• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a binder composition containing water, vegetable fibers and mineral fillers, the mass ratio between the vegetable fibers and the mineral fillers being between 99/1 and 2/98, the vegetable fibers and the mineral fillers having been simultaneously refined.
    公开号:FR3059345A1
    申请号:FR1661626
    申请日:2016-11-29
    公开日:2018-06-01
    发明作者:Frederic Vaulot;Alain Lascar;Bruno Carre;Alain Cochaux;Laurence Leroy
    申请人:Centre Technique De Lindustrie Des Papiers Cartons Et Celluloses;Centre Technique de lIndustrie des Papiers Cartons et Celluloses;Kadant Lamort SAS;
    IPC主号:
    专利说明:

    Holder (s): TECHNICAL CENTER FOR INDUSTRY, PAPER, CARDBOARD AND CELL, KADANT LAMORT.
    Extension request (s)
    Agent (s): LAWRENCE AND CHARRAS CABINET.
    BINDING COMPOSITION BASED ON VEGETABLE FIBERS AND MINERAL FILLERS, ITS PREPARATION AND ITS USE.
    (5 /) The present invention relates to a binder composition containing water, vegetable fibers and mineral fillers,
    - the mass ratio between the plant fibers and the mineral charges being between 99/1 and 2/98,
    - vegetable fibers and mineral fillers having been simultaneously refined.
    FR 3 059 345 - A1
    BINDING COMPOSITION BASED ON VEGETABLE FIBERS AND MINERAL FILLERS, SA
    PREPARATION AND ITS USE
    FIELD OF THE INVENTION
    The present invention relates to a binder composition, the constituents of which can mainly come from mixtures of recycled materials and / or industrial rejects, or even from any paper stream rich in mineral fillers and fibers / cellulosic fibers. This binder composition is mainly composed of mineral fillers and organic vegetable matter. This mixture will subsequently be qualified by the terminology “binding composition”.
    The field of use of the present invention relates to the manufacture of biomaterials, composite products but also products from the paper industry. This can include the manufacture of paper or cardboard.
    PRIOR STATE OF THE ART
    Products from the paper industry, such as paper and cardboard, are prepared from aqueous suspensions of lignocellulosic fibers. They can be prepared from fibers that have been recycled.
    In addition to lignocellulosic fibers, these products generally include mineral fillers. These charges can also come from recycling channels, in particular from recycled paper pulp.
    The so-called “recycled” mineral fillers and the so-called “natural” mineral fillers (not recycled) are introduced into the circuits so as to modify the properties of paper or cardboard, in particular the mechanical and / or optical and / or surface properties. The charges also reduce the cost of the finished product.
    For example, the so-called natural mineral fillers commonly used in the paper industry include calcium carbonate, kaolin, titanium dioxide, talc and colloidal silica.
    However, even if in terms of optical or surface properties, natural mineral fillers provide the desired properties, recycled mineral fillers often induce optical effects which are experienced and not always desired. However, whatever their origin, all so-called natural or recycled fillers reduce the cost of paper or cardboard and affect the mechanical and optical properties of paper or cardboard. On the other hand, in view of the lack of chemical affinity between the mineral fillers and the lignocellulosic fibers, their voluntary or involuntary introduction, and depending on their method of introduction, generally requires the presence of other fixing agents and / or retention like cationic polyacrylamides, and / or of binding like for example starch serving at the same time to improve the resistance of the sheet and the retention of the charges.
    Polymers based on acrylamide and its derivatives have also been developed in order to improve the retention of charges while maintaining the mechanical properties of paper or cardboard, such as tear resistance, internal cohesion and resistance to bursting for example.
    Even if these solutions prove to be relatively satisfactory, there is nevertheless a need for alternatives, more particularly an alternative to polymers and / or starch, for use in bulk or on the surface in order to improve the physical characteristics of the paper, at a lower cost.
