WO2017126432A1 - 積層体及び積層体の製造方法 - Google Patents
積層体及び積層体の製造方法 Download PDFInfo
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- WO2017126432A1 WO2017126432A1 PCT/JP2017/001032 JP2017001032W WO2017126432A1 WO 2017126432 A1 WO2017126432 A1 WO 2017126432A1 JP 2017001032 W JP2017001032 W JP 2017001032W WO 2017126432 A1 WO2017126432 A1 WO 2017126432A1
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- resin layer
- fiber
- resin
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Definitions
- the present invention relates to a laminate and a method for producing the laminate.
- fibrous cellulose having a fiber diameter of 10 ⁇ m or more and 50 ⁇ m or less, in particular, fibrous cellulose (pulp) derived from wood has been widely used mainly as a paper product so far.
- the fibrous cellulose fine fibrous cellulose having a fiber diameter of 1 ⁇ m or less is also known.
- seat comprised from such a fine fibrous cellulose and a fine fibrous cellulose containing sheet
- seat and composite containing a fine fibrous cellulose since the contact point of fibers increases remarkably, it is known that tensile strength etc. will improve large. It is also known that transparency is greatly improved when the fiber width is shorter than the wavelength of visible light.
- Patent Document 1 discusses adding a polycarboxylic acid polymer to a fine fibrous cellulose-containing sheet.
- Patent Document 2 proposes that a polycarbonate sheet is heat-fused to a fine fibrous cellulose-containing sheet to form a laminate.
- a laminate is formed by heat-sealing a fine fibrous cellulose-containing sheet preliminarily containing a primer treatment liquid such as an acrylic primer and a polycarbonate sheet.
- Patent Document 3 it is proposed to improve the adhesion between the resin layer and the fine fibrous cellulose-containing sheet by blending a silane coupling agent into the fine fibrous cellulose-containing sheet.
- the adhesion between the fine fibrous cellulose-containing sheet (fiber layer) and the resin layer is not sufficient, and further improvements may be required in the usage mode. Therefore, the present inventors have aimed to provide a laminate of a fine fibrous cellulose-containing sheet (fiber layer) and a resin layer having better adhesion in order to solve such problems of the prior art. We proceeded with the examination.
- the present inventors have found that a laminate having a fiber layer containing fibrous cellulose having a fiber width of 1000 nm or less and a resin layer in contact with one surface of the fiber layer.
- the adhesion between the fiber layer and the resin layer can be improved by adding an adhesion assistant to the resin layer.
- the present invention has the following configuration.
- the resin layer includes at least one selected from a polycarbonate resin and an acrylic resin.
- the adhesion assistant is at least one selected from an isocyanate compound and an organosilicon compound.
- the adhesion assistant is an isocyanate compound, and the content of the isocyanate compound is 10 to 40 parts by mass with respect to 100 parts by mass of the resin contained in the resin layer.
- the adhesion assistant is an isocyanate compound, and the content of isocyanate groups contained in the resin layer is 0.5 mmol / g or more and 3.0 mmol / g or less, according to any one of [1] to [5] Laminated body.
- the laminated body of this invention is a laminated body excellent in adhesiveness, it can be applied to various uses.
- FIG. 1 is a cross-sectional view illustrating the configuration of the laminate of the present invention.
- FIG. 2 is a cross-sectional view illustrating the configuration of the laminate of the present invention.
- FIG. 3 is a graph showing the relationship between the amount of NaOH dropped on the fiber raw material and the electrical conductivity.
- FIG. 4 is a cross-sectional view illustrating the configuration of the laminate of the present invention.
- FIG. 5 is a cross-sectional view illustrating the configuration of the laminate of the present invention.
- FIG. 6 is a cross-sectional view illustrating the configuration of the laminate of the present invention.
- the present invention relates to a laminate having at least one layer of a fiber layer containing fibrous cellulose having a fiber width of 1000 nm or less (hereinafter also referred to as fine fibrous cellulose) and a resin layer in contact with one surface of the fiber layer. .
- the resin layer contains an adhesion aid. Since the laminated body of this invention has the said structure, it is excellent in the adhesiveness of the fiber layer and fibrous layer containing fibrous cellulose whose fiber width is 1000 nm or less.
- FIG. 1 is a cross-sectional view illustrating the configuration of the laminate of the present invention.
- the laminate 10 of the present invention has a fiber layer 2 and a resin layer 6.
- the fiber layer 2 and the resin layer 6 are laminated so as to be in contact with each other.
- the laminate of the present invention only needs to have at least one fiber layer 2 and one resin layer 6, but may have two or more fiber layers 2, and two or more resin layers 6. It may be.
- FIG. 2 illustrates a laminate 10 having two resin layers 6. As shown in FIG. 2, the two resin layers 6 may be provided on both surfaces of the fiber layer 2.
- the fiber layer 2 sandwiched between the resin layers 6 may be a fiber layer having a multilayer structure.
- the total thickness of the laminate of the present invention is not particularly limited, but is preferably 50 ⁇ m or more, more preferably 100 ⁇ m or more, and further preferably 200 ⁇ m or more. Moreover, it is preferable that the whole thickness of a laminated body is 20 mm or less. The thickness of the laminate is preferably adjusted as appropriate according to the application.
- the thickness of the fiber layer of the laminate is preferably 5 ⁇ m or more, more preferably 10 ⁇ m or more, and further preferably 20 ⁇ m or more.
- the thickness of the fiber layer is It is preferably 500 ⁇ m or less, more preferably 200 ⁇ m or less, More preferably, it is 100 ⁇ m or less.
- the thickness of the fiber layer constituting the laminate is measured by cutting a cross section of the laminate with an ultramicrotome UC-7 (manufactured by JEOL), and observing the cross section with an electron microscope, a magnifier, or visually. Value.
- the total thickness of the fiber layers is preferably within the above range.
- the thickness of the resin layer of the laminate is preferably 10 ⁇ m or more, more preferably 20 ⁇ m or more, further preferably 50 ⁇ m or more, still more preferably 100 ⁇ m or more, and 200 ⁇ m or more. It is particularly preferred.
- the thickness of the resin layer is preferably 15000 ⁇ m or less, more preferably 5000 ⁇ m or less, and even more preferably 500 ⁇ m or less.
- the thickness of the resin layer constituting the laminate is measured by cutting a section of the laminate with an ultramicrotome UC-7 (manufactured by JEOL), and observing the section with an electron microscope, a magnifying glass, or visually. Value.
- the total resin layer thickness is preferably within the above range.
- the thickness of the resin layer is preferably 30% or more, more preferably 100% or more of the thickness of the fiber layer.
- the ratio of the total thickness of the resin layer to the total thickness of the fiber layer (the total thickness of the resin layer / the thickness of the fiber layer) Is preferably 0.5 or more.
- the total light transmittance of the laminate is preferably 60% or more, more preferably 65% or more, still more preferably 70% or more, and particularly preferably 85% or more.
- the total light transmittance is a value measured according to JIS K 7361 using a haze meter (manufactured by Murakami Color Research Laboratory Co., Ltd., HM-150).
- the haze of the laminate is preferably 20% or less, more preferably 15% or less, further preferably 10% or less, and particularly preferably 5% or less.
- haze is a value measured using a haze meter (manufactured by Murakami Color Research Laboratory Co., Ltd., HM-150) according to JIS K 7136.
- the tensile elastic modulus of the laminate at 23 ° C. and 50% relative humidity is preferably 2.5 GPa or more, more preferably 5.0 GPa or more, and further preferably 10 GPa or more. Further, the tensile elastic modulus at 23 ° C. and 50% relative humidity of the laminate is preferably 30 GPa or less, more preferably 25 GPa or less, and further preferably 20 GPa or less.
- the tensile elastic modulus of the laminate is a value measured in accordance with JIS P 8113.
- the resin layer is a layer mainly composed of natural resin or synthetic resin.
- a main component refers to the component contained 50 mass% or more with respect to the total mass of a resin layer.
- the content of the resin is preferably 60% by mass or more, more preferably 70% by mass or more, further preferably 80% by mass or more, and 90% by mass with respect to the total mass of the resin layer. The above is particularly preferable.
- content of resin can also be 100 mass%, and may be 95 mass% or less.
- Examples of natural resins include rosin resins such as rosin, rosin ester, and hydrogenated rosin ester.
- the synthetic resin is preferably at least one selected from, for example, polycarbonate resin, polyethylene terephthalate resin, polyethylene naphthalate resin, polyethylene resin, polypropylene resin, polyimide resin, polystyrene resin, and acrylic resin.
- the synthetic resin is preferably at least one selected from polycarbonate resin and acrylic resin, and more preferably polycarbonate resin.
- the acrylic resin is preferably at least one selected from polyacrylonitrile and poly (meth) acrylate.
- polycarbonate resin constituting the resin layer examples include an aromatic polycarbonate resin and an aliphatic polycarbonate resin. These specific polycarbonate resins are known and include, for example, the polycarbonate resins described in JP 2010-023275 A.
- the resin layer contains an adhesion aid.
- the adhesion assistant include a compound containing at least one selected from an isocyanate group, a carbodiimide group, an epoxy group, an oxazoline group, an amino group, and a silanol group, and an organosilicon compound.
- the adhesion assistant is preferably at least one selected from a compound containing an isocyanate group (isocyanate compound) and an organosilicon compound.
- organosilicon compounds include silane coupling agent condensates and silane coupling agents.
- the isocyanate compound is a polyisocyanate compound or a polyfunctional isocyanate having more than that.
- the polyisocyanate compound an aromatic polyisocyanate having 6 to 20 carbon atoms excluding carbon in the NCO group, an aliphatic polyisocyanate having 2 to 18 carbon atoms, and a carbon number of 6 to 15 carbon atoms.
- examples thereof include alicyclic polyisocyanates, aralkyl polyisocyanates having 8 to 15 carbon atoms, modified products of these polyisocyanates, and mixtures of two or more thereof.
- alicyclic polyisocyanates having 6 to 15 carbon atoms that is, isocyanurates are preferably used.
- alicyclic polyisocyanate examples include, for example, isophorone diisocyanate (IPDI), dicyclohexylmethane-4,4′-diisocyanate (hydrogenated MDI), cyclohexylene diisocyanate, methylcyclohexylene diisocyanate, and bis (2-isocyanatoethyl).
- IPDI isophorone diisocyanate
- MDI dicyclohexylmethane-4,4′-diisocyanate
- cyclohexylene diisocyanate methylcyclohexylene diisocyanate
- bis (2-isocyanatoethyl bis
- the organosilicon compound examples include a compound having a siloxane structure or a compound that forms a siloxane structure by condensation.
- the silane coupling agent or the condensate of a silane coupling agent can be mentioned.
- the silane coupling agent may have a functional group other than an alkoxysilyl group, or may have no other functional group.
- functional groups other than alkoxysilyl groups include vinyl groups, epoxy groups, styryl groups, methacryloxy groups, acryloxy groups, amino groups, ureido groups, mercapto groups, sulfide groups, and isocyanate groups.
- the silane coupling agent used in the present invention is preferably a silane coupling agent containing a methacryloxy group.
- silane coupling agent having a methacryloxy group in the molecule examples include, for example, methacryloxypropylmethyldimethoxysilane, methacryloxypropyltrimethoxysilane, methacryloxypropylmethyldiethoxysilane, methacryloxypropyltriethoxysilane, Examples include 1,3-bis (3-methacryloxypropyl) tetramethyldisiloxane. Among these, at least one selected from methacryloxypropyltrimethoxysilane, methacryloxypropyltriethoxysilane, and 1,3-bis (3-methacryloxypropyl) tetramethyldisiloxane is preferably used.
- the silane coupling agent preferably contains 3 or more alkoxysilyl groups.
- a silanol group is generated after hydrolysis, and at least a part of the silanol group exists even after the fiber layer is laminated. Since the silanol group is a hydrophilic group, the adhesion between the resin layer and the fiber layer can be increased by increasing the hydrophilicity of the surface of the resin layer on the fiber layer side.
- the adhesion assistant may be included in a state of being uniformly dispersed in the resin layer.
- the state in which the adhesion assistant is uniformly dispersed in the resin layer means that the concentration of the following three regions ((a) to (c)) is measured and the concentration of any two regions is compared. A state where there is no difference of 2 times or more.
- (A) The region from the fiber layer side surface of the resin layer to 10% of the total thickness of the resin layer (b) 10% of the total thickness of the resin layer from the surface of the resin layer opposite to the fiber layer side surface % Area (c) ⁇ 5% (total 10%) of the total thickness from the center plane in the thickness direction of the resin layer
- the adhesion assistant may be unevenly distributed in the region on the fiber layer side of the resin layer.
