WO2014132630A1 - 人工皮革基材、銀付調人工皮革、人工皮革基材の製造方法、及び人工皮革基材用改質剤 - Google Patents
人工皮革基材、銀付調人工皮革、人工皮革基材の製造方法、及び人工皮革基材用改質剤 Download PDFInfo
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- WO2014132630A1 WO2014132630A1 PCT/JP2014/000991 JP2014000991W WO2014132630A1 WO 2014132630 A1 WO2014132630 A1 WO 2014132630A1 JP 2014000991 W JP2014000991 W JP 2014000991W WO 2014132630 A1 WO2014132630 A1 WO 2014132630A1
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- WIPO (PCT)
- Prior art keywords
- artificial leather
- filler
- mass
- base material
- elastic body
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- D06N3/00—Artificial leather, oilcloth or other material obtained by covering fibrous webs with macromolecular material, e.g. resins, rubber or derivatives thereof
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- D06N2211/28—Artificial leather
Definitions
- the present invention relates to an artificial leather having both flexibility and high fulfillment.
- artificial leather including non-woven fabric is known.
- Artificial leather is used as an alternative to natural leather in fields such as shoes, clothing, gloves, bags, balls, interiors, and vehicles.
- Artificial leather is produced by subjecting an artificial leather base obtained by impregnating a polymer elastic body to voids in a nonwoven fabric with a surface treatment for imparting a desired appearance.
- the polymer elastic body gives a sense of fulfillment to the nonwoven fabric.
- artificial leather for example, silver-added artificial leather with a silver-like appearance, suede-like or nubuck-like artificial leather with fluffed fibers on the surface of a nonwoven fabric, and the like are known.
- Natural leather has a high degree of fullness and flexibility because it contains dense collagen fibers.
- artificial leather is superior to natural leather in heat resistance, water resistance, quality stability and wear resistance, and is easy to care for.
- artificial leather since artificial leather has voids that are not filled with a polymer elastic body in the nonwoven fabric, it is inferior in density and fullness compared to natural leather. For this reason, when the artificial leather is bent, it is not rounded and bent like natural leather, but bends and bends so as to be called “boiled”. Such bending is not high-class. Further, when the voids are reduced by increasing the content of the polymer elastic body in the nonwoven fabric, the feeling of rebound is increased and a rubber-like rigid texture is obtained.
- Patent Document 1 In order to resemble the suppleness of natural leather, artificial leather using a non-woven fabric formed from ultrafine fibers is also known (for example, Patent Document 1 below).
- Patent Document 2 discloses a leather sheet-like material including an oily substance having a viscosity of 50 to 10,000 mPa ⁇ s at 30 ° C. and a support such as an olefinic elastomer at least inside a fibrous base material.
- Patent Document 2 discloses that such a leather sheet-like material has both natural leather-like flexibility (flexibility) and a sense of fulfillment, and less oil transfer.
- Patent Document 3 is a wiping sheet in which an agent having a dust absorption performance is held in an acrylic wet nonwoven fabric in an amount of 1 to 30% by weight of the nonwoven fabric.
- synthetic oils such as liquid paraffin, mineral oil, silicone oil, alkylbenzene oil, and the like as chemicals.
- the present invention provides an artificial leather that is both supple and highly fulfilling.
- One aspect of the present invention is an artificial leather base material including a fiber entangled body, and a first filler and liquid nonvolatile oil impregnated in the fiber entangled body.
- Another aspect of the present invention is a silver-tone artificial leather having a resin layer laminated on the artificial leather base material.
- Another aspect of the present invention is a method for producing an artificial leather base material, comprising: a fiber entangled body, and a first filler and a liquid non-volatile oil impregnated in the fiber entangled body.
- a step of preparing an artificial leather base material and a smoothing layer having a thickness of 10 to 100 ⁇ m is formed by coating the surface of the artificial leather base material with a coating solution for forming a smoothing layer and then drying the coating solution.
- the smoothing layer forming coating solution contains the second polymer elastic body and the second filler as solids, and uses a B-type rotational viscometer at a temperature of 25 ° C.
- the thixotropy index which is the ratio ( ⁇ 0.6 / ⁇ 3.0 ) of the viscosity ⁇ 0.6 when measured at a rotation speed of 0.6 rotations / second and the viscosity ⁇ 3.0 when measured at a rotation speed of 3 rotations / second is 2 to 4 This is a method for producing an artificial leather base material.
- Another aspect of the present invention includes, as a nonvolatile component, 3 to 90% by mass of a liquid nonvolatile oil and 10 to 97% by mass of at least one first filler selected from an inorganic filler and an organic filler. It is a modifier for artificial leather substrates.
- an artificial leather having both flexibility and high sense of fulfillment can be obtained.
- FIG. 1 is a schematic cross-sectional view of a silver-tone artificial leather 10 according to an embodiment of the present invention.
- FIG. 2 is a schematic cross-sectional view of a silver-tone artificial leather 20 according to another embodiment of the present invention.
- FIG. 3 shows a cross section of the fiber entangled body before impregnation with the first filler, the non-volatile oil, and the first polymer elastic body in Example 6 observed with a scanning electron microscope (SEM). It is a cross-sectional photograph.
- FIG. 4 is a cross-sectional photograph of the cross section of the artificial leather base material obtained by impregnating the first filler, the non-volatile oil, and the first polymer elastic body in Example 6 with an SEM. is there.
- FIG. 1 is a schematic cross-sectional view of a silver-tone artificial leather 10 according to an embodiment of the present invention.
- FIG. 2 is a schematic cross-sectional view of a silver-tone artificial leather 20 according to another embodiment of the present invention.