    It is this problem in the broader sense that the present invention solves by developing a binder composition. This binding composition makes it possible to partially or completely replace the use of agents for resistance in the dry state (starches, amphoteric polyacrylamides, carboxymethylcellulose and guar gums). It also improves the retention and rate of mineral fillers while minimizing the loss of mechanical properties of paper or cardboard.
    STATEMENT OF THE INVENTION
    The present invention relates to a binder composition mainly composed of water, organic vegetable matter and mineral fillers.
    More specifically, the present invention relates to a binder composition containing water, plant fibers and mineral fillers, the mass ratio between the plant fibers and the mineral fillers being between 99/1 and 2/98, advantageously between 95 / 5 and 15/85, more advantageously between 80/20 and 20/80, the plant fibers and the mineral fillers having been simultaneously refined.
    The present invention also relates to a method of manufacturing this binder composition and its use in the manufacture of paper or cardboard.
    Binding composition:
    The binding properties of the binding composition result from its preparation, and more particularly from the refining of vegetable organic materials (vegetable fibers) in the presence of mineral fillers. Refining corresponds to a mechanical compression and shearing treatment. In general, refining allows fibrillation and / or cutting of vegetable organic matter. Refining also allows the development of the specific surface and the binding power of plant fibers.
    The presence of mineral fillers during refining makes it possible to fragment these but also to coat them at least partially with vegetable fibers. Thus, in the binder composition according to the invention, the mineral fillers are at least partially linked to one another thanks to the formation of a network between the plant fibers.
    Once coated, the mineral fillers of the binder composition can be fixed and / or included in a network of lignocellulosic fibers for making paper or cardboard. Their integration into this type of fiber network with a high specific surface makes it possible to improve the mechanical properties and / or the smoothness of paper or cardboard, while the addition of mineral fillers by standard methods degrades the mechanical characteristics and / or the sweetness.
    One of the specificities of the binder composition relates to the increase in the rate of mineral fillers without altering the physical characteristics of paper or cardboard. In fact, at least part of the mineral fillers present in paper or cardboard comes from the binder composition in which the mineral fillers are at least partially coated with vegetable fibers. The increase in the specific surface area of vegetable fibers not only makes it possible to fix the mineral fillers present during refining, but also to improve the retention of mineral fillers in a paper or cardboard manufacturing process. Also, by binding composition means a composition for fixing mineral fillers without deteriorating the mechanical characteristics of paper or cardboard.
    Plant fibers are generally lignocellulosic fibers. They can be obtained from cellulose fibers from lignocellulosic materials, in particular wood (hardwood or softwood) and annual plants. They can also come from the recycling of cellulosic materials.
    The plant fibers of the binder composition have an average size advantageously between 10 micrometers and 700 micrometers, more advantageously between 10 and 500 micrometers, on the order of 250 micrometers to 400 micrometers on average. This is the average size of the fibers that have been refined in the presence of mineral fillers.
    By size is meant the most important dimension of the plant fibers, for example the length.
    After refining, the plant fibers have a specific surface advantageously between 5 m 2 .g 4 and 200 m 2 .g 4 , more advantageously between 10 m 2 .g 4 and 100 m 2 / g.
    The plant fibers used advantageously come from the paper and / or cardboard recycling channels.
    In the binder composition, the plant fibers (recycled or not) correspond to the part of organic material from the plant that can be consumed when the previously dried binder composition is subjected to a temperature above 425 ° C. for a duration at least equal to 2 hours. The mass thus consumed corresponds to the mass part of vegetable fibers.
    Besides the vegetable fibers, the binder composition also comprises mineral fillers.
    In general, any type of conventional mineral filler can be used in the invention. These can be natural mineral fillers, that is to say fillers that do not come from recycling.
    However, the mineral fillers advantageously come from the paper and / or cardboard recycling channels.
    Whatever their origin, the mineral fillers can in particular be chosen from the group comprising calcium carbonate, kaolin, titanium dioxide, talc, and their mixtures.
    In the binder composition, the mineral fillers have an average size advantageously centered around 1 micrometer to 100 micrometers, more advantageously around 10 micrometers to 50 micrometers. They can also be in the form of unit charges and / or aggregates.