- the organosilicon compound may be unevenly distributed in the region on the fiber layer side of the resin layer.
- the state of being unevenly distributed in the region on the fiber layer side of the resin layer means that two concentrations in the following regions ((d) and (e)) are measured, and the difference between these concentrations is more than twice. This refers to the state of escaping.
- the concentration of the adhesion assistant is a numerical value measured by an X-ray electron spectrometer or an infrared spectrophotometer, and a cross section of a predetermined region of the laminate is cut out by an ultramicrotome UC-7 (manufactured by JEOL). The value obtained by measuring the cross section with the device.
- An organic silicon compound-containing layer may be provided on the surface of the resin layer on the fiber layer side, and such a state is also included in the state where the organosilicon compound is unevenly distributed in the fiber layer side region of the resin layer. It is.
- the organosilicon compound-containing layer may be a coating layer formed by applying an organosilicon compound-containing coating solution.
- the organosilicon compound containing layer is provided on the fiber layer side surface of the resin layer, the “surface of the resin layer on the fiber layer side” in the region (d) is “the organosilicon compound containing layer”.
- the “exposed surface of” and “the total thickness of the resin layer” are read as “the total thickness of the resin layer and the organosilicon compound-containing layer”.
- the content of the adhesion assistant is preferably 0.1 parts by mass or more and more preferably 0.5 parts by mass or more with respect to 100 parts by mass of the resin contained in the resin layer. Moreover, it is preferable that it is 40 mass parts or less with respect to 100 mass parts of resin contained in a resin layer, and, as for content of adhesion assistant, it is more preferable that it is 35 mass parts or less.
- the adhesion assistant is an isocyanate compound
- the content of the isocyanate compound is preferably 10 parts by mass or more, more preferably 15 parts by mass or more with respect to 100 parts by mass of the resin contained in the resin layer. More preferably, it is 18 parts by mass or more.
- the adhesion assistant is an organosilicon compound
- the content of the organosilicon compound is preferably 0.1 parts by mass or more, and 0.5 parts by mass or more with respect to 100 parts by mass of the resin contained in the resin layer. More preferably.
- the content of the isocyanate group contained in the resin layer is preferably 0.5 mmol / g or more, more preferably 0.6 mmol / g or more, 0.8 mmol / G or more is more preferable, and 0.9 mmol / g or more is particularly preferable. Further, the content of isocyanate groups contained in the resin layer is preferably 3.0 mmol / g or less, more preferably 2.5 mmol / g or less, and further preferably 2.0 mmol / g or less. Preferably, it is particularly preferably 1.5 mmol / g or less.
- the surface of the resin layer on the fiber layer side may be subjected to surface treatment.
- the surface treatment method include corona treatment, plasma discharge treatment, UV irradiation treatment, electron beam irradiation treatment, and flame treatment.
- the surface treatment is preferably at least one selected from corona treatment and plasma discharge treatment.
- the plasma discharge treatment is preferably a vacuum plasma discharge treatment.
- the surface on the fiber layer side of the resin layer may form a fine uneven structure.
- the surface on the fiber layer side of the resin layer has a fine uneven structure, the adhesion between the fiber layer and the resin layer can be more effectively enhanced.
- the fiber layer side surface of the resin layer has a fine concavo-convex structure, such a structure is formed by processing steps such as blast processing, emboss processing, etching processing, corona processing, plasma discharge processing, etc. Is preferred.
- the fine concavo-convex structure refers to a structure in which the number of concave portions present on a single straight line having a length of 1 mm drawn at an arbitrary location is 10 or more.
- the laminate When measuring the number of recesses, the laminate is immersed in ion-exchanged water for 24 hours, and then the fiber layer is peeled off from the resin layer. Thereafter, the surface of the resin layer on the fiber layer side can be measured by scanning with a stylus type surface roughness meter (manufactured by Kosaka Laboratory Co., Ltd., Surfcoder series).
- a stylus type surface roughness meter manufactured by Kosaka Laboratory Co., Ltd., Surfcoder series.
- the uneven pitch is very small in the order of submicron and nanometer
- the number of the unevenness can be measured from an observation image of a scanning probe microscope (manufactured by Hitachi High-Tech Science Co., Ltd., AFM5000II and AFM5100N).
- the resin layer may contain an optional component other than the synthetic resin.
- an optional component other than the synthetic resin.
- areas such as a filler, a pigment, dye, and an ultraviolet absorber, is mentioned, for example.
- the fiber layer contains fibrous cellulose having a fiber width of 1000 nm or less.
- the content of fine fibrous cellulose contained in the fiber layer is preferably 60% by mass or more, more preferably 70% by mass or more, and 80% by mass or more with respect to the total mass of the fiber layer. More preferably.
- the density of the fiber layer is preferably 1.0 g / cm 3 or more, more preferably 1.2 g / cm 3 or more, and further preferably 1.4 g / cm 3 or more.
- the density of the fiber layer is preferably 1.7 g / cm 3 or less, more preferably 1.65 g / cm 3 or less, further preferably 1.6 g / cm 3 or less.
- the density of each fiber layer is preferably within the above range.
- the density of the fiber layer is calculated in accordance with JIS P 8118 from the basis weight and thickness of the fiber layer.
- the basis weight of the fiber layer can be calculated according to JIS P 8124 by cutting so that only the fiber layer of the laminate remains with an ultramicrotome UC-7 (manufactured by JEOL).
- the density of a fiber layer is a density containing arbitrary components other than a fine fibrous cellulose.
- the present invention is also characterized in that the fiber layer is a non-porous layer.
- the fiber layer is a non-porous, which means that the overall density of the fiber layer is 1.0 g / cm 3 or more. If the density of the entire fiber layer is 1.0 g / cm 3 or more, it means that the porosity contained in the fiber layer is suppressed to a predetermined value or less, and is distinguished from a porous sheet or layer. .
- the non-porous fiber layer is also characterized by a porosity of 15% by volume or less. The porosity of a fiber layer here is calculated
- Porosity (volume%) [1 ⁇ B / (M ⁇ A ⁇ t)] ⁇ 100
- A is the area (cm 2 ) of the fiber layer
- t is the thickness (cm) of the fiber layer
- B is the mass (g) of the fiber layer
- M is the density of cellulose.
- ⁇ Fine fibrous cellulose> Although it does not specifically limit as a fibrous cellulose raw material for obtaining a fine fibrous cellulose, It is preferable to use a pulp from the point of being easy to acquire and cheap.
- the pulp include wood pulp, non-wood pulp, and deinked pulp.
- wood pulp include hardwood kraft pulp (LBKP), softwood kraft pulp (NBKP), sulfite pulp (SP), dissolved pulp (DP), soda pulp (AP), unbleached kraft pulp (UKP), oxygen bleached craft Chemical pulps such as pulp (OKP) are listed.
- semi-chemical pulps such as semi-chemical pulp (SCP) and chemi-ground wood pulp (CGP), mechanical pulps such as ground wood pulp (GP) and thermomechanical pulp (TMP, BCTMP), and the like are exemplified, but not particularly limited.
- Non-wood pulp includes cotton pulp such as cotton linter and cotton lint, non-wood pulp such as hemp, straw and bagasse, cellulose isolated from sea squirts and seaweed, chitin, chitosan, etc., but is not particularly limited.
- the deinking pulp includes deinking pulp made from waste paper, but is not particularly limited. The pulp of this embodiment may be used alone or in combination of two or more.
- wood pulp containing cellulose and deinked pulp are preferable in terms of availability.
- chemical pulp has a large cellulose ratio, so the yield of fine fibrous cellulose during fiber refinement (defibration) is high, and the degradation of cellulose in the pulp is small, and the fineness of long fibers with a large axial ratio is high. It is preferable at the point from which fibrous cellulose is obtained.
- kraft pulp and sulfite pulp are most preferably selected.
- a fiber layer containing fine fibrous cellulose of long fibers having a large axial ratio tends to provide high strength.
- the average fiber width of the fine fibrous cellulose is 1000 nm or less as observed with an electron microscope.
- the average fiber width is preferably 2 nm or more and 1000 nm or less, more preferably 2 nm or more and 100 nm or less, more preferably 2 nm or more and 50 nm or less, and further preferably 2 nm or more and 10 nm or less, but is not particularly limited.
- the average fiber width of the fine fibrous cellulose is less than 2 nm, the physical properties (strength, rigidity, dimensional stability) as the fine fibrous cellulose tend to be difficult to be expressed because the cellulose molecules are dissolved in water. .
- the fine fibrous cellulose is monofilamentous cellulose having a fiber width of 1000 nm or less, for example.
- Measurement of the fiber width of the fine fibrous cellulose by electron microscope observation is performed as follows. An aqueous suspension of fine fibrous cellulose having a concentration of 0.05% by mass or more and 0.1% by mass or less is prepared, and the suspension is cast on a carbon film-coated grid subjected to a hydrophilic treatment to prepare a sample for TEM observation. To do. When a wide fiber is included, an SEM image of the surface cast on glass may be observed. Observation with an electron microscope image is performed at a magnification of 1000 times, 5000 times, 10000 times, or 50000 times depending on the width of the constituent fibers. However, the sample, observation conditions, and magnification are adjusted to satisfy the following conditions.
- One straight line X is drawn at an arbitrary location in the observation image, and 20 or more fibers intersect the straight line X.
- a straight line Y perpendicular to the straight line is drawn in the same image, and 20 or more fibers intersect the straight line Y.
- the average fiber width (sometimes simply referred to as “fiber width”) of fine fibrous cellulose is an average value of the fiber widths read in this way.
- the fiber length of the fine fibrous cellulose is not particularly limited, but is preferably 0.1 ⁇ m or more and 1000 ⁇ m or less, more preferably 0.1 ⁇ m or more and 800 ⁇ m or less, and particularly preferably 0.1 ⁇ m or more and 600 ⁇ m or less.
- the fiber length of the fine fibrous cellulose can be determined by image analysis using TEM, SEM, or AFM.
- the fine fibrous cellulose preferably has an I-type crystal structure.
- the proportion of the I-type crystal structure in the fine fibrous cellulose is preferably 30% or more, more preferably 50% or more, and further preferably 70% or more.
- the ratio of the crystal parts contained in the fine fibrous cellulose is not particularly limited in the present invention, but it is preferable to use cellulose having a crystallinity obtained by X-ray diffraction of 60% or more.
- the degree of crystallinity is preferably 65% or more, more preferably 70% or more. In this case, further excellent performance can be expected in terms of heat resistance and low linear thermal expansion.
- the degree of crystallinity is obtained by measuring an X-ray diffraction profile and determining the crystallinity by an ordinary method (Seagal et al., Textile Research Journal, 29, 786, 1959).
- the fine fibrous cellulose is preferably one having a substituent, and the substituent is preferably an anionic group.
- the anionic group include a phosphate group or a substituent derived from a phosphate group (sometimes simply referred to as a phosphate group), a carboxyl group or a substituent derived from a carboxyl group (sometimes simply referred to as a carboxyl group), And at least one selected from a sulfone group or a substituent derived from a sulfone group (sometimes simply referred to as a sulfone group), and at least one selected from a phosphate group and a carboxyl group It is more preferable that it is a phosphate group.
- the fine fibrous cellulose is preferably one having a phosphate group or a substituent derived from a phosphate group.
- the phosphoric acid group is a divalent functional group equivalent to the phosphoric acid obtained by removing the hydroxyl group. Specifically, it is a group represented by —PO 3 H 2 .
- Substituents derived from phosphoric acid groups include substituents such as groups obtained by polycondensation of phosphoric acid groups, salts of phosphoric acid groups, and phosphoric acid ester groups. It may be a group.
- the phosphate group or the substituent derived from the phosphate group may be a substituent represented by the following formula (1).
- R represents a hydrogen atom, a saturated-linear hydrocarbon group, a saturated-branched hydrocarbon group, a saturated-cyclic hydrocarbon group, an unsaturated-linear hydrocarbon group, an unsaturated-branched hydrocarbon group.
- ⁇ is a monovalent or higher cation composed of an organic substance or an inorganic substance.
- a fiber raw material containing cellulose is reacted with at least one selected from a compound having a phosphate group and a salt thereof (hereinafter referred to as “phosphorylation reagent” or “compound A”).
- phosphorylation reagent may be mixed in a powder or aqueous solution with a dry or wet fiber raw material.
- a phosphorylating reagent powder or an aqueous solution may be added to the fiber raw material slurry.
- the phosphoric acid group introduction step can be performed by reacting a fiber raw material containing cellulose with at least one selected from a phosphoric acid group-containing compound and a salt thereof (phosphorylation reagent or compound A). This reaction may be carried out in the presence of at least one selected from urea and derivatives thereof (hereinafter referred to as “compound B”).