- FIG. 5 is a cross-sectional photograph of a cross-section of a silver-tone artificial leather substrate in Example 6 observed with an SEM.
- FIG. 6 is an SEM photograph of an oblique cross section before forming the smoothing layer of the artificial leather base material obtained in Example 13.
- FIG. 7 is an SEM photograph of an oblique section after the smoothing layer of the artificial leather base material obtained in Example 13 is formed.
- FIG. 8 is an SEM cross-sectional photograph of an oblique cross-section of the silver-tone artificial leather base material obtained in Example 13.
- FIG. 9 is an SEM photograph of an oblique section after the smoothing layer of the artificial leather base material obtained in Example 22 is formed.
- FIG. 10 is an SEM cross-sectional photograph of an oblique cross-section of the silver-tone artificial leather base material obtained in Example 22.
- FIG. 1 is a schematic cross-sectional view of a silver-tone artificial leather 10 according to an embodiment of the present invention.
- the silver-added artificial leather 10 includes an artificial leather substrate 1 including a fiber entangled body, and a resin silver surface layer 2 including a polymer elastic body formed on the surface of the artificial leather substrate 1.
- the artificial leather substrate 1 includes a fiber entangled body 1a, and in the gaps between the fibers of the fiber entangled body 1a, as shown in the enlarged view in FIG. 1, a liquid non-volatile oil 3 and a first filler 4 are provided.
- the 1st polymeric elastic body 5 contained as needed is impregnated.
- the liquid nonvolatile oil, the first filler, and the first polymer elastic body are collectively referred to as a modifier.
- the fiber entangled body is not particularly limited as long as it is a fiber structure such as nonwoven fabric, woven fabric, woven fabric, or knitted fabric.
- nonwoven fabrics particularly nonwoven fabrics of ultrafine fibers are preferable. Since the nonwoven fabric of ultrafine fibers has a dense fiber density, the density unevenness of the fibers is low and the homogeneity is high. For this reason, artificial leather that is particularly excellent in flexibility and high fulfillment can be obtained.
- a non-woven fabric of ultrafine fibers is used as the fiber entanglement will be described in detail as a representative example.
- the ultrafine fiber non-woven fabric can be obtained, for example, by entanglement treatment of ultrafine fiber generation type fiber such as sea-island type (matrix-domain type) composite fiber, and processing for ultrafine fiber.
- ultrafine fiber generation type fiber such as sea-island type (matrix-domain type) composite fiber
- processing for ultrafine fiber in this embodiment, the case where the sea-island type composite fiber is used will be described in detail.
- an ultrafine fiber-generating fiber other than the sea-island type composite fiber it is possible to directly Ultra fine fibers may be spun.
- a plurality of ultrafine fibers are formed by lightly bonding immediately after spinning, and a plurality of ultrafine fibers are formed by unraveling by mechanical operation.
- the island of the sea-island type composite fiber that is the resin component that forms the sea component (matrix component) of the sea-island type composite fiber that can be selectively removed and the resin component that forms the ultrafine fiber are first introduced.
- a sea-island type composite fiber is obtained by melt spinning and stretching a thermoplastic resin constituting the component (domain component).
- thermoplastic resin for the sea component a thermoplastic resin that is different from the island component resin in solubility in a solvent or decomposability in a decomposing agent is selected.
- thermoplastic resin constituting the sea component include, for example, a water-soluble polyvinyl alcohol resin, polyethylene, polypropylene, polystyrene, ethylene propylene resin, ethylene vinyl acetate resin, styrene ethylene resin, styrene acrylic resin, and the like.
- the thermoplastic resin which is a resin component that forms island components and forms ultrafine fibers, is not particularly limited as long as it is a resin that can form sea-island composite fibers and ultrafine fibers.
- PET polyethylene terephthalate
- isophthalic acid modified PET isophthalic acid modified PET
- sulfoisophthalic acid modified PET polybutylene terephthalate
- polyamides such as polyamide 6, polyamide 66, polyamide 10, polyamide 11, polyamide 12, polyamide 6-12
- polypropylene, polyethylene, polybutene Polyolefins such as polymethylpentene and chlorinated polyolefin. These may be used alone or in combination of two or more.
- a sea-island composite fiber is melt-spun to produce a web, the web is entangled, and then sea components are selectively removed from the sea-island composite fiber.
- the method of forming is mentioned.
- a method for producing a web a long-fiber sea-island composite fiber spun by a spunbond method or the like is collected on a net without being cut to form a long-fiber web, or a long fiber is cut into staples. And a method of forming a short fiber web.
- a long fiber web is particularly preferable because it is excellent in denseness and fullness.
- the formed web may be subjected to a fusion treatment in order to impart shape stability.
- a long fiber means a continuous fiber that is not a short fiber intentionally cut after spinning. More specifically, for example, it means a fiber that is not a short fiber intentionally cut so that the fiber length is about 3 to 80 mm. It is preferable that the fiber length of the sea-island type composite fiber before the ultrafine fiber formation is 100 mm or more, and it can be technically manufactured and unavoidably cut in the manufacturing process. The fiber length may be km or more. In addition, a part of long fiber may be inevitably cut
- Sea island type composite fiber is densified by performing fiber shrinkage treatment such as entanglement treatment and heat shrink treatment with water vapor in any process from removing sea components of sea island type composite fiber to forming ultra fine fiber can do.
- fiber shrinkage treatment such as entanglement treatment and heat shrink treatment with water vapor in any process from removing sea components of sea island type composite fiber to forming ultra fine fiber can do.
- the entanglement treatment include a method of stacking about 5 to 100 webs and performing needle punching or high-pressure water flow treatment.