    By size is meant the most important dimension, for example the diameter for loads or spherical aggregates. This is the size of the charges after refining in the presence of vegetable fibers.
    In the binder composition, the mineral fillers, recycled or not, correspond to the portion of unconsumed mineral material when the previously dried binder composition is subjected to a temperature higher than 425 ° C. for a duration at least equal to 2 hours.
    In the case of fillers and / or vegetable fibers from recycling, in particular the recycling of paper or cardboard, the same combustion test at a temperature above 425 ° C for a period of at least 2 hours can be used to determine the quantity of vegetable fillers and the quantity of mineral fillers contained in the recycled materials.
    When the mineral and / or vegetable fiber fillers come from recycling channels, they can come from recycled materials and / or industrial plant waste. They can also come from de-inking sludge and / or other industrial waste. In general, these compositions are mainly composed of mineral fillers and / or organic materials.
    Thus, the binding composition can comprise:
    - some water,
    - natural vegetable fibers (not recycled) and / or recycled vegetable fibers, and
    - natural mineral fillers (not recycled) and / or recycled mineral fillers.
    The present invention therefore makes it possible to combine plant fibers (recycled and / or not recycled) and mineral fillers (recycled and / or not recycled) in a homogeneous composition.
    As already indicated, the binder composition has a mass ratio of plant fibers / mineral fillers of between 99/1 and 2/98, advantageously between 95/5 and 15/85, advantageously between 80/20 and 20/80. Advantageously, it comprises 5 to 500 grams of the mixture of plant fibers and mineral fillers, per liter of water, more advantageously 10 grams to 100 grams, and even more advantageously 20 grams to 50 grams.
    According to a particular embodiment, the binder composition can also comprise at least one additive, for example a rheology modifier, or an agent for improving mechanical characteristics. In the binding composition, the at least one additive advantageously represents between 0 and 50% relative to the mass of the binding composition.
    However, in addition to any impurities, the composition according to the invention advantageously consists of water, vegetable fibers (recycled or not) and mineral fillers (recycled or not). The possible impurities can in particular come from the fibrous suspension used to prepare the plant fibers of the binder composition.
    The binder composition according to the invention corresponds to a composition with a homogeneous distribution in the volume of its constituents, the refining making it possible to fragment the mineral fillers and, at least partially, to coat them in the vegetable fibers.
    Process for preparing the binding composition:
    The present invention also relates to the process for preparing the binder composition.
    As already indicated, the properties of the binder composition result from the refining of the vegetable fibers in the presence of mineral fillers.
    This process includes the following steps:
    preparation of a suspension of plant fibers and mineral fillers in water, the mass ratio between the plant fibers and the mineral fillers being between 99/1 and 2/98, advantageously between 95/5 and 15/85, more advantageously between 80/20 and 20/80, refinement of this suspension.
    Prior to refining, this process can also include a fractionation step and / or an enzymatic treatment step. The process can therefore include the following sequence:
    a) preparation of a suspension of vegetable fibers and mineral fillers in water,
    b) optionally splitting this suspension,
    c) optionally enzymatic treatment of this suspension,
    d) refining of this suspension.
    a) Preparation of a suspension of vegetable fibers and mineral fillers in water
    The suspension of vegetable fibers and mineral fillers in water according to the invention can be prepared from vegetable fibers recycled or not and mineral fillers recycled or not. It can therefore result at least in part from recycled materials, for example materials from the recycling of paper or cardboard.
    Depending on the nature of the recycled materials, non-recycled vegetable fibers and / or non-recycled mineral fillers can be added to achieve the desired plant fiber / mineral fillers mass ratio.
    As already indicated, the vegetable fibers and / or the mineral fillers can come from recycled materials and / or industrial plant waste. For example, they can come from stationery sludge, in particular de-inking sludge or sewage sludge, and / or other industrial refuse, and / or from the white water filtration cake of a paper.