- An example of a method for causing compound A to act on the fiber raw material in the presence of compound B is a method of mixing powder or an aqueous solution of compound A and compound B with a dry or wet fiber raw material.
- Another example is a method in which powders and aqueous solutions of Compound A and Compound B are added to the fiber raw material slurry.
- a method of adding an aqueous solution of Compound A and Compound B to a dry fiber material, or a powder or an aqueous solution of Compound A and Compound B to a wet fiber material is preferred.
- the compound A and the compound B may be added simultaneously, or may be added separately.
- the form of the fiber raw material is preferably cotton or thin sheet, but is not particularly limited.
- Compound A used in this embodiment is at least one selected from a compound having a phosphate group and a salt thereof.
- the compound having a phosphate group include, but are not limited to, phosphoric acid, lithium salt of phosphoric acid, sodium salt of phosphoric acid, potassium salt of phosphoric acid, ammonium salt of phosphoric acid, and the like.
- the lithium salt of phosphoric acid include lithium dihydrogen phosphate, dilithium hydrogen phosphate, trilithium phosphate, lithium pyrophosphate, and lithium polyphosphate.
- Examples of the sodium salt of phosphoric acid include sodium dihydrogen phosphate, disodium hydrogen phosphate, trisodium phosphate, sodium pyrophosphate, and sodium polyphosphate.
- Examples of the potassium salt of phosphoric acid include potassium dihydrogen phosphate, dipotassium hydrogen phosphate, tripotassium phosphate, potassium pyrophosphate, and potassium polyphosphate.
- Examples of the ammonium salt of phosphoric acid include ammonium dihydrogen phosphate, diammonium hydrogen phosphate, triammonium phosphate, ammonium pyrophosphate, and ammonium polyphosphate.
- phosphoric acid and phosphoric acid are introduced efficiently from the viewpoint that the introduction efficiency of phosphate groups is high, the fibrillation efficiency is easily improved in the fibrillation process described later, the cost is low, and the industrial application is easy.
- Sodium salt, potassium salt of phosphoric acid, and ammonium salt of phosphoric acid are preferable.
- Sodium dihydrogen phosphate or disodium hydrogen phosphate is more preferable.
- the compound A is preferably used as an aqueous solution because the uniformity of the reaction is increased and the efficiency of introducing a phosphate group is increased.
- the pH of the aqueous solution of Compound A is not particularly limited, but is preferably 7 or less because the efficiency of introduction of phosphate groups is increased, and more preferably pH 3 or more and pH 7 or less from the viewpoint of suppressing the hydrolysis of pulp fibers.
- the pH of the aqueous solution of Compound A may be adjusted by, for example, using a phosphoric acid group-containing compound that exhibits acidity and an alkalinity, and changing the amount ratio thereof. You may adjust pH of the aqueous solution of the compound A by adding an inorganic alkali or an organic alkali to the thing which shows acidity among the compounds which have a phosphoric acid group.
- the amount of compound A added to the fiber raw material is not particularly limited, but when the amount of compound A added is converted to phosphorus atomic weight, the amount of phosphorus atom added to the fiber raw material (absolute dry mass) is 0.5 mass% to 100 mass%. Or less, more preferably 1% by mass or more and 50% by mass or less, and most preferably 2% by mass or more and 30% by mass or less. If the amount of phosphorus atoms added to the fiber raw material is within the above range, the yield of fine fibrous cellulose can be further improved. When the addition amount of phosphorus atoms with respect to the fiber raw material exceeds 100% by mass, the effect of improving the yield reaches a peak and the cost of the compound A to be used increases. On the other hand, a yield can be raised by making the addition amount of the phosphorus atom with respect to a fiber raw material more than the said lower limit.
- Compound B used in this embodiment includes urea, biuret, 1-phenylurea, 1-benzylurea, 1-methylurea, 1-ethylurea and the like.
- Compound B is preferably used as an aqueous solution like Compound A. Moreover, since the uniformity of reaction increases, it is preferable to use the aqueous solution in which both compound A and compound B are dissolved.
- the amount of Compound B added to the fiber raw material is preferably 1% by mass or more and 500% by mass or less, more preferably 10% by mass or more and 400% by mass or less, and 100% by mass or more and 350% by mass or less. More preferably, it is more preferably 150% by mass or more and 300% by mass or less.
- amides or amines may be included in the reaction system.
- amides include formamide, dimethylformamide, acetamide, dimethylacetamide and the like.
- amines include methylamine, ethylamine, trimethylamine, triethylamine, monoethanolamine, diethanolamine, triethanolamine, pyridine, ethylenediamine, hexamethylenediamine, and the like. Among these, triethylamine is known to work as a good reaction catalyst.
- the heat treatment temperature it is preferable to select a temperature at which a phosphate group can be efficiently introduced while suppressing thermal decomposition and hydrolysis reaction of the fiber. Specifically, it is preferably 50 ° C. or higher and 300 ° C. or lower, more preferably 100 ° C. or higher and 250 ° C. or lower, and further preferably 130 ° C. or higher and 200 ° C. or lower. Moreover, you may use a vacuum dryer, an infrared heating apparatus, and a microwave heating apparatus for a heating.
- the concentration of the compound A in the fiber raw material may be uneven, and the introduction of phosphate groups on the fiber surface may not proceed uniformly.
- a very thin sheet-like fiber material is used, or the fiber material and Compound A are kneaded or stirred with a kneader or the like and dried by heating or reduced pressure. The method should be taken.
- the heating device used for the heat treatment is preferably a device that can always discharge the moisture retained by the slurry and the moisture generated by the addition reaction of the fibers such as phosphate groups to the hydroxyl group of the fiber, such as a blower oven. Etc. are preferred. If water in the system is always discharged, the hydrolysis reaction of the phosphate ester bond, which is the reverse reaction of the esterification, can be suppressed, and the acid hydrolysis of the sugar chain in the fiber can also be suppressed. A fine fiber having a high axial ratio can be obtained.
- the heat treatment time is also affected by the heating temperature, but it is preferably 1 second or more and 300 minutes or less, preferably 1 second or more and 1000 seconds or less after moisture is substantially removed from the fiber raw material slurry. Preferably, it is 10 seconds or more and 800 seconds or less.
- the amount of phosphate groups introduced can be within a preferred range by setting the heating temperature and the heating time to appropriate ranges.
- the amount of phosphate group introduced is preferably 0.1 mmol / g or more and 3.5 mmol / g or less, more preferably 0.14 mmol / g or more and 2.5 mmol / g or less per 1 g (mass) of fine fibrous cellulose.
- 0.2 mmol / g or more and 2.0 mmol / g or less is more preferable, 0.2 mmol / g or more and 1.8 mmol / g or less is more preferable, 0.4 mmol / g or more and 1.8 mmol / g or less is particularly preferable, Preferably they are 0.6 mmol / g or more and 1.8 mmol / g or less.
- the fiber raw material can be easily refined, and the stability of the fine fibrous cellulose can be enhanced.
- the viscosity of the slurry of a fine fibrous cellulose can be adjusted to an appropriate range by making the introduction amount of phosphoric acid groups within the above range.
- the amount of phosphate group introduced into the fiber material can be measured by a conductivity titration method. Specifically, by performing the defibration process step, after treating the resulting fine fibrous cellulose-containing slurry with an ion exchange resin, by determining the change in electrical conductivity while adding an aqueous sodium hydroxide solution, The amount introduced can be measured.
- first region the electrical conductivity rapidly decreases
- second region the conductivity starts to increase slightly
- third region the conductivity increment increases
- the amount of alkali required in the first region is equal to the amount of strongly acidic groups in the slurry used for titration
- the amount of alkali required in the second region is the amount of weakly acidic groups in the slurry used for titration. Will be equal.
- the amount of strongly acidic groups coincides with the amount of phosphorus atoms regardless of the presence or absence of condensation, so that the amount of phosphate groups introduced (or the amount of phosphate groups) or the amount of substituent introduced (or the amount of substituents) is simply When said, it represents the amount of strongly acidic group. That is, the alkali amount (mmol) required in the first region of the curve shown in FIG. 3 is divided by the solid content (g) in the titration target slurry to obtain the substituent introduction amount (mmol / g).
- the phosphate group introduction step may be performed at least once, but may be repeated a plurality of times. In this case, more phosphoric acid groups are introduced, which is preferable.
- alkali treatment When manufacturing a fine fibrous cellulose, you may perform an alkali treatment between a phosphate group introduction
- the alkali compound contained in the alkali solution is not particularly limited, but may be an inorganic alkali compound or an organic alkali compound.
- the solvent in the alkaline solution may be either water or an organic solvent.
- the solvent is preferably a polar solvent (polar organic solvent such as water or alcohol), and more preferably an aqueous solvent containing at least water.
- a sodium hydroxide aqueous solution or a potassium hydroxide aqueous solution is particularly preferred because of its high versatility.
- the temperature of the alkali solution in an alkali treatment process is not specifically limited, 5 to 80 degreeC is preferable and 10 to 60 degreeC is more preferable.
- the immersion time in the alkaline solution in the alkali treatment step is not particularly limited, but is preferably 5 minutes or longer and 30 minutes or shorter, and more preferably 10 minutes or longer and 20 minutes or shorter.
- the usage-amount of the alkaline solution in an alkali treatment is not specifically limited, It is preferable that it is 100 mass% or more and 100,000 mass% or less with respect to the absolute dry mass of a phosphate group introduction
- the phosphate group-introduced fiber may be washed with water or an organic solvent before the alkali treatment step.
- the alkali treatment in order to improve the handleability, it is preferable to wash the alkali-treated phosphate group-introduced fiber with water or an organic solvent before the defibrating treatment step.
- the phosphate group-introduced fiber is defibrated in the defibrating process.
- the fiber is usually defibrated using a defibrating apparatus to obtain a fine fibrous cellulose-containing slurry, but the processing apparatus and the processing method are not particularly limited.
- a defibrating apparatus a high-speed defibrator, a grinder (stone mill type pulverizer), a high-pressure homogenizer, an ultra-high pressure homogenizer, a high-pressure collision type pulverizer, a ball mill, a bead mill, or the like can be used.
- a device for wet grinding such as a disk type refiner, a conical refiner, a twin-screw kneader, a vibration mill, a homomixer under high-speed rotation, an ultrasonic disperser, or a beater should be used. You can also.
- the defibrating apparatus is not limited to the above.
- Preferable defibrating treatment methods include a high-speed defibrator, a high-pressure homogenizer, and an ultra-high pressure homogenizer that are less affected by the grinding media and less concerned about contamination.
- a polar organic solvent in addition to water, a polar organic solvent can be used.
- polar organic solvents include alcohols, ketones, ethers, dimethyl sulfoxide (DMSO), dimethylformamide (DMF), dimethylacetamide (DMAc), and the like, but are not particularly limited.
- alcohols include methanol, ethanol, n-propanol, isopropanol, n-butanol, and t-butyl alcohol.
- ketones include acetone and methyl ethyl ketone (MEK).
- ethers include diethyl ether and tetrahydrofuran (THF).
- THF tetrahydrofuran
- the dispersion medium may be one type or two or more types. Further, the dispersion medium may contain a solid content other than the fiber raw material, such as urea having hydrogen bonding property.
- the fibrillation treatment may be performed after the fine fibrous cellulose is concentrated and dried.
- the concentration and drying methods are not particularly limited, and examples thereof include a method of adding a concentrating agent to a slurry containing fine fibrous cellulose, a generally used dehydrator, a press, and a method using a dryer.
- a well-known method for example, the method described in WO2014 / 024876, WO2012 / 107642, and WO2013 / 121086 can be used.
- the concentrated fine fibrous cellulose may be formed into a sheet. The sheet can be pulverized to perform a defibrating process.
- the equipment used for pulverization of fine fibrous cellulose includes high-speed fibrillators, grinders (stone mill type pulverizers), high-pressure homogenizers, ultra-high pressure homogenizers, high-pressure collision type pulverizers, ball mills, bead mills, disk type refiners, and conicals.
- An apparatus for wet pulverization such as a refiner, a twin-screw kneader, a vibration mill, a homomixer under high-speed rotation, an ultrasonic disperser, a beater, and the like can be used, but is not particularly limited.
- the fine fibrous cellulose-containing product having a phosphoric acid group obtained by the above-described method is a fine fibrous cellulose-containing slurry, which may be diluted with water so as to have a desired concentration.
- the fiber layer may contain an optional component other than the fine fibrous cellulose.
- optional components include hydrophilic polymers and organic ions.
- the hydrophilic polymer is preferably a hydrophilic oxygen-containing organic compound (however, excluding the cellulose fiber).
- the oxygen-containing organic compound is preferably non-fibrous, and such non-fibrous oxygen-containing organic compound does not contain fine fibrous cellulose or thermoplastic resin fibers.