- the sea component of the sea-island type composite fiber is dissolved or decomposed and removed at an appropriate stage after the web is formed.
- the sea-island type composite fibers are made into ultrafine fibers, and fiber bundle-like ultrafine fibers are formed.
- the fineness of the ultrafine fiber is not particularly limited, but is preferably 0.001 to 0.9 dtex, more preferably 0.01 to 0.6 dtex, and particularly preferably 0.02 to 0.5 dtex.
- the fineness is too high, there is a tendency that a non-woven fabric with insufficient density is obtained. Moreover, it is difficult to produce a fiber having a fineness that is too low. Moreover, there exists a tendency for fibers to converge and the rigidity of a nonwoven fabric to become high.
- the ultrafine fiber nonwoven fabric thus obtained is subjected to thickness adjustment and planarization as necessary. Specifically, slice processing and buffing processing are performed. In this way, a non-woven fabric of ultrafine fibers that is a fiber entangled body is obtained.
- the thickness of the fiber entangled body is not particularly limited, but is preferably about 100 to 3000 ⁇ m, more preferably about 300 to 2000 ⁇ m.
- the apparent density of the fiber entanglement is not particularly limited, but is 0.25 to 0.70 g / cm 3 , further 0.45 to 0.65 g / cm 3 , particularly 0.55 to 0.60 g / cm 3 . 3, it is preferable from the viewpoint of artificial leather substrate having both fulfillment and a supple texture is obtained of the order.
- a dispersion containing a non-volatile oil and a first filler is prepared.
- liquid non-volatile oil and the first filler are homogeneously mixed and dispersed in a dispersion medium such as water or a mixture of water and a polar solvent such as alcohol.
- the liquid non-volatile oil in this embodiment is a liquid having a boiling point of 150 ° C. or higher and substantially not dissolved in a polar solvent.
- Specific examples include liquid paraffin, paraffinic or naphthenic process oil, mineral oil, silicone oil, and phthalates. These may be used alone or in combination of two or more. Among these, liquid paraffin is preferable because it is excellent in chemical stability and hardly oxidized.
- examples of the first filler in the present embodiment include inorganic fillers and organic fillers.
- inorganic fillers and organic fillers include various fillers made of metals, metal oxides, inorganic compounds, organic compounds, and the like having an average particle size of 0.1 to 15 ⁇ m, and an average particle size of about 0.5 to 10 ⁇ m. Used without limitation. Specific examples thereof include alumina (Al 2 O 3 ), titanium dioxide (TiO 2 ), zinc oxide (ZnO), cerium dioxide (CeO 2 ), silica (SiO 2 ), and other metal oxides or semi-metal oxides.
- Filler Filler of inorganic compounds such as talc, clay, aluminum hydroxide, mica, calcium carbonate, caged polysilsesquioxane (POSS); Flame retardant such as ammonium polyphosphate, aluminum dialkylphosphinate, polymelamine phosphate
- Carbonaceous filler with carbon nanotube (CNT), carbon fiber (CF), carbon black (CB), graphite (GF), acetylene black (AB), etc. are mentioned. These may be used alone or in combination of two or more. In these, various flame-retardant fillers are especially preferable from the point which can provide a flame retardance simultaneously.
- first filler and liquid nonvolatile oil it is preferable to impregnate the voids of the fiber entangled body with the first polymer elastic body.
- a dispersion liquid containing non-volatile oil, a first filler, and a first polymer elastic body is used.
- the first polymer elastic body include, for example, polyurethane, acrylic elastic body, silicone elastic body, diene elastic body, nitrile elastic body, fluorine elastic body, polystyrene elastic body, and polyolefin elastic body. Body, polyamide elastic body, halogen elastic body and the like. These may be used alone or in combination of two or more. Among these, polyurethane is preferable from the viewpoint of excellent wear resistance and mechanical properties.
- water-based polyurethanes such as polycarbonate-based polyurethane, polyester-based polyurethane, polyether-based polyurethane, and polycarbonate / ether-based polyurethane emulsion are preferable.
- polyurethanes are particularly preferable because the dispersion is easily prepared, a crosslinked structure is easily formed, and a soft texture is easily exhibited by being present in the voids without being too close to the fibers.
- components such as a surfactant, a dispersant, and a colorant may be added to the dispersion as necessary within the range not impairing the effects of the present invention.
- the concentration of each component in the dispersion is appropriately adjusted in consideration of the target characteristics and the viscosity and stability of the dispersion.
- the proportion of the non-volatile oil in the dispersion is, for example, preferably 1 to 50% by mass, and more preferably 3 to 30% by mass.
- the total ratio of the filler and the polymer elastic body in the dispersion is, for example, preferably 5 to 99% by mass, more preferably about 7 to 80% by mass.
- the method for impregnating the fiber entangled body with the dispersion is not particularly limited. Specifically, for example, a method of impregnating the fiber entangled body by dip-niping the dispersion is preferably used.
- the viscosity of the dispersion is not particularly limited as long as it is a viscosity capable of impregnating the fiber entangled body with a desired amount. Specifically, for example, the solution viscosity is preferably 10 to 1000 mPa ⁇ s (millipascal second) as measured by a rotary viscometer, and more preferably about 50 to 500 mPa ⁇ s.
- the fiber entangled body is impregnated with the dispersion, and then dried to remove volatile components such as the dispersion medium in the dispersion.
- the 1st filler in a dispersion liquid, non-volatile oil, etc. remain in the space between the fibers of a fiber entanglement body.
- the drying conditions are not particularly limited, and examples include conditions such as drying at 70 to 150 ° C. for about 1 to 10 minutes.