    In general, the suspension of plant fibers (fibrous suspension) generally comprises 5 grams to 500 grams of constituents of the binder composition per liter of water, more advantageously 10 grams to 100 grams, and even more advantageously 20 grams to 50 grams.
    Recycled materials are generally subjected to pretreatments making it possible to isolate, during recycling processes, fractions enriched in recycled mineral fillers and in medium-sized vegetable fibers generally less than 2000 micrometers.
    Also, in the aqueous suspension, the plant fibers have an average size which is advantageously less than 5000 micrometers, more advantageously less than 2000 micrometers, more advantageously less than 1000 micrometers and even more advantageously less than 800 micrometers.
    The possible addition of mineral fillers may be carried out before and / or after the fractionation stage. It can also be carried out before and / or after the enzymatic treatment step. Thus, the optional steps (fractionation and enzymatic treatment) can be carried out in the absence of mineral fillers. Only the refining stage is necessarily carried out in the presence of vegetable fibers and mineral fillers.
    b) Optional splitting
    The fractionation step is optionally carried out before refining, and if necessary before an enzymatic treatment.
    The fractionation of the vegetable fiber suspension makes it possible to enrich the suspension with short vegetable fibers, the average size of which is advantageously less than 2000 micrometers, more advantageously less than 1000 micrometers, and even more advantageously less than 800 micrometers. Where appropriate, that is to say when the fiber suspension comprises mineral fillers, the fractionation can also enrich the suspension with mineral fillers.
    Thus, compared to a suspension of fibers not enriched by fractionation, the suspension enriched in short vegetable fibers and / or in mineral fillers makes it possible to facilitate the coating of the mineral fillers and, consequently, the manufacture of the binding composition at lower energy. .
    The fractionation can be carried out according to conventional techniques, in particular by classification with slits and / or with holes and / or by hydrocyclone and / or by washer-thickener.
    At the end of the fractionation, mineral fillers can possibly be added to the suspension of vegetable fibers. Unfractionated plant fibers can also be added, these plant fibers having an average size advantageously less than 5000 micrometers.
    c) Optional enzyme treatment
    According to a particular embodiment, the plant fibers can undergo an enzymatic treatment prior to the refining step.
    This treatment is advantageously carried out after a fractionation step.
    Thus, according to a preferred embodiment, the process for preparing the binder composition comprises the following steps:
    fractionation of a suspension of recycled or non-recycled fibers which may also include mineral charges recycled or not, optionally, addition of mineral charges recycled or not and / or industrial waste to the suspension resulting from the fractionation, enzymatic treatment of this suspension, optionally, addition of recycled or non-recycled mineral fillers and / or industrial waste to this suspension, refining of this suspension of vegetable fibers and mineral fillers.
    The enzymatic treatment can be carried out in the presence or not of mineral fillers. In fact, mineral fillers can be introduced prior to the enzymatic treatment, or between the enzymatic treatment and the refining
    The enzymatic treatment is advantageously carried out in the presence of a mixture of enzymes, and this prior to refining.
    These enzymes are capable of degrading at least one of the constituents of plant fibers, namely lignin and / or cellulose and / or hemicellulose. In general, these enzymes can weaken plant fibers by altering their constituents.
    Those skilled in the art will be able to choose the appropriate enzymes as well as the treatment conditions according to the nature of the latter.
    The activity of the enzyme can be stopped by exposure of the suspension to water vapor.
    At the end of the enzymatic treatment, mineral fillers can possibly be added to the suspension of vegetable fibers. Plant fibers that are not enzymatically treated can also be added.
    d) Refining vegetable fibers in the presence of mineral fillers
    As already indicated, the refining of vegetable fibers is carried out in the presence of mineral fillers. It makes it possible to develop the specific surface of plant fibers and to at least partially coat mineral fillers with plant fibers.
    Advantageously, the refining does not modify the concentration of the suspension in vegetable fibers and in mineral fillers. The quantity of each of the constituents of the binder composition is therefore advantageously determined just before carrying out the refining.