- the oxygen-containing organic compound is preferably a hydrophilic organic compound.
- the hydrophilic oxygen-containing organic compound can improve the strength, density and chemical resistance of the fiber layer.
- the hydrophilic oxygen-containing organic compound preferably has, for example, an SP value of 9.0 or more.
- the hydrophilic oxygen-containing organic compound is preferably one in which 1 g or more of the oxygen-containing organic compound is dissolved in, for example, 100 ml of ion exchange water.
- oxygen-containing organic compound examples include polyethylene glycol, polyethylene oxide, casein, dextrin, starch, modified starch, polyvinyl alcohol, modified polyvinyl alcohol (acetoacetylated polyvinyl alcohol, etc.), polyethylene oxide, polyvinyl pyrrolidone, polyvinyl methyl ether, poly Hydrophilic polymers such as acrylates, polyacrylamides, acrylic acid alkyl ester copolymers, urethane copolymers, cellulose derivatives (hydroxyethyl cellulose, carboxyethyl cellulose, carboxymethyl cellulose, etc.); hydrophilics such as glycerin, sorbitol, ethylene glycol, etc. Low molecular weight.
- polyethylene glycol, polyethylene oxide, glycerin, and sorbitol are preferable from the viewpoint of improving the strength, density, chemical resistance, and the like of the fiber layer, and more preferably at least one selected from polyethylene glycol and polyethylene oxide.
- it is polyethyleneglycol.
- the oxygen-containing organic compound is preferably an organic compound polymer having a molecular weight of 50,000 to 8,000,000.
- the molecular weight of the oxygen-containing organic compound is preferably 100,000 to 5,000,000, but may be a low molecule having a molecular weight of less than 1,000, for example.
- the content of the oxygen-containing organic compound contained in the fiber layer is preferably 1 part by mass or more and 40 parts by mass or less, with respect to 100 parts by mass of the fine fibrous cellulose contained in the fiber layer. More preferably, the amount is 15 parts by mass or more and 25 parts by mass or less.
- organic ions include tetraalkylammonium ions and tetraalkylphosphonium ions.
- tetraalkylammonium ions include tetramethylammonium ion, tetraethylammonium ion, tetrapropylammonium ion, tetrabutylammonium ion, tetrapentylammonium ion, tetrahexylammonium ion, tetraheptylammonium ion, tributylmethylammonium ion, and lauryltrimethyl.
- Examples include ammonium ion, cetyltrimethylammonium ion, stearyltrimethylammonium ion, octyldimethylethylammonium ion, lauryldimethylethylammonium ion, didecyldimethylammonium ion, lauryldimethylbenzylammonium ion, and tributylbenzylammonium ion.
- tetraalkylphosphonium ions examples include tetramethylphosphonium ions, tetraethylphosphonium ions, tetrapropylphosphonium ions, tetrabutylphosphonium ions, and lauryltrimethylphosphonium ions.
- examples of the tetrapropylonium ion and the tetrabutylonium ion include tetra n-propylonium ion and tetra n-butylonium ion, respectively.
- the present invention also relates to a method for producing a laminate including any of the following steps (a) or (b).
- B A step of applying a fine fibrous cellulose dispersion containing fibrous cellulose having a fiber width of 1000 nm or less after the step of forming a resin layer containing an adhesion assistant.
- the adhesion assistant is preferably at least one selected from an isocyanate compound and an organosilicon compound, and more preferably an isocyanate compound.
- the adhesion assistant is preferably at least one selected from an isocyanate compound and an organosilicon compound, and more preferably an organosilicon compound.
- the step (a) includes a step of forming a fiber layer containing fine fibrous cellulose (hereinafter also referred to as a fine fibrous cellulose-containing sheet).
- the production process of the fine fibrous cellulose-containing sheet includes a step of coating the fine fibrous cellulose dispersion (fine fibrous cellulose-containing slurry) on the substrate, or a step of making a paper of the fine fibrous cellulose dispersion.
- seat includes the process of coating a fine fibrous cellulose dispersion liquid on a base material.
- a coating process is a process of obtaining a sheet
- concentration of the fine fibrous cellulose dispersion liquid to apply is not specifically limited, 0.05 mass% or more and 5 mass% or less are preferable.
- the quality of the base material used in the coating process is not particularly limited, but the one having higher wettability with respect to the fine fibrous cellulose dispersion may be able to suppress sheet shrinkage during drying, but is formed after drying. It is preferable to select a sheet that can be easily peeled off.
- a resin plate or a metal plate is preferable, but is not particularly limited.
- resin plates such as acrylic plates, polyethylene terephthalate plates, vinyl chloride plates, polystyrene plates, polyvinylidene chloride plates, metal plates such as aluminum plates, zinc plates, copper plates, iron plates, etc., and those whose surfaces are oxidized, stainless steel A plate, a brass plate or the like can be used.
- the fine fibrous cellulose dispersion when the fine fibrous cellulose dispersion is low in viscosity and spreads on the base material, it is used for blocking on the base material in order to obtain a fine fibrous cellulose-containing sheet with a predetermined thickness and basis weight.
- the frame may be fixed and used.
- the quality of the damming frame is not particularly limited, but it is preferable to select one that can easily peel off the edge of the sheet attached after drying. Among them, a molded resin plate or metal plate is preferable, but is not particularly limited.
- resin plates such as acrylic plates, polyethylene terephthalate plates, vinyl chloride plates, polystyrene plates, polyvinylidene chloride plates, metal plates such as aluminum plates, zinc plates, copper plates, iron plates, etc., and those whose surfaces are oxidized, stainless steel
- resin plates such as acrylic plates, polyethylene terephthalate plates, vinyl chloride plates, polystyrene plates, polyvinylidene chloride plates, metal plates such as aluminum plates, zinc plates, copper plates, iron plates, etc., and those whose surfaces are oxidized, stainless steel
- a molded plate, brass plate, or the like can be used.
- a coating machine for coating the fine fibrous cellulose dispersion for example, a bar coater, a roll coater, a gravure coater, a die coater, a curtain coater, an air doctor coater or the like can be used.
- a bar coater, a die coater, a curtain coater, and a spray coater are preferable because the thickness can be made more uniform.
- Coating temperature is not particularly limited, but is preferably 20 ° C or higher and 45 ° C or lower. If the coating temperature is equal to or higher than the above lower limit value, the fine fibrous cellulose dispersion can be easily applied. If the coating temperature is equal to or lower than the upper limit value, volatilization of the dispersion medium during coating can be suppressed.
- the coating step it is preferable to apply the fine fibrous cellulose dispersion so that the finished basis weight of the sheet is 10 g / m 2 or more and 100 g / m 2 or less.
- the basis weight is within the above range, a fiber layer having excellent strength can be obtained.
- the production process of the fine fibrous cellulose-containing sheet preferably includes a step of drying the fine fibrous cellulose dispersion coated on the substrate.
- a drying method Either a non-contact drying method or the method of drying while restraining a sheet
- the non-contact drying method is not particularly limited, but a method of drying by heating with hot air, infrared rays, far infrared rays or near infrared rays (heating drying method) or a method of drying in vacuum (vacuum drying method) is applied. Can do. Although the heat drying method and the vacuum drying method may be combined, the heat drying method is usually applied. Although drying by infrared rays, far infrared rays, or near infrared rays can be performed using an infrared device, a far infrared device, or a near infrared device, it is not particularly limited.
- the heating temperature in the heat drying method is not particularly limited, but is preferably 20 ° C. or higher and 150 ° C.
- the heating temperature is not less than the above lower limit value, the dispersion medium can be volatilized quickly, and if it is not more than the above upper limit value, it is possible to suppress the cost required for heating and to prevent the fine fibrous cellulose from being discolored by heat. .
- the obtained fine fibrous cellulose-containing sheet is peeled off from the base material, but when the base material is a sheet, the fine fibrous cellulose-containing sheet and the base material are wound while being laminated to form a fine fibrous form.
- the fine fibrous cellulose-containing sheet may be peeled from the process substrate immediately before use of the cellulose-containing sheet.
- the production process of the fine fibrous cellulose-containing sheet may include a step of paper making the fine fibrous cellulose dispersion.
- Examples of the paper machine in the paper making process include a continuous paper machine such as a long-mesh type, a circular net type, and an inclined type, and a multi-layered paper machine combining these.
- known paper making such as hand making may be performed.
- the fine fibrous cellulose dispersion is filtered and dehydrated on a wire to obtain a wet paper sheet, and then the sheet is obtained by pressing and drying.
- concentration of a fine fibrous cellulose dispersion liquid is not specifically limited, 0.05 mass% or more and 5 mass% or less are preferable.
- the filter cloth at the time of filtration is not particularly limited, but it is important that the fine fibrous cellulose does not pass through and the filtration rate is not too slow.
- seat, fabric, and porous film which consist of organic polymers are preferable.
- the organic polymer is not particularly limited, but non-cellulosic organic polymers such as polyethylene terephthalate, polyethylene, polypropylene, polytetrafluoroethylene (PTFE) and the like are preferable. Specific examples include a porous film of polytetrafluoroethylene having a pore size of 0.1 ⁇ m to 20 ⁇ m, for example, 1 ⁇ m, polyethylene terephthalate or polyethylene woven fabric having a pore size of 0.1 ⁇ m to 20 ⁇ m, for example, 1 ⁇ m, but is not particularly limited.
- non-cellulosic organic polymers such as polyethylene terephthalate, polyethylene, polypropylene, polytetrafluoroethylene (PTFE) and the like are preferable. Specific examples include a porous film of polytetrafluoroethylene having a pore size of 0.1 ⁇ m to 20 ⁇ m, for example, 1 ⁇ m, polyethylene terephthalate or polyethylene woven fabric having a
- This manufacturing apparatus discharges a fine fibrous cellulose dispersion onto the upper surface of an endless belt, and squeezes a dispersion medium from the discharged fine fibrous cellulose dispersion to generate a web, and dries the web. And a drying section for producing a fiber sheet.
- An endless belt is disposed from the squeezing section to the drying section, and the web generated in the squeezing section is conveyed to the drying section while being placed on the endless belt.
- the dehydration method normally used by manufacture of paper is mentioned, After dehydrating with a long net, a circular net, a slanted wire, etc., it dehydrates with a roll press. Is preferred.
- the drying method is not particularly limited, and examples thereof include methods used in paper production. For example, methods such as a cylinder dryer, a Yankee dryer, hot air drying, a near infrared heater, and an infrared heater are preferable.
- the step (a) includes a step of applying a resin composition containing an adhesion aid after the step of forming the fiber layer.
- the resin composition only needs to contain a resin and an adhesion aid, and preferably further contains a solvent.
- a coating machine for coating the resin composition for example, a bar coater, a roll coater, a gravure coater, a die coater, a curtain coater, an air doctor coater or the like can be used. It is preferable to provide a step of curing the resin after coating. In the curing step, heating is preferably performed so that the temperature is 20 ° C. or higher and 150 ° C. or lower.
- the step (b) includes a step of forming a resin layer containing an adhesion assistant.
- the step of forming the resin layer containing the adhesion assistant preferably includes a step of applying the adhesion assistant dilution solution to the resin layer.
- the adhesion assistant diluted solution preferably contains an organosilicon compound.
- the adhesion assistant diluted solution may be applied or sprayed on at least one surface of the resin layer.
- the adhesion assistant diluted solution it is preferable to impregnate the resin layer with the adhesion assistant diluted solution.
- the resin layer is preferably impregnated with an organosilicon compound-containing solution.
- the concentration of the organosilicon compound-containing solution is preferably 0.1% by mass or more, and more preferably 0.2% by mass or more.
- the concentration of the organosilicon compound-containing solution is preferably 20% by mass or less, and more preferably 10% by mass or less.
- a fine fibrous cellulose dispersion (fine fibrous cellulose-containing slurry) containing fibrous cellulose having a fiber width of 1000 nm or less is applied.
- the fiber layer formed in the step (b) is a coating layer.
- the solid content concentration of the fine fibrous cellulose dispersion is preferably 0.05% by mass or more, and more preferably 0.1% by mass or more.
- the solid content concentration of the fine fibrous cellulose dispersion is preferably 10% by mass or less.
- the fine fibrous cellulose dispersion contains an oxygen-containing organic compound.
- the content of the oxygen-containing organic compound is preferably 1 part by mass or more and 40 parts by mass or less, and preferably 10 parts by mass or more and 30 parts by mass with respect to 100 parts by mass of the fine fibrous cellulose contained in the fine fibrous cellulose dispersion. It is more preferable that the amount is 15 parts by mass or more and 25 parts by mass or less.
- a damming frame may be fixed on the resin layer.