- a 1st filler, a non-volatile oil, etc. are provided to the space
- the ratio of the nonvolatile oil to the fiber entangled body is preferably 0.5 to 10% by mass, more preferably 1 to 10% by mass, and particularly preferably 3 to 8% by mass.
- the ratio of the non-volatile oil to the fiber entangled body is less than 0.5% by mass, it is difficult to sufficiently obtain a supple texture.
- the ratio of the non-volatile oil with respect to a fiber entanglement body is too high, a fiber entanglement body cannot hold
- the ratio of the first filler to the fiber entangled body is not particularly limited, but is 1 to 60% by mass, preferably 10 to 50% by mass, and more preferably 10 to 40% by mass.
- the ratio of the 1st filler with respect to a fiber entanglement body is too low, there exists a tendency for a feeling of fulfillment to fall.
- the ratio of the 1st filler with respect to a fiber entangled body is too high, there exists a tendency for a supple texture to fall.
- the ratio of the first polymer elastic body to the fiber entangled body is preferably 0 to 15% by mass, more preferably 1 to 14% by mass, and particularly preferably 1 to 10% by mass.
- the ratio of the 1st polymer elastic body with respect to a fiber entanglement body is too high, there exists a tendency for a soft feeling to fall because a rubber feeling becomes strong and resilience becomes high.
- the first polymer elastic body is not an essential component, it can increase the form stability and adjust the elasticity by blending.
- the ratio of the nonvolatile oil in the modifier including the first filler, the nonvolatile oil, and the first polymer elastic body is not particularly limited, but is 1 to 90% by mass, more preferably 3 to 70.
- the mass%, particularly 10 to 50 mass%, particularly 20 to 35 mass% is preferable from the viewpoint of obtaining a supple texture and a sense of fulfillment.
- the proportion of the non-volatile oil in the modifier is too low, the supple texture tends to decrease, and when it is too high, the proportion of the filler becomes relatively low, and the sense of fulfillment tends to decrease. There is.
- the ratio of the first filler in the modifier is preferably 10 to 99% by mass, more preferably 30 to 97% by mass, and particularly preferably 50 to 90% by mass.
- the ratio of the first filler is too low, the sense of fulfillment tends to decrease, and when it is too high, the ratio of the non-volatile oil tends to be relatively low, and the supple texture tends to decrease.
- the proportion of the first polymer elastic body in the modifier is preferably 0 to 40% by mass, more preferably 1 to 20% by mass. When the ratio of the first polymer elastic body is too high, it tends to have a rubber-like texture.
- the ratio of the modifier to the fiber entangled body is not particularly limited, but is preferably 1 to 60% by mass, preferably 3 to 45% by mass, particularly 10 to 40% by mass, and more preferably 10 to 30% by mass. .
- the ratio of the modifier to the fiber entanglement is too high, it tends to be difficult to sufficiently impregnate the voids.
- an artificial leather base material in which the gaps between the fibers of the fiber entangled body are impregnated with the first filler, the non-volatile oil, and, if necessary, a modifier containing the first polymer elastic body. It is done.
- Such artificial leather base materials are subjected to thickness adjustment and flattening treatment by slicing or buffing treatment as necessary, stagnation softening treatment, blanking softening treatment, reverse seal brushing treatment, antifouling treatment Finishing treatment such as treatment, hydrophilization treatment, lubricant treatment, softener treatment, antioxidant treatment, ultraviolet absorber treatment, fluorescent agent treatment, flame retardant treatment and the like may be performed.
- Artificial leather base impregnated with a first filler, non-volatile oil and, if necessary, a modifier containing a first polymer elastic body for the purpose of adjusting the sense of fulfillment and flexibility of the artificial leather base material It is preferable to soften the material.
- the method of softening is not particularly limited, but there is a method in which an artificial leather base material is brought into close contact with an elastic sheet and mechanically contracted in the vertical direction (MD of the production line), and heat-set by heat treatment in the contracted state. preferable. By adopting this method, it is possible to make it flexible while improving the smoothness of the surface.
- the thickness of the artificial leather substrate thus obtained is not particularly limited, but is preferably about 100 to 3000 ⁇ m, more preferably about 300 to 2000 ⁇ m.
- the apparent density of the artificial leather base material is not particularly limited, but it is 0.55 to 0.85 g / cm 3 , and further 0.60 to 0.80 g / cm 3, with a sense of fulfillment and a supple texture. From the viewpoint of excellent balance.
- the artificial leather substrate thus obtained is finished into artificial leather by applying a treatment to give a desired appearance.
- Artificial leather includes, for example, silver-tone artificial leather in which a surface of the artificial leather base is provided with a silver-tone resin layer, or fluffing by raising the fibers by buffing the surface of the artificial leather base. Examples include raised artificial leather (suede, nubuck, velor, buckskin) that has a raised appearance.
- Silver-tone artificial leather is obtained by forming a silver-tone resin layer on the surface of an artificial leather substrate.
- the method for forming a silver-tone resin layer on the surface of the artificial leather substrate is not particularly limited, and for example, a dry surface forming method or a direct coating method is used.
- a coating liquid containing a colored resin for forming a silver surface layer is applied on a release sheet, and then a film is formed by drying, and the film is adhered to the surface of the artificial leather substrate. This is a method of peeling the release sheet after pasting together.
- the direct coating method is a method in which a coating liquid containing a resin is applied directly to the surface of an artificial leather substrate by a roll coater or a spray coater and then dried.
- the silver surface layer is formed by a dry surface forming method in which a pre-formed film is laminated on an artificial leather base material through a semi-cured adhesive layer and bonded by hot pressing.
- the silver surface layer formed by the dry-type surface is relatively thick, and the forming process is complicated.