    Refining is advantageously carried out after a fractionation step and / or after an enzymatic treatment step.
    Before refining, the mineral charges are generally in the form of agglomerates of charges. In addition, the mineral charges in agglomerates from recycling generally have a size, for the largest, ranging from 400 micrometers to 1000 micrometers, which is incompatible with immediate use for making paper without negative consequences.
    In general, the refining of a fibrous suspension makes it possible to compress and shear the plant fibers. In the present case, refining also makes it possible to reduce the size of the mineral charges, in particular by breaking up the agglomerates of mineral charges. The simultaneous refining of the fibers and fillers also makes it possible to coat the fillers at least partially in the fibers as the binder composition is produced.
    Since refining allows mineral charges (or agglomerates) to be fragmented, after refining, recycled mineral charges (or agglomerates) have generally increased by a factor of at least 1.5 to 30 compared to at their initial specific surface, preferably at least 5 and possibly of the order of 10. In other words, refining increases the specific surface of the recycled mineral fillers.
    The refined mineral fillers and coated at least partially with vegetable fibers then have an average size advantageously centered around 1 micrometer to 100 micrometers, more advantageously around 10 micrometers to 50 micrometers. They can also be in the form of unit charges and / or unit charge aggregates.
    By size is meant the largest dimension of the fillers or agglomerates after the refining step, for example the diameter for spherical fillers or agglomerates.
    Thus, this process is particularly suitable for using products from the recycling of paper or cardboard, which could hitherto be considered undesirable due to the possible presence of mineral fillers and fine cellulosic elements.
    After refining, the refined fibers have a surface-weighted average length advantageously between 10 micrometers and 700 micrometers, more advantageously between 10 and 500 micrometers, on the order of 250 micrometers to 400 micrometers on average.
    In addition, the binder composition has a concentration having a dry matter content (plant fibers + mineral fillers) advantageously between 5 and 500 grams per liter of water, more advantageously of the order of 10 to 100 grams per liter of water, and even more advantageously from 20 grams to 50 grams.
    Use of the binding composition:
    The present invention also relates to the use of the binder composition in a process for making paper or cardboard, but also to a process for making paper or cardboard.
    This binder composition can be used for example in a process for manufacturing paper or cardboard, and / or for manufacturing bio-materials and / or composites. In fact, it makes it possible to improve the cohesion between the plant fibers, to fix mineral fillers in the finished product, and to participate in improving the mechanical properties.
    When the binder composition is used as an additive in a conventional process for manufacturing paper or cardboard, it is advantageously introduced into the diluted pulp, for example in the headbox, and / or in a compartmentalized headbox. The amount of binder composition introduced then advantageously represents 0.5 to 10% by mass relative to the mass of the fiber suspension.
    The binding composition can also be applied to already formed paper or cardboard. It is then a surface treatment in which the binder composition is advantageously applied by means of spray bars and / or by coating, for example in coating or in size press.
    This binding composition makes it possible to provide the mechanical properties of internal cohesion, traction, bursting, compression, etc. and / or of softness and / or reduction in permeability, and / or better retention of the charges, without hampering the drip process during the formation of paper or cardboard.
    With regard to its properties, the binder composition according to the invention can be used to prepare any type of paper or cardboard. Thus, it can be introduced into a specific layer in a laminate (method of laminating heterogeneous layers).
    It can also be used to increase the quantity of mineral fillers in printing and writing papers and / or sanitary or household papers (paper towel, handkerchief, toilet paper, towel ...).
    权利要求:
    Claims (12)
    [1" id="c-fr-0001]
    1. Binder composition containing water, plant fibers and mineral fillers, the mass ratio between plant fibers and mineral fillers being between 99/1 and 2/98, the plant fibers and mineral fillers having been simultaneously refined.
    [2" id="c-fr-0002]
    2. Binder composition according to claim 1, characterized in that the composition has a mass ratio of plant fibers / mineral fillers of between 95/5 and 15/85, advantageously between 80/20 and 20/80.