- the quality of the damming frame is not particularly limited, but it is preferable to select one that can easily peel off the end of the fiber layer attached after drying. Among them, a molded resin plate or metal plate is preferable, but is not particularly limited.
- resin plates such as acrylic plates, polyethylene terephthalate plates, vinyl chloride plates, polystyrene plates, polyvinylidene chloride plates, metal plates such as aluminum plates, zinc plates, copper plates, iron plates, etc., and those whose surfaces are oxidized, stainless steel
- resin plates such as acrylic plates, polyethylene terephthalate plates, vinyl chloride plates, polystyrene plates, polyvinylidene chloride plates, metal plates such as aluminum plates, zinc plates, copper plates, iron plates, etc., and those whose surfaces are oxidized, stainless steel
- a molded plate, brass plate, or the like can be used.
- a coating machine for coating the fine fibrous cellulose dispersion for example, a bar coater, a roll coater, a gravure coater, a die coater, a curtain coater, an air doctor coater or the like can be used.
- a bar coater, a die coater, a curtain coater, and a spray coater are preferable because the thickness can be made more uniform.
- Coating temperature is not particularly limited, but is preferably 20 ° C or higher and 45 ° C or lower. If the coating temperature is equal to or higher than the above lower limit value, the fine fibrous cellulose dispersion can be easily applied. If the coating temperature is equal to or lower than the upper limit value, volatilization of the dispersion medium during coating can be suppressed.
- the coating step it is preferable to apply the fine fibrous cellulose dispersion so that the finished basis weight of the fiber layer is 10 g / m 2 or more and 100 g / m 2 or less.
- the basis weight is within the above range, a fiber layer having excellent strength can be obtained.
- the fiber layer manufacturing process preferably includes a step of drying the fine fibrous cellulose dispersion coated on the resin layer.
- a drying method Either a non-contact drying method or the method of drying while restraining a fiber layer may be sufficient, and these may be combined.
- the non-contact drying method is not particularly limited, but a method of drying by heating with hot air, infrared rays, far infrared rays or near infrared rays (heating drying method) or a method of drying in vacuum (vacuum drying method) is applied. Can do. Although the heat drying method and the vacuum drying method may be combined, the heat drying method is usually applied. Although drying by infrared rays, far infrared rays, or near infrared rays can be performed using an infrared device, a far infrared device, or a near infrared device, it is not particularly limited.
- the heating temperature in the heat drying method is not particularly limited, but is preferably 20 ° C. or higher and 120 ° C.
- the heating temperature is not less than the above lower limit value, the dispersion medium can be volatilized quickly, and if it is not more than the above upper limit value, it is possible to suppress the cost required for heating and to prevent the fine fibrous cellulose from being discolored by heat. .
- step (b) surface treatment may be performed on at least one surface of the resin layer.
- the surface treatment for example, corona treatment, plasma discharge treatment, UV irradiation treatment, electron beam irradiation treatment, flame treatment or the like can be performed.
- the step (b) may include a step of forming a fine concavo-convex structure. Examples of the process for forming the fine concavo-convex structure include a blasting process, an embossing process, an etching process, a corona process, and a plasma discharge process.
- the method of mounting a resin layer on a fiber layer and heat-pressing other than the method mentioned above is also mentioned.
- Another example is a method in which a fiber layer is installed in a mold for injection molding, a resin heated and melted in the mold is injected, and the resin layer is bonded to the fiber layer.
- the laminate of the present invention may further have an inorganic film (hereinafter also referred to as an inorganic layer).
- the inorganic layer may be laminated on the fiber layer side or may be laminated on the resin layer side.
- an inorganic layer may be laminated
- the material constituting the inorganic layer is not particularly limited, but for example, aluminum, silicon, magnesium, zinc, tin, nickel, titanium; these oxides, carbides, nitrides, oxycarbides, oxynitrides, or oxycarbonitrides Or a mixture thereof. From the viewpoint that high moisture resistance can be stably maintained, silicon oxide, silicon nitride, silicon oxide carbide, silicon oxynitride, silicon oxycarbonitride, aluminum oxide, aluminum nitride, aluminum oxide carbide, aluminum oxynitride, or these Mixtures are preferred.
- the method for forming the inorganic layer is not particularly limited.
- a method for forming a thin film is roughly classified into a chemical vapor deposition method (chemical vapor deposition, CVD) and a physical film deposition method (physical vapor deposition, PVD), and either method may be adopted.
- CVD method include plasma CVD using plasma, and catalytic chemical vapor deposition (Cat-CVD) in which a material gas is contact pyrolyzed using a heating catalyst.
- Cat-CVD catalytic chemical vapor deposition
- PVD method include vacuum deposition, ion plating, and sputtering.
- an atomic layer deposition method (Atomic Layer Deposition, ALD) can also be employed.
- the ALD method is a method of forming a thin film in units of atomic layers by alternately supplying source gases of respective elements constituting a film to be formed to a surface on which a layer is formed.
- the film forming speed is slow, there is an advantage that it is possible to form a thin film with few defects because it can cleanly cover even a complicated surface more than the plasma CVD method.
- the ALD method has an advantage that the film thickness can be controlled on the nano order and it is relatively easy to cover a wide surface.
- the ALD method can be expected to improve the reaction rate, lower the temperature, and reduce the unreacted gas by using plasma.
- the thickness of the inorganic layer is not particularly limited, for example, when it is intended to exhibit moisture proof performance, it is preferably 5 nm or more, more preferably 10 nm or more, and further preferably 20 nm or more. From the viewpoint of transparency and flexibility, the thickness of the inorganic layer is preferably 1000 nm or less, more preferably 800 nm or less, and even more preferably 600 nm or less.
- the laminate of the present invention may further have a resin layer not containing an adhesion assistant (hereinafter also referred to as an adhesion assistant-free resin layer).
- an adhesion assistant-free resin layer a resin layer not containing an adhesion assistant
- the adhesion assistant is exemplified above.
- the phrase “not containing an adhesion assistant” means, for example, a case where the content of the adhesion assistant is less than 0.1 parts by mass with respect to 100 parts by mass of the resin constituting the adhesion assistant-free resin layer.
- the amount is preferably less than 01 parts by mass, and more preferably not contained at all.
- the adhesion aid-free resin layer is a layer mainly composed of natural resin or synthetic resin.
- a natural resin or a synthetic resin for example, the same resin layer as that containing an adhesion assistant can be used.
- the adhesion aid-free resin layer may further contain known components used in the resin film field, such as fillers, pigments, dyes, and ultraviolet absorbers.
- the thickness of the adhesion assistant-free resin layer is, for example, preferably 10 ⁇ m or more, more preferably 20 ⁇ m or more, further preferably 50 ⁇ m or more, still more preferably 100 ⁇ m or more, and 200 ⁇ m or more. It is particularly preferred that Further, the thickness of the adhesion assistant-free resin layer is, for example, preferably 15000 ⁇ m or less, more preferably 5000 ⁇ m or less, and further preferably 500 ⁇ m or less. As will be described later, when a plurality of adhesion assistant-free resin layers are provided, the total thickness of all adhesion assistant-free resin layers is preferably within the above range.
- the adhesion aid-free resin layer can be provided, for example, on one surface of the resin layer containing the adhesion aid and on the surface opposite to the surface on the fiber layer side.
- strength of a laminated body can be improved, improving the interlayer adhesiveness in the whole laminated body.
- the resin layer containing the adhesion assistant and the fiber layer are sequentially laminated on one surface side of the adhesion assistant-free resin layer, and the other of the adhesion assistant-free resin layers is laminated. It is also possible to adopt a mode in which at least one of a resin layer and a fiber layer containing an adhesion assistant is further laminated on the surface side.
- the laminate may have one or more adhesion assistant-free resin layers.
- two or more adhesion assistant non-containing resin layers may be provided on one surface side of the fiber layer.
- These adhesion aid non-containing resin layers may be in contact with each other or may be laminated via other layers.
- the other layer is not particularly limited, and examples thereof include a resin layer containing an adhesion assistant, a fiber layer, and an inorganic layer.
- FIG. 4 is a cross-sectional view illustrating the configuration of the laminate of the present invention, and is a cross-sectional view illustrating the configuration of the laminate 10 having the adhesion assistant-free resin layer 20.
- the laminated body 10 includes a fiber layer 2, a resin layer 6 (a resin layer 6 including an adhesion assistant), and an adhesion assistant-free resin layer 20 that are laminated in this order. Configured.
- the resin layer 6 and the adhesion assistant-free resin layer 20 are sequentially laminated on one surface and the other surface of the fiber layer 2.
- a case where the adhesion assistant-free resin layer 20 contains a polycarbonate resin can be cited as an example of a preferred embodiment.
- FIG.4 (c) the case where the resin layer 6 and the fiber layer 2 are laminated
- FIG. 5 is a cross-sectional view illustrating the configuration of the laminate of the present invention, and is a cross-sectional view illustrating the configuration of the laminate 10 having the adhesion assistant-free resin layer 20 and the adhesion assistant-free resin layer 22. .
- the laminate 10 includes a fiber layer 2, a resin layer 6 containing an adhesion assistant, an adhesion assistant-free resin layer 22, an adhesion assistant-free resin layer 20, Are stacked in this order.
- the adhesion assistant non-containing resin layer 22 and the adhesion assistant non-containing resin layer 20 may be made of different resin materials, or may be made of the same resin material.
- the adhesion assistant-free resin layer 20 contains a polycarbonate resin
- the adhesion assistant-free resin layer 22 contains at least one of a polycarbonate resin and an acrylic resin may be mentioned as an example of a preferred embodiment. it can.
- the resin layer 6, the adhesion assistant-free resin layer 22, and the adhesion assistant-free resin layer 20 are sequentially laminated on one surface and the other surface of the fiber layer 2.
- the structure of the adhesion assistant non-containing resin layer 20 and the adhesion assistant non-containing resin layer 22 in FIG. 5B can be the same as that shown in FIG. 5A, for example.
- FIG. 6 is a cross-sectional view illustrating the configuration of the laminate of the present invention, and the laminate 10 having the adhesion assistant-free resin layer 20, the adhesion assistant-free resin layer 22, and the adhesion assistant-free resin layer 24. It is sectional drawing explaining the structure of these.
- the laminate 10 includes a fiber layer 2, a resin layer 6 containing an adhesion assistant, an adhesion assistant-free resin layer 22, an adhesion assistant-free resin layer 24,
- the adhesion assistant-free resin layer 20 is laminated in this order.
- the adhesion assistant non-containing resin layer 22, the adhesion assistant non-containing resin layer 24, and the adhesion assistant non-containing resin layer 20 may be composed of two or more of the three layers made of different resin materials. In addition, all three layers may be made of the same resin material.
- the adhesion assistant-free resin layer 20 includes a polycarbonate resin
- the adhesion assistant-free resin layer 22 and the adhesion assistant-free resin layer 24 each include at least one of a polycarbonate resin and an acrylic resin.
- the case can be given as an example of a preferred embodiment.
- the adhesion assistant-free resin layer 20 contains a polycarbonate resin
- the adhesion assistant-free resin layer 24 contains an acrylic resin
- the adhesion assistant-free resin layer 22 contains a polycarbonate resin
- the resin layer 6, the adhesion assistant-free resin layer 22, the adhesion aid-free resin layer 24, and the adhesion assistant are respectively formed on one surface and the other surface of the fiber layer 2.
- the agent-free resin layer 20 is laminated in order.
- the structure of the adhesion assistant non-containing resin layer 20, the adhesion assistant non-containing resin layer 22 and the adhesion assistant non-containing resin layer 24 in FIG. 6 (b) can be made the same as that of FIG. 6 (a), for example. is there.
- a preferred embodiment of the laminate of the present invention is a laminate that is transparent and has high mechanical strength and low haze. From the viewpoint of utilizing excellent optical characteristics, it is suitable for applications of light-transmitting substrates such as various display devices and various solar cells. It is also suitable for applications such as substrates for electronic devices, members of household appliances, various vehicles and building windows, interior materials, exterior materials, packaging materials, and the like.
- the obtained chemical solution-impregnated pulp was dried and heat-treated for 200 seconds with a hot air dryer at 165 ° C. to introduce phosphate groups into cellulose in the pulp.
- the amount of phosphate groups introduced at this time was 0.98 mmol / g.
- the amount of phosphate group introduced was measured by diluting cellulose with ion-exchanged water so that the content was 0.2% by mass, and then treating with ion-exchange resin and titrating with alkali.
- ion-exchange resin 1/10 by volume of a strongly acidic ion exchange resin (manufactured by Organo Corporation, Amberjet 1024: conditioned) is added to the 0.2 mass% cellulose-containing slurry, followed by shaking treatment for 1 hour. went. Thereafter, the mixture was poured onto a mesh having an opening of 90 ⁇ m to separate the resin and the slurry.