- the direct coating method has an advantage that the formation process is simple because the silver surface layer can be formed by coating.
- the artificial leather substrate becomes hard because the coating solution penetrates too much from the voids on the surface of the artificial leather substrate, and the supple texture is impaired. There was a problem.
- the artificial leather base material of the present embodiment is excellent in a sense of fulfillment as described above and has a smooth surface, extremely high smoothness can be imparted to the surface by the following method.
- a coating liquid is applied to the surface of the artificial leather base material using the direct coating method, it becomes difficult to penetrate inside.
- the formed resin layer does not sink deeply into the artificial leather base material, a supple texture can be maintained.
- the surface layer of the artificial leather substrate 1 includes a second polymer elastic body and a second filler in order to smooth the surface.
- the method of forming the layer 6 is mentioned.
- the silver surface layer 12 is formed on the surface of the smoothing layer 6. A method for forming such a smoothing layer will be described below.
- a smoothing layer is formed by applying a coating solution having a thixotropy index of 2 to 4 containing the second polymer elastic body and the second filler on the surface of the artificial leather base material, followed by drying.
- a coating solution has a thixotropy index of 2 to 4, so that it has a low viscosity when coating is applied and has a high viscosity after coating without applying the share.
- a thin smoothing layer can be easily formed in the surface of an artificial leather base material.
- the coating liquid used for forming the smoothing layer is not particularly limited as long as it is a coating liquid having a thixotropic index of 2 to 4 including the second polymer elastic body and the second filler.
- the “thixotropic index” is measured at a viscosity of ⁇ 0.6 and a rotational speed of 3 revolutions / second when measured at a rotational speed of 0.6 revolutions / second using a B-type rotational viscometer at a temperature of 25 ° C. It means the ratio ( ⁇ 0.6 / ⁇ 3.0 ) to the viscosity ⁇ 3.0 when measured.
- the coating liquid used for forming the smoothing layer contains a second polymer elastic body and a second filler.
- a mixed liquid in which a second filler is mixed with a resin liquid such as an emulsion, suspension, or dispersion of the second polymer elastic body is preferably used.
- the second polymer elastic body are the same as the first polymer elastic body described above, for example, polyurethane, acrylic elastic body, silicone elastic body, diene elastic body, nitrile elastic body, Examples thereof include a fluorine-based elastic body, a polystyrene-based elastic body, a polyolefin-based elastic body, a polyamide-based elastic body, and a halogen-based elastic body.
- concentration of the second polymer elastic body in the resin liquid is not particularly limited. For example, in the case of an emulsion, it is 10 to 50% by mass, further 20 to 40% by mass, and particularly 25 to 35% by mass. preferable.
- the second filler is a component that imparts thixotropy to the coating liquid and also seals the voids on the surface of the artificial leather substrate.
- Specific examples of the second filler include solid particles that are the same filler as the first filler described above, and hollow particles such as plastic beads. Among these, clay, aluminum hydroxide, calcium carbonate, hollow particles and the like are particularly preferable from the viewpoint that the thixotropy index can be easily adjusted.
- the particle size of the solid particles is preferably 0.5 to 15 ⁇ m from the viewpoint of easy adjustment of the thixotropy index.
- the particle diameter of the hollow particles is preferably 10 to 80 ⁇ m from the viewpoint of easy adjustment of the thixotropy index.
- the blending amount of the second filler is preferably 1 to 50% by mass, more preferably 5 to 50% by mass, especially 10 to 30% by mass in the solid content of the coating liquid. .
- the amount of the second filler in the case of hollow particles is 5 to 70%, more preferably 10 to 50% of the volume of the solid content of the coating liquid. It is preferable to do.
- the coating liquid used for forming the smoothing layer may contain a thickener for adjusting the thixotropy index and viscosity as necessary.
- the thickener include polyacrylic acid ammonium and polyacrylic acid.
- the blending amount of the thickener is preferably 0.5 to 5 parts by mass with respect to 100 parts by mass of the solid content of the second polymer elastic body.
- it may contain a dispersant for improving the stability of the coating liquid, a crosslinking agent for crosslinking the polymer elastic body, and a coloring agent such as a pigment.
- Specific examples of the dispersant include low molecular weight sodium polycarboxylate and sodium tripolyphosphate.
- the amount of the dispersing agent is preferably 0.2 to 2 parts by mass with respect to 100 parts by mass of the solid content of the second polymer elastic body.
- the coating liquid is prepared by adding the second filler and other additives such as a thickener blended as needed to the resin liquid of the second polymer elastic body, and stirring and mixing. .
- the viscosity of the coating liquid thus prepared is 100 to 600 Pa as a viscosity ⁇ 0.6 measured at a rotation speed of 0.6 rotations / second using a B-type rotational viscometer at a temperature of 25 ° C. S (Pascal second), more preferably 150 to 350 Pa ⁇ s.
- it is such a viscosity, it is excellent in the coating property of a coating liquid, and it becomes difficult for a coating liquid to sink inside from the space
- the ratio of the solid content in the coating liquid is not particularly limited, but is preferably in the range of about 40 to 60% by mass from the viewpoint of excellent thixotropy, moderate thickening after coating, and excellent drying properties. .
- a smoothing layer is formed by applying such a coating liquid on the surface of the artificial leather base material and drying it.
- a coating method various coating methods such as a reverse coater and a doctor knife coater are used without particular limitation.
- the coating liquid receives a share at the time of coating and lowers the viscosity. After the coating, the viscosity increases, so that the coating liquid hardly sinks into the interior from the voids on the surface of the artificial leather base material.
- the smoothed layer is formed by drying the applied coating liquid.