    [3" id="c-fr-0003]
    3. Binder composition according to claim 1 or 2, characterized in that the composition consists of water, vegetable fibers and mineral fillers.
    [4" id="c-fr-0004]
    4. Binding composition according to one of claims 1 to 3, characterized in that the mineral fillers are chosen from the group comprising calcium carbonate, kaolin, titanium dioxide, talc, and their mixtures.
    [5" id="c-fr-0005]
    5. Binding composition according to one of claims 1 to 4, characterized in that the mineral fillers and / or the vegetable fibers come from recycling channels for paper or cardboard.
    [6" id="c-fr-0006]
    6. Use of the composition according to one of claims 1 to 5 in a process for manufacturing paper or cardboard.
    [7" id="c-fr-0007]
    7. Method for preparing the composition according to one of claims 1 to 5, according to the following steps:
    preparation of a suspension of vegetable fibers and mineral fillers in water, the mass ratio between the vegetable fibers and the mineral fillers being between 99/1 and 2/98, advantageously between 95/5 and 15/85, refining of this suspension.
    [8" id="c-fr-0008]
    8. Method according to claim 7, characterized in that the plant fibers are treated enzymatically before the refining step.
    [9" id="c-fr-0009]
    9. Method according to claim 8, characterized in that mineral fillers are introduced prior to the enzymatic treatment.
    [10" id="c-fr-0010]
    10. Method according to one of claims 8 to 9, characterized in that mineral fillers are introduced between the enzymatic treatment and the refining.
    [11" id="c-fr-0011]
    11. Method according to one of claims 7 to 10, characterized in that it comprises a fractionation step prior to refining.
    [12" id="c-fr-0012]
    12. Method according to one of claims 8 to 11, characterized in that it comprises a fractionation step followed by an enzymatic treatment step, before refining.
    类似技术:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO1995027825A1|1994-04-12|1995-10-19|Korea Research Institute Of Chemical Technology|Preparation process of paper for increasing filler contents and enhancing scott internal bond strength|
    WO2010112519A1|2009-03-30|2010-10-07|Omya Development Ag|Process for the production of nano-fibrillar cellulose suspensions|
    WO2010115785A1|2009-03-30|2010-10-14|Omya Development Ag|Process for the production of nano-fibrillar cellulose gels|
    WO2010131016A2|2009-05-15|2010-11-18|Imerys Minerals Limited|Paper filler composition|
    WO2014091212A1|2012-12-11|2014-06-19|Imerys Minerals Limited|Cellulose-derived compositions|
    NL107598C|1954-08-11|1963-10-15|Warren S D Co|
    CZ304877B6|2000-08-07|2014-12-29|Akzo Nobel Nv|Paper sizing process|
    AT524601T|2002-07-18|2011-09-15|Dsg Internat Ltd|METHOD AND DEVICE FOR PRODUCING MICROFIBRILLED CELLULOSE|
    US7521493B2|2005-01-10|2009-04-21|E. I. Du Pont De Nemours And Company|Slurries containing microfiber and micropowder, and methods for using and making same|
    AU2011320014A1|2010-10-26|2013-05-23|Zeo Ip Pty Ltd|Cellulose fibre composition|
    CA2876082C|2012-06-13|2021-06-01|University Of Maine System Board Of Trustees|Energy efficient process for preparing nanocellulose fibers|
    ES2688579T3|2013-06-20|2018-11-05|Basf Se|Production procedure of a microfibrillated cellulose composition|
    FI126733B|2013-09-27|2017-04-28|Upm-Kymmene Corp|Process for the preparation of pulp slurry and paper product|EP3892433A1|2018-12-05|2021-10-13|Furukawa Electric Co., Ltd.|Cellulose fiber-dispersing resin composite material, formed body, and composite member|
    JP2021194798A|2020-06-10|2021-12-27|古河電気工業株式会社|Fiber dispersion resin composite material, molded body, and composite member|