- a metal frame for damming (a metal frame having an inner dimension of 180 mm ⁇ 180 mm) was disposed on the acrylic plate so as to have a predetermined basis weight.
- Example 2 In Example 1, except that the addition amount of the isocyanate compound in the resin composition was 3 parts by mass, a laminate in which the resin layers were laminated on both sides of the fiber layer was obtained in the same manner as in Example 1.
- Example 3 In Example 1, in the case of laminating the resin layers, except that the amount of the isocyanate compound added was 5.25 parts by mass, the same procedure as in Example 1 was performed to obtain a laminate in which the resin layers were laminated on both sides of the fiber layer. .
- the polycarbonate film was pulled up, and the upper end was sandwiched between double clips, suspended in a constant temperature dryer, and subjected to heat treatment at 100 ° C. for 15 minutes. Furthermore, the heat processing for 3 hours were performed at 120 degreeC. A resin layer containing an adhesion assistant was obtained by the above treatment.
- the fine fibrous cellulose dispersion (B) obtained in Example 1 was weighed so that the finished basis weight of the fiber layer was 50 g / m 2 and applied to the surface-treated resin layer at 35 ° C., The film was dried in a constant temperature and humidity chamber with a relative humidity of 15%.
- a metal frame for damming (a metal frame having an inner dimension of 180 mm ⁇ 180 mm) was disposed on the resin layer so as to have a predetermined basis weight.
- Example 5 In the treatment of adhesion assistant to the resin layer of Example 4, the same procedure as in Example 4 was conducted except that the concentration of methacryloxypropyltrimethoxysilane was diluted with ethanol so that the concentration was 5.0%. A laminate in which layers were laminated was obtained.
- Example 6 In the treatment of the adhesion assistant to the resin layer of Example 5, methacryloxypropyltriethoxysilane (manufactured by Momentive Performance Materials Japan, SILQUEST Y-9936 SILANE) was used instead of methacryloxypropyltrimethoxysilane. Except for this, a laminate was obtained in which the resin layer was laminated on one side of the fiber layer in the same manner as in Example 5.
- methacryloxypropyltriethoxysilane manufactured by Momentive Performance Materials Japan, SILQUEST Y-9936 SILANE
- Example 7 In the treatment of adhesion assistant to the resin layer of Example 5, 1,3-bis (3-methacryloxypropyl) tetramethyldisiloxane (Momotive Performance Materials Japan) was used instead of methacryloxypropyltrimethoxysilane. , TSL9706) was used in the same manner as in Example 5 to obtain a laminate in which the resin layer was laminated on one side of the fiber layer.
- Example 1 ⁇ Comparative Example 1>
- an isocyanate compound as an adhesion assistant was not added.
- Other procedures were the same as in Example 1 to obtain a laminate in which resin layers were laminated on both sides of the fiber layer.
- Example 4 the adhesion assistant treatment for the resin layer was not performed. Other procedures were the same as in Example 1 to obtain a laminate in which the resin layer was laminated on one side of the fiber layer.
- the thickness of the laminated body was measured with a stylus type thickness meter (manufactured by Marl, Millitron 1202D).
- Examples 1 to 3 and Comparative Example 1 the thickness of the fiber layer before lamination was measured with a stylus thickness meter (Milltron 1202D, manufactured by Marl), and the thickness was determined as the thickness of the fiber layer in the laminate. .
- the thickness of the fiber layer in the laminate was calculated by subtracting the thickness of the resin layer measured by the method described later from the thickness of the laminate.
- the thickness of the resin layer in the laminate was calculated by subtracting the thickness of the fiber layer measured by the method described above from the thickness of the laminate.
- the thickness of the surface-treated resin layer before lamination was measured with a stylus type thickness meter (Milltron 1202D manufactured by Marl), and the thickness of the resin layer in the laminate was measured. It was.
- Total light transmittance of laminate Based on JIS K 7361, the total light transmittance of the laminate was evaluated using a haze meter (manufactured by Murakami Color Research Laboratory Co., Ltd., HM-150).
- Example 8 (Production Example 1 of multilayer laminate)> Using the laminate obtained in any of Examples 4 to 7, a multilayer laminate in which resin layers are laminated on both sides of the fiber layer by the following procedure is obtained. Two laminates obtained in any of Examples 4 to 7 are prepared, and water is applied to each fiber layer with a bar coater. Next, the fiber layer surfaces of the two laminates are bonded together, and a rubber roller is pressed from the resin layer side of one laminate and pressed. Furthermore, the laminated body bonded together is dried at 100 ° C. for 1 hour with a constant temperature dryer, whereby a multilayer laminated body in which the resin layers are laminated on both surfaces of the fiber layer is obtained.
- Example 9 (Production Example 2 of multilayer laminate)> Using the laminate obtained in any of Examples 4 to 7, a multilayer laminate in which resin layers are laminated on both sides of the fiber layer by the following procedure is obtained. Two laminates obtained in any of Examples 4 to 7 are prepared, and UV curable acrylic adhesive (Z-587, manufactured by Aika Kogyo Co., Ltd.) is applied to each fiber layer with a bar coater. . Next, the fiber layer surfaces of the two laminates are bonded together, and a rubber roller is pressed from the resin layer side of one laminate and pressed.
- UV curable acrylic adhesive Z-587, manufactured by Aika Kogyo Co., Ltd.
- UV light of 500 mJ / cm 2 was irradiated three times from the resin layer side of the laminated body using a UV conveyor device (ECS-4011GX, manufactured by Eye Graphics Co., Ltd.) to give a UV curable acrylic adhesive.
- a UV conveyor device ECS-4011GX, manufactured by Eye Graphics Co., Ltd.
- Example 10 (Production Example 3 of Multilayer Laminate)> Using the laminate obtained in any of Examples 4 to 7, a multilayer laminate in which resin layers are laminated on both sides by the following procedure is obtained. First, 100 parts by mass of an acrylic resin grafted with an acryloyl group (manufactured by Taisei Fine Chemical Co., Ltd., Acryt 8KX-012C) and 38 parts by mass of a polyisocyanate compound (manufactured by Asahi Kasei Chemicals Co., Ltd., TPA-100) are mixed to obtain a resin composition. obtain. Next, the resin composition is applied to the cellulose fiber-containing layer of the laminate with a bar coater. Furthermore, the multilayer laminated body by which the resin layer was laminated
- an acrylic resin grafted with an acryloyl group manufactured by Taisei Fine Chemical Co., Ltd., Acryt 8KX