- the average thickness of the smoothing layer thus formed is preferably 10 to 100 ⁇ m, more preferably 20 to 70 ⁇ m.
- the proportion of the second filler in the smoothing layer is preferably 1 to 50% by mass, more preferably 5 to 50% by mass, and particularly preferably 10 to 30% by mass.
- the artificial leather substrate on which the smoothing layer is formed is preferably smoothed by filling most of the voids on the surface. In such a case, even if a resin liquid for imparting a silver-like appearance is applied to the surface of the smoothing layer, the resin liquid does not easily penetrate into the artificial leather base material. By using an artificial leather base material on which such a smoothing layer is formed, a silver-tone artificial leather that does not lose the flexibility of the artificial leather base material can be produced.
- the surface of the artificial leather substrate on which such a smoothing layer is formed has, for example, a surface water absorption rate of 100 seconds or more, 150 seconds or more, particularly 180 seconds in accordance with the dropping method of JIS L1907-7.1.1. The above is preferable.
- the surface water absorption speed is less than 100 seconds, since the voids remain, the resin liquid tends to easily penetrate into the inside.
- the method of densifying the surface by hot-pressing the surface of the artificial leather base material of this embodiment is mentioned.
- the modifier is contained so as to be 10% by mass or more with respect to the fiber entanglement
- the surface voids are filled with the modifier and the surface voids are reduced.
- the resin liquid is suppressed from sinking inside the artificial leather base material. Therefore, by using an artificial leather substrate having a hot-pressed surface, it is possible to produce a silver-tone artificial leather without losing flexibility.
- a coating liquid for forming a resin layer is applied to the surface of the formed smoothing layer, and then a resin layer having a silver surface is formed by a direct coating method of drying.
- the coating liquid for forming the resin layer is applied to the surface of the smoothing layer by a method such as spray coating or reverse coating. Among these, spray coating is preferable because a small amount of resin can be uniformly applied.
- the resin component for forming a silver-tone resin layer by the direct coating method examples include polyurethane, acrylic elastic body, silicone elastic body, diene elastic body, nitrile elastic body, fluorine elastic body, and polystyrene.
- resin emulsions such as emulsions, suspensions, dispersions, and solutions of elastomers such as elastomers, polyolefins, polyamides, and halogens. These may be used alone or in combination of two or more. Of these, polyurethane emulsions are preferred because of their excellent wear resistance and mechanical properties.
- the resin component for forming the silver layer may contain a colorant, an ultraviolet absorber, a surfactant, a flame retardant, an antioxidant, and the like, if necessary.
- the thickness of the silver-tone resin layer is preferably 10 to 1000 ⁇ m, more preferably 50 to 300 ⁇ m.
- the resin layer may have a laminated structure in which a plurality of layers such as a base coat layer, a colored layer, and a top clear layer are appropriately laminated.
- the resin layer has a wrinkle pattern formed by embossing or the like.
- the embossing includes a method of completely curing the silver surface layer after transferring the texture pattern in a state where the silver surface layer is uncured.
- the silver-tone artificial leather according to the present embodiment has both flexibility as natural leather and high sense of fulfillment. Specifically, for example, it is preferable that the bending resistance measured by a soft tester is 1.5 mm or more, preferably 1.8 to 2.5 mm.
- the apparent density is preferably 0.55 to 0.85 g / cm 3 , more preferably 0.60 to 0.80 g / cm 3 .
- brushed artificial leather (suede, nubuck, velor, buckskin) can be obtained by buffing the surface layer of the artificial leather base material with sandpaper or the like and raising or raising the surface.
- PVA thermoplastic polyvinyl alcohol
- the discharged melted fiber was drawn by a suction device so that the average spinning speed was 3700 m / min, and a long fiber of a sea-island type composite fiber having a fineness of 2.1 dtex was spun.
- the spun long islands of sea-island type composite fibers were continuously deposited on a movable net, and lightly pressed with a metal roll at 42 ° C. to suppress surface fuzz.
- the long fiber of the sea-island type composite fiber was peeled off from the net, and passed between a lattice-shaped metal roll having a surface temperature of 55 ° C and a back roll. In this way, a long fiber web having a basis weight of 31 g / m 2 was obtained by hot pressing at a linear pressure of 200 N / mm.
- the web was overlapped on 8 layers by using a cross wrapping apparatus so that the total basis weight was 250 g / m 2 , a superposed web was prepared, and a needle breakage preventing oil was further sprayed.
- a 6 barb needle with a distance of 3.2 mm from the tip of the needle to the first barb
- needle punching was alternately performed at 3300 punch / cm 2 from both sides at a needle depth of 8.3 mm.
- the area shrinkage rate by the needle punching process was 68%, and the basis weight of the entangled web after the needle punching was 550 g / m 2 .
- the entangled web was immersed in hot water at 70 ° C. for 14 seconds at a winding line speed of 10 m / min to cause area shrinkage.
- a fiber bundle having a fineness of 2.5 dtex containing 25 ultrafine fibers having a fineness of 0.1 dtex was entangled three-dimensionally.
- a nonwoven fabric was prepared. The area shrinkage percentage measured after drying was 52%.
- the nonwoven fabric was sliced and buffed to adjust the thickness to 1.05 mm.
- the nonwoven fabric of ultrafine fibers which is the fiber entangled body thus obtained, had a basis weight of 576 g / m 2 and an apparent density of 0.565 g / cm 3 .
- a modifier was prepared by dispersing the components of a modifier composed of a flame retardant filler 38% owf, liquid paraffin 3.75% owf, and aqueous polyurethane 5% owf in water. Then, after impregnating the dispersion into the non-woven fabric of ultrafine fibers at a pickup rate of 80%, the modifier was homogeneously impregnated by drying the moisture. Then, using a shrink processing device (manufactured by Komatsubara Iron Works Co., Ltd., Sun Forging Machine), a nonwoven fabric made of impregnated ultrafine fibers impregnated with a modifier is used.
