understanding of the subject. Cellulose is used as a raw material source in the paper industry. The largest available source of cellulose is trees. Like trees, every plant, especially in their trunks, contains cellulose, hemicellulose, and lignin. Cellulose, separated from these other compounds, is used in paper production through various processing steps. The additive in question is essentially a cellulose source. Accordingly, bacteria are used as a cellulose source in the invention. The term "bacterial cellulose" will be used for cellulose obtained from bacteria in this invention. The "cellulose" mentioned in the invention is a carbohydrate with the closed formula (CsHioOs). Accordingly, a carbon source is required for cellulose production. Glucose is generally used as the carbon source. Molasses, fructose, mannitol, glycerol, and sucrose can also be used as carbon sources. Bacteria that utilize glucose, molasses, fructose, mannitol, glycerol, and sucrose as the bacterial strains in the invention can be used. Preferably, the bacteria species Komagataeibacter, Gluconacetobacter, Acetobacter, Agrobacterium, Aerobacter, Achromobacter, Alcaligenes, Azotobacter, Pseudomonas, Rhizobium, Sarcina, Salmonella, and Escherichia can be used in the invention. The preferred bacterial strain in the invention is the kombucha culture. The kombucha culture is a symbiotic system in which yeast and acetobacter bacteria work together. Accordingly, the bacterial strain is cultivated in a static environment, at temperatures between 23 and 25°C and at constant relative humidity of 50%-60%. The subject of the invention is an additive containing bacterial cellulose, a source of cellulose raw material in the paper industry, particularly in the production of packaging boxes. As is known in the art, the strength values of packaging paper, especially when fully recycled paper is used as raw material, do not meet the desired efficiency. This situation hinders the use of recycled paper as raw material in the paper industry. To overcome this, the paper industry can use recycled paper in certain weight ratios as raw material, which hinders the production of high quantities of renewable resources or the production of entirely renewable products. Some of these drawbacks include the decrease in fiber length as the number of fibers recycled increases, resulting in breakage at the edges of the boxes (known as cracking), a decrease in burst index values, a decrease in SCT-CD values, and consequently, a decrease in box strength. New-generation papers, particularly those produced on new, high-speed GAP-type paper machines—known as high-density papers—are produced as thinner papers with similar strengths. Although they have a better homogeneous structure than older papers, their thinness makes them less resistant to bending than thicker papers. The main innovation the invention aims to bring to the relevant technical field is to enable the use of 100% recycled paper as raw material in the paper industry. Accordingly, the present inventors, through their research and development activities, have determined that by using bacterial celluloses obtained from the bacterial strains in question as additives in specified weight ratios, the remaining 100% recycled papers can be used as raw materials. Accordingly, in the invention, especially in the case of using 100% recycled papers as raw material in the production of packaging boxes, an additive containing bacterial cellulose at least 5% by weight and at most 40% by weight is used. The mentioned value ranges have been determined as a result of the research and developments conducted by the present inventors. It has been observed that 100% recycled papers below or above the mentioned values prevent them from being used as raw materials, especially in the production of packaging boxes. The aim of using bacterial cellulose as an additive in the production of packaging paper is to use the changes to be brought about in the properties of the paper with a biodegradable, renewable, environmentally friendly additive in appropriate areas. These features are; improvement in bending properties and providing benefits in the breakage problem; providing barrier properties against water absorption by a natural method, without gluing, and providing water absorption resistance; if there are areas of use where low air permeability is desired, it can be used in these areas. The subject of the invention is related to ensuring the use of 100% recycled paper as raw material especially in the production of packaging boxes in the paper industry; it is related to the inclusion of an additive containing bacterial cellulose as a component at a value between 5% and 40% by weight in order to obtain final products with the desired strength values. Preferably, this value is between 10% and 30% by weight. The most preferred value is for the said additive to be at a value between 10% and 20% by weight in the paper industry especially in packaging boxes. The results of tests conducted by the inventors to obtain packaging boxes with at least the desired strength values are presented in Table 1. The samples in Table 1 are final product papers using 100% recycled paper as raw material. It is clear that improvements in all mechanical properties of the tested papers were observed when the additive in question was included at 5% by weight. This improvement in mechanical properties continued for samples containing up to 40% bacterial cellulose by weight. Samples with the desired mechanical properties could not be obtained at values above these values. In studies conducted, the optimum properties were determined to be 10% by weight. As is known in the art, the biggest problems with using 100% recycled paper as raw material in paper production are its low air permeability and brittleness. Due to these problems, the resulting final paper also suffers from low water absorbency and burst strength. The additive in the present invention, when used at the specified weight ratios and thanks to the functionality it provides, removes obstacles to the use of 100% recycled paper as raw material in the paper industry. By incorporating the additive in the specified weight ratios, up to a 300-fold increase in water absorption resistance and up to a 300-fold increase in breakage values were observed in packaging cardboards produced from 100% recycled paper. By using the additives in question at the specified weight ratios, it has become possible to obtain products with the desired strength values from 100% recycled papers in the paper industry, thus enabling the use of sustainable, renewable, and biodegradable raw materials. Table 1: Showing the strength values of packaging boxes containing 100% recycled papers containing the additives in question at 5%, 10%, and 20% by weight as raw materials, and reference packaging boxes containing 100% recycled papers without any additives as raw materials.

Claims (1)

1.