- Example 11 (Production Example 1 of inorganic film laminate)> With respect to the laminate obtained in any of Examples 1 to 7 or the multilayer laminate obtained in any of Examples 8 to 10, using an atomic layer deposition apparatus (“SUNALE R-100B” manufactured by Picosun), An aluminum oxide film is formed.
- SUNALE R-100B atomic layer deposition apparatus
- An aluminum oxide film is formed.
- trimethylaluminum (TMA) and H 2 O are used for the oxidation of TMA.
- the chamber temperature is set to 150 ° C.
- the TMA pulse time is 0.1 seconds
- the purge time is 4 seconds
- the H 2 O pulse time is 0.1 seconds
- the purge time is 4 seconds.
- Example 12 Plasma CVD apparatus ("ICP-CVD roll-to-roll apparatus” manufactured by Cellvac Co., Ltd.) for the laminate obtained in any of Examples 1 to 6 or the multilayer laminate obtained in any of Examples 7 to 9 )
- Plasma CVD apparatus ICP-CVD roll-to-roll apparatus manufactured by Cellvac Co., Ltd.
- a laminate or a multilayer laminate is bonded to the upper surface of a carrier film (PET film) with a double-sided tape and placed in a vacuum chamber.
- the temperature in the vacuum chamber is set to 50 ° C.
- the inflow gas is silane, ammonia, oxygen, and nitrogen.
- a plasma discharge is generated and film formation is performed for 45 minutes to obtain an inorganic film laminate in which a silicon oxynitride film having a thickness of 500 nm is laminated on one side of the laminate. Furthermore, an inorganic film laminated body in which a silicon oxynitride film having a thickness of 500 nm is laminated on both surfaces of the laminated body can also be obtained by performing film formation on the opposite surface in the same procedure.
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Abstract
Description
そこで本発明者らは、このような従来技術の課題を解決するために、より優れた密着性を有する微細繊維状セルロース含有シート(繊維層)と樹脂層の積層体を提供することを目的として検討を進めた。
具体的に、本発明は、以下の構成を有する。
[2] 樹脂層は、ポリカーボネート樹脂及びアクリル樹脂から選択される少なくとも一方を含む[1]に記載の積層体。
[3] 密着助剤はイソシアネート化合物及び有機ケイ素化合物から選択される少なくとも1種である[1]又は[2]に記載の積層体。
[4] 密着助剤は、樹脂層の繊維層側の領域に偏在している[1]~[3]のいずれかに記載の積層体。
[5] 密着助剤はイソシアネート化合物であり、イソシアネート化合物の含有量は樹脂層に含まれる樹脂100質量部に対して10質量部以上40質量部以下である[1]~[4]のいずれかに記載の積層体。
[6]密着助剤はイソシアネート化合物であり、樹脂層に含まれるイソシアネート基の含有量は、0.5mmol/g以上3.0mmol/g以下である[1]~[5]のいずれかに記載の積層体。
[7] 繊維層の密度は1.0g/cm3以上である[1]~[6]のいずれかに記載の積層体。
[8] (a)繊維幅が1000nm以下の繊維状セルロースを含む繊維層を形成する工程の後に、密着助剤を含有する樹脂組成物を塗工する工程を含むか、もしくは、(b)密着助剤を含有する樹脂層を形成する工程の後に、繊維幅が1000nm以下の繊維状セルロースを含む微細繊維状セルロース分散液を塗工する工程を含む、積層体の製造方法。
[9] (a)工程を含み、密着助剤がイソシアネート化合物である[8]に記載の積層体の製造方法。
[10] (b)工程を含み、密着助剤が有機ケイ素化合物である[8]に記載の積層体の製造方法。
本発明は、繊維幅が1000nm以下の繊維状セルロース(以下、微細繊維状セルロースともいう)を含む繊維層と、繊維層の一方の面に接する樹脂層と、を少なくとも1層ずつ有する積層体に関する。本発明の積層体において、樹脂層は密着助剤を含有する。
本発明の積層体は、上記構成を有するため、繊維幅が1000nm以下の繊維状セルロースを含む繊維層と樹脂層の密着性に優れたものである。
500μm以下であることが好ましく、200μm以下であることがより好ましく、
100μm以下であることがさらに好ましい。ここで、積層体を構成する繊維層の厚さは、ウルトラミクロトームUC-7(JEOL社製)によって積層体の断面を切り出し、当該断面を電子顕微鏡、拡大鏡又は目視で観察して、測定される値である。積層体に繊維層が複数層含まれている場合は、合計の繊維層の厚みが上記範囲内であることが好ましい。
樹脂層は、天然樹脂や合成樹脂を主成分とする層である。ここで、主成分とは、樹脂層の全質量に対して、50質量%以上含まれている成分を指す。樹脂の含有量は、樹脂層の全質量に対して、60質量%以上であることが好ましく、70質量%以上であることがより好ましく、80質量%以上であることがさらに好ましく、90質量%以上であることが特に好ましい。なお、樹脂の含有量は、100質量%とすることもでき、95質量%以下であってもよい。
(a)樹脂層の繊維層側の面から樹脂層の全体の厚みの10%までの領域
(b)樹脂層の繊維層側の面とは反対側の面から樹脂層の全体の厚みの10%までの領域
(c)樹脂層の厚み方向の中心面から全体の厚みの±5%(合計10%)の領域
ここで、樹脂層の繊維層側の領域に偏在している状態とは、以下の領域((d)及び(e))の2つの濃度を測定して、これらの濃度に2倍以上の差がでる状態をいう。
(d)樹脂層の繊維層側の面から樹脂層の全体の厚みの10%までの領域
(e)樹脂層の厚み方向の中心面から全体の厚みの±5%(合計10%)の領域
ここで、密着助剤の濃度は、X線電子分光装置又は赤外分光光度計によって測定される数値であり、ウルトラミクロトームUC-7(JEOL社製)によって積層体の所定の領域の断面を切り出し、当該断面を当該装置によって測定して得る値である。
なお、樹脂層の繊維層側の面上に有機ケイ素化合物含有層が設けられている場合は、上記領域(d)において、「樹脂層の繊維層側の面」は、「有機ケイ素化合物含有層の露出表面」と読み替えるものとし、「樹脂層全体の厚み」は「樹脂層と有機ケイ素化合物含有層の合計厚み」と読み替えるものとする。
密着助剤がイソシアネート化合物である場合、イソシアネート化合物の含有量は樹脂層に含まれる樹脂100質量部に対して、10質量部以上であることが好ましく、15質量部以上であることがより好ましく、18質量部以上であることがさらに好ましい。また、イソシアネート化合物の含有量は樹脂層に含まれる樹脂100質量部に対して、40質量部以下であることが好ましく、35質量部以下であることがより好ましく、30質量部以下であることがさらに好ましい。
密着助剤が有機ケイ素化合物である場合、有機ケイ素化合物の含有量は樹脂層に含まれる樹脂100質量部に対して、0.1質量部以上であることが好ましく、0.5質量部以上であることがより好ましい。また、有機ケイ素化合物の含有量は樹脂層に含まれる樹脂100質量部に対して、10質量部以下であることが好ましく、5質量部以下であることがより好ましい。
密着助剤の含有量を上記範囲内とすることにより、より効果的に、繊維層と樹脂層の密着性を高めることができる。
像から凹凸の数を測定することができる。
繊維層は、繊維幅が1000nm以下の繊維状セルロースを含む。繊維層に含まれる微細繊維状セルロースの含有量は、繊維層の全質量に対して、60質量%以上であることが好ましく、70質量%以上であることがより好ましく、80質量%以上であることがさらに好ましい。
また、繊維層が非多孔性であることは、空隙率が15体積%以下であることからも特徴付けられる。ここでいう繊維層の空隙率は簡易的に下記式(a)により求めるものである。
式(a):空隙率(体積%)=[1-B/(M×A×t)]×100
ここで、Aは繊維層の面積(cm2)、tは繊維層の厚み(cm)、Bは繊維層の質量(g)、Mはセルロースの密度である。
微細繊維状セルロースを得るための繊維状セルロース原料としては特に限定されないが、入手しやすく安価である点から、パルプを用いることが好ましい。パルプとしては、木材パルプ、非木材パルプ、脱墨パルプを挙げることができる。木材パルプとしては例えば、広葉樹クラフトパルプ(LBKP)、針葉樹クラフトパルプ(NBKP)、サルファイトパルプ(SP)、溶解パルプ(DP)、ソーダパルプ(AP)、未晒しクラフトパルプ(UKP)、酸素漂白クラフトパルプ(OKP)等の化学パルプ等が挙げられる。また、セミケミカルパルプ(SCP)、ケミグラウンドウッドパルプ(CGP)等の半化学パルプ、砕木パルプ(GP)、サーモメカニカルパルプ(TMP、BCTMP)等の機械パルプ、等が挙げられるが、特に限定されない。非木材パルプとしてはコットンリンターやコットンリント等の綿系パルプ、麻、麦わら、バガス等の非木材系パルプ、ホヤや海草等から単離されるセルロース、キチン、キトサン等が挙げられるが、特に限定されない。脱墨パルプとしては古紙を原料とする脱墨パルプが挙げられるが、特に限定されない。本実施態様のパルプは上記の1種を単独で用いてもよいし、2種以上混合して用いてもよい。上記パルプの中で、入手のしやすさという点で、セルロースを含む木材パルプ、脱墨パルプが好ましい。木材パルプの中でも化学パルプはセルロース比率が大きいため、繊維微細化(解繊)時の微細繊維状セルロースの収率が高く、またパルプ中のセルロースの分解が小さく、軸比の大きい長繊維の微細繊維状セルロースが得られる点で好ましい。中でもクラフトパルプ、サルファイトパルプが最も好ましく選択される。軸比の大きい長繊維の微細繊維状セルロースを含有する繊維層は高強度が得られる傾向がある。
(2)同じ画像内で該直線と垂直に交差する直線Yを引き、該直線Yに対し、20本以上の繊維が交差する。
微細繊維状セルロースに占めるI型結晶構造の割合は30%以上であることが好ましく、より好ましくは50%以上、さらに好ましくは70%以上である。
リン酸基導入工程は、セルロースを含む繊維原料に対し、リン酸基を有する化合物及びその塩から選択される少なくとも1種(以下、「リン酸化試薬」又は「化合物A」という)を反応させることにより行うことができる。このようなリン酸化試薬は、乾燥状態または湿潤状態の繊維原料に粉末や水溶液の状態で混合してもよい。また別の例としては、繊維原料のスラリーにリン酸化試薬の粉末や水溶液を添加してもよい。
リン酸基を有する化合物としては、リン酸、リン酸のリチウム塩、リン酸のナトリウム塩、リン酸のカリウム塩、リン酸のアンモニウム塩などが挙げられるが、特に限定されない。リン酸のリチウム塩としては、リン酸二水素リチウム、リン酸水素二リチウム、リン酸三リチウム、ピロリン酸リチウム、またはポリリン酸リチウムなどが挙げられる。リン酸のナトリウム塩としてはリン酸二水素ナトリウム、リン酸水素二ナトリウム、リン酸三ナトリウム、ピロリン酸ナトリウム、またはポリリン酸ナトリウムなどが挙げられる。リン酸のカリウム塩としてはリン酸二水素カリウム、リン酸水素二カリウム、リン酸三カリウム、ピロリン酸カリウム、またはポリリン酸カリウムなどが挙げられる。リン酸のアンモニウム塩としては、リン酸二水素アンモニウム、リン酸水素二アンモニウム、リン酸三アンモニウム、ピロリン酸アンモニウム、ポリリン酸アンモニウムなどが挙げられる。
微細繊維状セルロースを製造する場合、リン酸基導入工程と、後述する解繊処理工程の間にアルカリ処理を行ってもよい。アルカリ処理の方法としては、特に限定されないが、例えば、アルカリ溶液中に、リン酸基導入繊維を浸漬する方法が挙げられる。
アルカリ溶液に含まれるアルカリ化合物は、特に限定されないが、無機アルカリ化合物であってもよいし、有機アルカリ化合物であってもよい。アルカリ溶液における溶媒としては水または有機溶媒のいずれであってもよい。溶媒は、極性溶媒(水、またはアルコール等の極性有機溶媒)が好ましく、少なくとも水を含む水系溶媒がより好ましい。
また、アルカリ溶液のうちでは、汎用性が高いことから、水酸化ナトリウム水溶液、または水酸化カリウム水溶液が特に好ましい。
アルカリ処理工程におけるアルカリ溶液への浸漬時間は特に限定されないが、5分以上30分以下が好ましく、10分以上20分以下がより好ましい。
アルカリ処理におけるアルカリ溶液の使用量は特に限定されないが、リン酸基導入繊維の絶対乾燥質量に対して100質量%以上100000質量%以下であることが好ましく、1000質量%以上10000質量%以下であることがより好ましい。
リン酸基導入繊維は、解繊処理工程で解繊処理される。解繊処理工程では、通常、解繊処理装置を用いて、繊維を解繊処理して、微細繊維状セルロース含有スラリーを得るが、処理装置、処理方法は、特に限定されない。
解繊処理装置としては、高速解繊機、グラインダー(石臼型粉砕機)、高圧ホモジナイザーや超高圧ホモジナイザー、高圧衝突型粉砕機、ボールミル、ビーズミルなどを使用できる。あるいは、解繊処理装置としては、ディスク型リファイナー、コニカルリファイナー、二軸混練機、振動ミル、高速回転下でのホモミキサー、超音波分散機、またはビーターなど、湿式粉砕する装置等を使用することもできる。解繊処理装置は、上記に限定されるものではない。好ましい解繊処理方法としては、粉砕メディアの影響が少なく、コンタミの心配が少ない高速解繊機、高圧ホモジナイザー、超高圧ホモジナイザーが挙げられる。
繊維層には、微細繊維状セルロース以外の任意成分が含まれていてもよい。任意成分としては、例えば、親水性高分子や有機イオン等が挙げられる。親水性高分子は、親水性の含酸素有機化合物(但し、上記セルロース繊維は除く)であることが好ましい。含酸素有機化合物は非繊維状であることが好ましく、このような非繊維状の含酸素有機化合物には、微細繊維状セルロースや熱可塑性樹脂繊維は含まれない。
本発明は、下記(a)又は(b)のいずれかの工程を含む積層体の製造方法に関するものでもある。
(a)繊維幅が1000nm以下の繊維状セルロースを含む繊維層を形成する工程の後に、密着助剤を含有する樹脂組成物を塗工する工程。
(b)密着助剤を含有する樹脂層を形成する工程の後に、繊維幅が1000nm以下の繊維状セルロースを含む微細繊維状セルロース分散液を塗工する工程。