- a shrink processing device manufactured by Komatsubara Iron Works Co., Ltd., Sun Forging Machine
- the artificial leather base material was obtained by shrinking by 5.5% in the vertical direction (length direction) by treating at 10 ° C. and a conveyance speed of 10 m / min.
- the obtained artificial leather base material had a basis weight of 676 g / m 2 and an apparent density of 0.633 g / cm 3 .
- the flame retardant filler As the flame retardant filler, a dispersion of aluminum dialkylphosphinate having an average particle diameter of 5 ⁇ m (solid content: 40%) was blended. Further, as the water-based polyurethane, the soft segment is a 70:30 mixture of polyhexylene carbonate diol and polymethylpentanediol, and the hard segment is a crosslinked type polyurethane mainly composed of hydrogenated methylene diisocyanate (solid content 30% by mass, An emulsion having a melting point of 180 to 190 ° C., a loss elastic modulus peak temperature of ⁇ 15 ° C., and a hot water swelling ratio at 130 ° C. of 35% was used.
- a base coat layer having a thickness of 28 ⁇ m was formed on the surface of the artificial leather base material by roll-coating the base coat solution at a coating amount of 140 g / m 2 using STARPLUS manufactured by Gemata.
- a polyurethane emulsion (DIC Co., Ltd., LCC binder UB1770 solid content 30% by mass) adjusted with a thickener so that the viscosity of Ford Cup No. 4 55S was 195 mPa ⁇ s was used. .
- a color coat layer having a film thickness of 14 ⁇ m was formed by spray coating the surface of the formed base coat layer with a color coat solution at a coating amount of 70 g / m 2 using STARPLUS manufactured by Gemata.
- a color coat solution a polyurethane emulsion (DIC Co., Ltd., LCC binder UB1770 solid content 30%) adjusted with an Iwata cup (IWATA NK-2 12s) to 30 mPa ⁇ s was used. Further, the blanking process was performed at 40 to 50 ° C. for 2 to 4 hours. Then, the surface layer was embossed using an embossing roll at 125 ° C.
- a top coat paint (clear paint made by Tope Co., Ltd.) adjusted to 30 mPa ⁇ s with an Iwata cup (IWATA NK-2 12s) was applied to the surface to form a top coat with a film thickness of 13.5 ⁇ m.
- a silver-tone artificial leather having a basis weight of 777 g / m 2 and an apparent density of 0.762 g / cm 3 was obtained.
- Bending softness was measured using a softness tester (leather softness measuring device ST300: manufactured by MSA Engineering System, UK). Specifically, a predetermined ring having a diameter of 25 mm was set in the lower holder of the apparatus, and then a silver-tone artificial leather was set in the lower holder. And the metal pin (diameter 5 mm) fixed to the upper lever was pushed down toward the silver-finished artificial leather. And the numerical value when the upper lever was pushed down and the upper lever was locked was read. The numerical value represents the penetration depth, and the larger the numerical value, the more flexible.
- a sample was prepared by cutting out the artificial leather with silver into 20 ⁇ 20 cm. Then, the appearance when bent inward from the center and the appearance when gripped were determined according to the following criteria. A: When it was bent, it was bent like a round, and fine and fine creases were generated. It was also excellent in drape. B: When bent, it bent and bent, and rough wrinkles and deep wrinkles were generated. Moreover, it was inferior to the drape property. C: The texture was remarkably low.
- the thickness (mm) and the basis weight (g / cm 2 ) were measured according to JIS L1913, and the apparent density (g / cm 3 ) was calculated from these values.
- Examples 2 to 11 Except for impregnating and imparting the modifier prepared by changing the composition of the dispersion for the modifier prepared in Example 1 to the composition and amount as shown in Table 1, the nonwoven fabric of ultrafine fibers, In the same manner as in Example 1, a silver-tone artificial leather was obtained and evaluated. The results are shown in Table 1.
- 3 is a cross-sectional photograph of the non-woven fabric of ultrafine fibers obtained in Example 6 observed with a scanning electron microscope (SEM), and FIG. 4 is an artificial leather base obtained by impregnating with a modifier. The cross-sectional photograph of SEM of material is shown. Moreover, the cross-sectional photograph of SEM of the silver-tone artificial leather base material obtained in Example 6 is shown in FIG.
- Example 12 In the composition of the dispersion for the modifier prepared in Example 6, the same procedure as in Example 1 was conducted except that alumina (Al 2 O 3 ) particles were blended instead of blending aluminum dialkylphosphinate as the particulate filler. A silver-tone artificial leather was obtained and evaluated. The results are shown in Table 1.
- Example 1 In Example 1, instead of impregnating the fine fiber non-woven fabric with the modifier dispersion, it was used in Example 1 so that the solid content was 12.5% by mass with respect to the ultra-fine fiber non-woven fabric. A silver-tone artificial leather was obtained and evaluated in the same manner except that it was impregnated with the same aqueous polyurethane dispersion and dried at 120 ° C. The results are shown in Table 1.
- Example 2 a silver-finished artificial leather was obtained and evaluated in the same manner as in Example 1 except that the step of impregnating with the modifier was omitted. The results are shown in Table 1.
- All of the artificial leather base materials obtained in Examples 1 to 12 according to the present invention have an apparent density of 0.6 g / cm 3 or more, and the softness of the silver-tone artificial leather is 1.8 mm or more.
- an artificial leather having a sense of fullness and flexibility was obtained.