    FR3112351A1|2020-07-09|2022-01-14|Centre Technique Du Papier|Process for manufacturing an article molded from cellulose fibers|
    CN112679621B|2020-12-14|2021-12-28|江南大学|Cellulose nanocrystal prepared based on papermaking deinking sludge and application of cellulose nanocrystal in underground water iron and manganese removal|
    法律状态:
    2017-11-28| PLFP| Fee payment|Year of fee payment: 2 |
    2018-06-01| PLSC| Publication of the preliminary search report|Effective date: 20180601 |
    2019-11-26| PLFP| Fee payment|Year of fee payment: 4 |
    2020-11-30| PLFP| Fee payment|Year of fee payment: 5 |
    2021-11-26| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1661626A|FR3059345B1|2016-11-29|2016-11-29|BINDING COMPOSITION BASED ON VEGETABLE FIBERS AND MINERAL FILLERS, ITS PREPARATION AND ITS USE|
    FR1661626|2016-11-29|FR1661626A| FR3059345B1|2016-11-29|2016-11-29|BINDING COMPOSITION BASED ON VEGETABLE FIBERS AND MINERAL FILLERS, ITS PREPARATION AND ITS USE|
    MX2019006117A| MX2019006117A|2016-11-29|2017-11-29|Binder composition based on plant fibers and mineral fillers, preparation and use thereof.|
    TR2019/07939T| TR201907939T4|2016-11-29|2017-11-29|Binder composition based on plant fibers and mineral additives, their preparation and use.|
    US16/463,964| US10975523B1|2016-11-29|2017-11-29|Binder composition based on plant fibers and mineral fillers, preparation and use thereof|
    RU2019116062A| RU2731770C1|2016-11-29|2017-11-29|Binder composition based on vegetable fibres and mineral fillers, production and use thereof|
    KR1020197015149A| KR20190085943A|2016-11-29|2017-11-29|Binder compositions based on plant fibers and mineral fillers, their preparation and uses|
    PT17805204T| PT3387186T|2016-11-29|2017-11-29|Binder composition based on plant fibers and mineral fillers, preparation and use thereof|
    MA043434A| MA43434A|2016-11-29|2017-11-29|COMPOSITION OF BINDER BASED ON VEGETABLE FIBERS AND MINERAL FILLERS, ITS PREPARATION AND USE|
    PL17805204T| PL3387186T3|2016-11-29|2017-11-29|Binder composition based on plant fibers and mineral fillers, preparation and use thereof|
    CA3044885A| CA3044885C|2016-11-29|2017-11-29|Binder composition based on plant fibers and mineral fillers, preparation and use thereof|
    CN201780073324.XA| CN110050097B|2016-11-29|2017-11-29|Adhesive composition based on vegetable fibres and mineral fillers, its preparation and use|
    PCT/EP2017/080831| WO2018099977A1|2016-11-29|2017-11-29|Binder composition based on plant fibers and mineral fillers, preparation and use thereof|
    JP2019536203A| JP6742526B2|2016-11-29|2017-11-29|Binder composition based on vegetable fiber and inorganic filler, its preparation and use|
    ES17805204T| ES2729348T3|2016-11-29|2017-11-29|Composition of binder based on vegetable fibers and mineral fillers, preparation and use thereof|
    BR112019010762A| BR112019010762A2|2016-11-29|2017-11-29|binder composition, use of the composition, and method for preparing the composition|
    EP17805204.9A| EP3387186B1|2016-11-29|2017-11-29|Binder composition based on plant fibers and mineral fillers, preparation and use thereof|
    HRP20190915TT| HRP20190915T1|2016-11-29|2019-05-16|Binder composition based on plant fibers and mineral fillers, preparation and use thereof|
    CL2019001403A| CL2019001403A1|2016-11-29|2019-05-23|Composition of binder based on vegetable fibers and mineral fillers, its preparation and use.|
    US17/227,096| US20210230803A1|2016-11-29|2021-04-09|Binder composition based on plant fibers and mineral fillers, preparation and use thereof|
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