塗工工程は、微細繊維状セルロース分散液を基材上に塗工し、これを乾燥して形成された微細繊維状セルロース含有シートを基材から剥離することにより、シートを得る工程である。塗工装置と長尺の基材を用いることで、シートを連続的に生産することができる。塗工する微細繊維状セルロース分散液の濃度は特に限定されないが、0.05質量%以上5質量%以下が好ましい。
微細繊維状セルロース含有シートの製造工程は、微細繊維状セルロース分散液を抄紙する工程を含んでもよい。抄紙工程で抄紙機としては、長網式、円網式、傾斜式等の連続抄紙機、これらを組み合わせた多層抄き合わせ抄紙機等が挙げられる。抄紙工程では、手抄き等公知の抄紙を行ってもよい。
塗工後は樹脂を硬化させる工程を設けることが好ましい。硬化工程では、20℃以上150℃以下なるように加熱することが好ましい。
樹脂層を有機ケイ素化合物含有溶液に含浸させる場合は、有機ケイ素化合物含有溶液の濃度は0.1質量%以上であることが好ましく、0.2質量%以上であることがより好ましい。また、有機ケイ素化合物含有溶液の濃度は20質量%以下であることが好ましく、10質量%以下であることがより好ましい。有機ケイ素化合物含有溶液の濃度を上記範囲内とすることにより、繊維層と樹脂層の密着性をより効果的に高めることができる。
また、上記(b)の工程では、微細凹凸構造を形成する工程を含んでもよい。微細凹凸構造を形成する工程としては、ブラスト加工処理、エンボス加工処理、エッチング処理、コロナ処理、プラズマ放電処理等を挙げるこことができる。
本発明の積層体は、さらに無機膜(以下、無機層ともいう)を有していてもよい。無機層は、繊維層側に積層されてもよく、樹脂層側に積層されてもよい。また、無機層は、積層体の両側に積層されてもよい。
また、本実施形態においては、たとえば図4(c)に示す態様を採用することも可能である。図4(c)では、密着助剤非含有樹脂層20の一方の面および他方の面のそれぞれに、樹脂層6と繊維層2が順に積層される場合が例示されている。
本発明の積層体の好ましい実施形態は、透明で機械的強度が高く、ヘーズの小さい積層体である。優れた光学特性を活かす観点から、各種のディスプレイ装置、各種の太陽電池、等の光透過性基板の用途に適している。また、電子機器の基板、家電の部材、各種の乗り物や建物の窓材、内装材、外装材、包装用資材等の用途にも適している。
[リン酸化]
針葉樹クラフトパルプとして、王子製紙社製のパルプ(固形分93%、坪量208g/m2シート状、離解してJIS P 8121に準じて測定されるカナダ標準濾水度(CSF)700ml)を使用した。上記針葉樹クラフトパルプ(絶乾質量)100質量部に、リン酸二水素アンモニウムと尿素の混合水溶液を含浸し、リン酸二水素アンモニウム45質量部、尿素200質量部となるように圧搾し、薬液含浸パルプを得た。得られた薬液含浸パルプを165℃の熱風乾燥機で200秒間乾燥・加熱処理し、パルプ中のセルロースにリン酸基を導入した。このときのリン酸基の導入量は、0.98mmol/gであった。
次いで、リン酸基を導入したセルロースに5000mlのイオン交換水を加え、撹拌洗浄後、脱水した。脱水後のパルプを5000mlのイオン交換水で希釈し、撹拌しながら、1Nの水酸化ナトリウム水溶液をpHが12以上13以下になるまで少しずつ添加して、パルプ分散液を得た。その後、このパルプ分散液を脱水し、5000mlのイオン交換水を加えて洗浄を行った。この脱水洗浄をさらに1回繰り返した。
洗浄脱水後に得られたパルプにイオン交換水を添加して、固形分濃度が1.0質量%のパルプ分散液とした。このパルプ分散液を、高圧ホモジナイザー(NiroSoavi社製、Panda Plus 2000)を用いて処理し、セルロース分散液を得た。高圧ホモジナイザーを用いた処理においては、操作圧力1200barにてホモジナイジングチャンバーを5回通過させた。さらに、このセルロース分散液を湿式微粒化装置(スギノマシン社製、アルティマイザー)を用いて処理し、微細繊維状セルロース分散液(A)を得た。湿式微粒化装置を用いた処理においては、245MPaの圧力にて処理チャンバーを5回通過させた。微細繊維状セルロース分散液(A)に含まれる微細繊維状セルロースの平均繊維幅は4nmであった。
微細繊維状セルロース分散液(A)の固形分濃度が0.5質量%となるよう濃度調整を行った。その後、微細繊維状セルロース分散液(A)100質量部に対して、ポリエチレンオキサイド(住友精化社製、PEO-18)の0.5質量%水溶液を20質量部添加し、微細繊維状セルロース分散液(B)を得た。次いで、セルロース繊維含有層(微細繊維状セルロース分散液(B)の固形分から構成される層)の仕上がり坪量が50g/m2になるように微細繊維状セルロース分散液(B)を計量して、市販のアクリル板に塗工し、35℃、相対湿度15%の恒温恒湿器にて乾燥した。なお、所定の坪量となるようアクリル板上には堰止用の金枠(内寸が180mm×180mmの金枠)を配置した。以上の手順により、繊維層(セルロース繊維含有層)を得た。
溶媒溶解性を高めた特殊ポリカーボネート樹脂(三菱ガス化学社製、ユピゼータ2136)15質量部、トルエン57質量部、メチルエチルケトン28質量部を混合し、樹脂組成物を得た。次いで上記樹脂組成物に密着助剤としてイソシアネート化合物(旭化成ケミカルズ社製、デュラネートTPA-100)を2.25質量部添加して混合し、繊維層の一方の面に、バーコーターにて塗布した。さらに100℃で1時間加熱して硬化させ、樹脂層を形成した。次いで、繊維層の反対側の面にも同様の手順で樹脂層を形成した。上記の手順により、繊維層(セルロース繊維含有層)の両面に樹脂層が積層された積層体を得た。
実施例1において、樹脂組成物におけるイソシアネート化合物の添加量を3質量部とした以外は実施例1と同様にし、繊維層の両面に樹脂層が積層された積層体を得た。
実施例1において、樹脂層の積層の際、イソシアネート化合物の添加量を5.25質量部とした以外は実施例1と同様にし、繊維層の両面に樹脂層が積層された積層体を得た。
[樹脂層への密着助剤処理]
密着助剤として、有機ケイ素化合物(シランカップリング剤)であるメタクリロキシプロピルトリメトキシシラン(モメンティブ・パフォーマンス・マテリアルズ・ジャパン社製、SILQUEST A-174 SILANE)を、濃度が0.5質量%となるようにエタノールで希釈し、密着助剤希釈溶液を得た。次いで、樹脂層としてポリカーボネートフィルム(帝人社製、パンライトPC-2151:厚み300μm)を寸法210mm×297mmに切り出し、上記密着助剤希釈溶液に浸漬させた。次いで、ポリカーボネートフィルムを引き上げ、上端をダブルクリップで挟んで恒温乾燥機内に吊るし、100℃で15分間の加熱処理を行った。さらに、120℃で3時間の加熱処理を行った。上記の処理により、密着助剤を含有する樹脂層を得た。
繊維層の仕上がり坪量が50g/m2になるように、実施例1で得られた微細繊維状セルロース分散液(B)を計量して、上記表面処理樹脂層に塗工し、35℃、相対湿度15%の恒温恒湿器にて乾燥した。なお、所定の坪量となるよう樹脂層上には堰止用の金枠(内寸が180mm×180mmの金枠)を配置した。以上の手順により、繊維層の片面に樹脂層が積層された積層体を得た。
実施例4の樹脂層への密着助剤処理において、メタクリロキシプロピルトリメトキシシランの濃度が5.0%となるようにエタノールで希釈した以外は実施例4と同様にし、繊維層の片面に樹脂層が積層された積層体を得た。
実施例5の樹脂層への密着助剤処理において、メタクリロキシプロピルトリメトキシシランの代わりにメタクリロキシプロピルトリエトキシシラン(モメンティブ・パフォーマンス・マテリアルズ・ジャパン社製、SILQUEST Y-9936 SILANE)を使用した以外は実施例5と同様にし、繊維層の片面に樹脂層が積層された積層体を得た。
実施例5の樹脂層への密着助剤処理において、メタクリロキシプロピルトリメトキシシランの代わりに1,3-ビス(3-メタクリロキシプロピル)テトラメチルジシロキサン(モメンティブ・パフォーマンス・マテリアルズ・ジャパン社製、TSL9706)を用いた以外は実施例5と同様にし、繊維層の片面に樹脂層が積層された積層体を得た。
実施例1において、密着助剤としてのイソシアネート化合物を添加しなかった。その他の手順は実施例1と同様にし、繊維層の両面に樹脂層が積層された積層体を得た。
実施例4において、樹脂層への密着助剤処理を行わなかった。その他の手順は実施例1と同様にし、繊維層の片面に樹脂層が積層された積層体を得た。
実施例及び比較例で得た積層体を以下の方法にて評価した。
積層体の厚みを触針式厚さ計(マール社製、ミリトロン1202D)で測定した。
実施例1~3及び比較例1では、積層化を行う前の繊維層の厚みを触針式厚さ計(マール社製、ミリトロン1202D)で測定し、積層体中の繊維層の厚みとした。実施例4~7及び比較例2では、積層体の厚みから、後述する方法で測定した樹脂層の厚みを減じることで、積層体中の繊維層の厚みを算出した。
実施例1~3及び比較例1では、積層体の厚みから、上述する方法で測定した繊維層の厚みを減じることで、積層体中の樹脂層の厚みを算出した。実施例4~7及び比較例2では、積層化を行う前の表面処理樹脂層の厚みを触針式厚さ計(マール社製、ミリトロン1202D)で測定し、積層体中の樹脂層の厚みとした。
繊維層の坪量(50g/m2)を繊維層の厚みで除し、繊維層の密度とした。
実施例及び比較例で得た積層体を以下の方法にて評価した。
JIS K 5400に準拠し、実施例1~3及び比較例1の積層体では樹脂層に、実施例4~7及び較例2では繊維層に、1mm2のクロスカットを100個入れた。次いで、セロハンテープ(ニチバン社製)をその上に貼り付け、1.5kg/cm2の荷重で押し付けた後、90°方向にはく離した。はく離したマス数により、繊維層と樹脂層の密着性を評価した。
JIS K 7361に準拠し、ヘーズメータ(村上色彩技術研究所社製、HM-150)を用いて積層体の全光線透過率を評価した。
JIS K 7136に準拠し、ヘーズメータ(村上色彩技術研究所社製、HM-150)を用いて積層体のヘーズを評価した。
実施例4~7のいずれかで得られた積層体を用い、下記の手順で繊維層の両面に樹脂層が積層された多層積層体が得られる。
実施例4~7のいずれかで得られた積層体を2枚用意し、各々の繊維層に、バーコーターにて水を塗工する。次いで、2枚の積層体の繊維層面を貼り合わせ、一方の積層体の樹脂層側からゴムローラーを押し当てて加圧する。さらに、貼り合わせた積層体を恒温乾燥機にて100℃で1時間乾燥することで、繊維層の両面に樹脂層が積層された多層積層体が得られる。
実施例4~7のいずれかで得られた積層体を用い、下記の手順で繊維層の両面に樹脂層が積層された多層積層体が得られる。
実施例4~7のいずれかで得られた積層体を2枚用意し、各々の繊維層に、UV硬化型アクリル接着剤(アイカ工業社製、Z-587)をバーコーターにて塗工する。次いで、2枚の積層体の繊維層面を貼り合わせ、一方の積層体の樹脂層側からゴムローラーを押し当てて加圧する。さらに、貼り合わせた積層体の樹脂層側から、UVコンベア装置(アイグラフィックス社製、ECS-4011GX)を用いて500mJ/cm2の紫外線を3回照射して、UV硬化型アクリル接着剤を硬化することで、繊維層の両面に樹脂層が積層された多層積層体が得られる。
実施例4~7のいずれかで得られた積層体を用い、下記の手順で両面に樹脂層が積層された多層積層体が得られる。
まず、アクリロイル基がグラフト重合したアクリル樹脂(大成ファインケミカル社製、アクリット8KX-012C)100質量部と、ポリイソシアネート化合物(旭化成ケミカルズ社製、TPA-100)38質量部を混合して樹脂組成物を得る。次いで上記樹脂組成物を、積層体のセルロース繊維含有層に、バーコーターにて塗布する。さらに、100℃で1時間加熱して硬化させることで、繊維層の両面に樹脂層が積層された多層積層体が得られる。
実施例1~7のいずれかで得られた積層体又は実施例8~10のいずれかで得られた多層積層体に対し、原子層堆積装置(Picosun社製「SUNALE R-100B」)で、酸化アルミニウム成膜を行う。アルミニウム原料として、トリメチルアルミニウム(TMA)、TMAの酸化にはH2Oを用いる。チャンバー温度を150℃に設定し、TMAのパルス時間を0.1秒、パージ時間を4秒とし、H2Oのパルス時間を0.1秒、パージ時間を4秒とする。このサイクルを405サイクル繰り返すことで、積層体の両面に膜厚30nmの酸化アルミニウム膜が積層された無機膜積層体が得られる。
実施例1~6のいずれかで得られた積層体又は実施例7~9のいずれかで得られた多層積層体に対し、プラズマCVD装置(セルバック社製「ICP-CVDロールtoロール装置」)でシリコン酸窒化膜を成膜する。具体的には、キャリアフィルム(PETフィルム)の上面に、積層体又は多層積層体を両面テープで貼合して真空チャンバー内に設置する。真空チャンバー内の温度は50℃に設定し、流入ガスはシラン、アンモニア、酸素、窒素とする。プラズマ放電を発生させて45分間の成膜を行い、積層体の片面に膜厚500nmのシリコン酸窒化膜が積層された無機膜積層体を得る。さらに、反対側の面にも同様の手順で成膜を行うことで、積層体の両面に膜厚500nmのシリコン酸窒化膜が積層された無機膜積層体を得ることもできる。
6 樹脂層
10 積層体
20 密着助剤非含有樹脂層
22 密着助剤非含有樹脂層
24 密着助剤非含有樹脂層
Claims (10)
- 繊維幅が1000nm以下の繊維状セルロースを含む繊維層と、
前記繊維層の一方の面に接する樹脂層と、を少なくとも1層ずつ有し、
前記樹脂層は密着助剤を有する積層体。 - 前記樹脂層は、ポリカーボネート樹脂及びアクリル樹脂から選択される少なくとも一方を含む請求項1に記載の積層体。
- 前記密着助剤はイソシアネート化合物及び有機ケイ素化合物から選択される少なくとも1種である請求項1又は2に記載の積層体。
- 前記密着助剤は、前記樹脂層の繊維層側の領域に偏在している請求項1~3のいずれか1項に記載の積層体。
- 前記密着助剤はイソシアネート化合物であり、前記イソシアネート化合物の含有量は前記樹脂層に含まれる樹脂100質量部に対して10質量部以上40質量部以下である請求項1~4のいずれか1項に記載の積層体。
- 前記密着助剤はイソシアネート化合物であり、前記樹脂層に含まれるイソシアネート基の含有量は、0.5mmol/g以上3.0mmol/g以下である請求項1~5のいずれか1項に記載の積層体。
- 前記繊維層の密度は1.0g/cm3以上である請求項1~6のいずれか1項に記載の積層体。
- (a)繊維幅が1000nm以下の繊維状セルロースを含む繊維層を形成する工程の後に、密着助剤を含有する樹脂組成物を塗工する工程を含むか、もしくは、
(b)密着助剤を含有する樹脂層を形成する工程の後に、繊維幅が1000nm以下の繊維状セルロースを含む微細繊維状セルロース分散液を塗工する工程を含む、積層体の製造方法。 - 前記(a)工程を含み、前記密着助剤がイソシアネート化合物である請求項8に記載の積層体の製造方法。
- 前記(b)工程を含み、前記密着助剤が有機ケイ素化合物である請求項8に記載の積層体の製造方法。
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US11426763B2 (en) | 2022-08-30 |
JPWO2017126432A1 (ja) | 2018-11-08 |
JP7283606B2 (ja) | 2023-05-30 |
US20210207326A1 (en) | 2021-07-08 |
TW201736127A (zh) | 2017-10-16 |
JP7052356B2 (ja) | 2022-04-12 |
JP2022089858A (ja) | 2022-06-16 |
EP3406442A4 (en) | 2019-07-03 |
EP3406442A1 (en) | 2018-11-28 |
EP3406442B1 (en) | 2023-11-29 |
CN117698240A (zh) | 2024-03-15 |
CN108883619A (zh) | 2018-11-23 |
KR20180098636A (ko) | 2018-09-04 |
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