- the artificial leather obtained in Comparative Example 1 which is a conventional representative artificial leather, imparting a sense of fulfillment to the nonwoven fabric by applying a polymer elastic body, has an apparent density of 0.6 g / cm 3 or more. Although there was a sense of fulfillment, the bending resistance was 0.89 mm and the flexibility was low.
- the artificial leather of Comparative Example 6 containing no filler had a low apparent density and a low sense of fulfillment.
- the artificial leather of Example 8 had a slightly low sense of fulfillment due to the relatively low proportion of the modifier, it showed very high flexibility. However, since the artificial leather of Example 8 had voids on the surface, the coated resin liquid was likely to penetrate.
- an artificial leather having a supple texture and a sense of fulfillment can be obtained by impregnating and imparting the above modifier to the gaps between the fibers of the fiber entangled body. I understand that.
- Example 13 Instead of forming a base coat having a film thickness of 28 ⁇ m on the surface of the artificial leather substrate obtained in Example 6, a smoothing layer was formed as follows. Specifically, 42.9 parts by mass of filler (calcium carbonate having an average particle diameter of 5 ⁇ m) is blended with 100 parts by mass of the solid content of polyurethane emulsion (DIC Co., Ltd., LCC binder UB1770 solid content 30% by mass). Then, a smoothing layer coating solution was prepared by adding a thickener and stirring and mixing.
- filler calcium carbonate having an average particle diameter of 5 ⁇ m
- the obtained smoothing layer coating liquid had a viscosity ⁇ 0.6 of 240 Pa ⁇ s when measured at a rotation speed of 0.6 revolutions / second using a B-type rotational viscometer at a temperature of 25 ° C.
- the viscosity ⁇ 3.0 when measured at a rotational speed of 3 revolutions / second was 75 Pa ⁇ s, and ⁇ 0.6 / ⁇ 3.0 was 3.2.
- the viscosity ⁇ 0.6 was 4.2 Pa ⁇ s
- the viscosity ⁇ 3.0 was 3.0 Pa ⁇ s
- ⁇ 0.6 / ⁇ 3.0 was 1.4.
- a smoothing layer having a thickness of 45 ⁇ m was formed by applying 140 g / m 2 of a smoothing layer coating solution on the surface of the artificial leather substrate obtained in Example 6 using a reverse coater and drying.
- the surface water absorption rate of the smoothing layer thus formed was measured by the following method. As a result, the surface water absorption speed was 180 seconds or more. The results are shown in Table 2.
- a color coat layer having a film thickness of 14 ⁇ m was formed on the surface of the smoothing layer of the artificial leather substrate in the same manner as in Example 1. Further, the blanking process was performed at 40 to 50 ° C. for 2 to 4 hours. Then, in the same manner as in Example 1, the surface layer was embossed using an embossing roll at 125 ° C. and 50 kg / cm 2 at a line speed of 7.0 m / min. In the same manner as in Example 1, a top coat having a thickness of 13.5 ⁇ m was formed. Thus, a silver-tone artificial leather having a basis weight of 665 g / m 2 and an apparent density of 0.629 g / cm 3 was obtained.
- FIG. 6 shows an SEM photograph of the oblique section before the formation of the smoothing layer of the artificial leather substrate obtained in Example 13
- FIG. 7 shows an SEM photograph of the oblique section after the formation of the smoothing layer.
- the cross-sectional photograph of SEM of the silver-tone artificial leather base material obtained in Example 13 is shown in FIG.
- the amount of sinking (g / m 2 ) was calculated from the difference between the coating amount when forming the smoothing layer and the thickness of the actually formed film. However, it was set to 0 when it became a value smaller than 0.
- Table 2 shows the results of bending resistance and texture.
- Example 14 to 18 As shown in Table 2, the smoothing layer was the same as Example 13 except that 5% by mass, 10% by mass, 20% by mass, 40% by mass, and 50% by mass of the filler (calcium carbonate) were blended. The coating liquid was blended. A silver-tone artificial leather was obtained in the same manner as in Example 13 except that the adjusted smoothing layer coating solution was used. The results are shown in Table 2.
- Example 19 to 21 As shown in Table 2, silver-tone artificial leather was obtained in the same manner as in Example 13 except that the thickness of the smoothing layer was changed to 20 ⁇ m, 31 ⁇ m, and 54 ⁇ m, respectively. The results are shown in Table 2.
- Example 22 As shown in Table 2, instead of blending 30% by mass of the filler (calcium carbonate), the filler (vinylidene chloride / nitrile plastic balloon having an average particle size of 30 ⁇ m) is added to 100 parts by mass of the solid content of the polyurethane emulsion. 1.5 parts by weight, except that 50% by volume was blended, the smoothing layer coating solution was blended in the same manner as in Example 13, and the adjusted smoothing layer coating solution was used. In the same manner as in Example 13, a silver-tone artificial leather was obtained. The results are shown in Table 2. 9 shows an SEM photograph of the oblique section after the formation of the smoothing layer of the artificial leather base material obtained in Example 22, and FIG. 10 shows the SEM of the silver-tone artificial leather base material obtained in Example 22 in FIG. A cross-sectional photograph is shown.
- the smoothing layer and the silver surface layer were subducted, and the surface water absorption rate of the artificial leather substrate was low. Therefore, it can be seen that the provision of the smoothing layer can suppress the sinking of the silver-tone resin layer on the surface of the artificial leather substrate. By suppressing the sinking of the resin layer having a silver surface tone, a silver-tone artificial leather having an extremely supple texture can be obtained.
- Example 6 when a polyurethane emulsion having a ⁇ 0.6 / ⁇ 3.0 of 1.4, in which no filler was added, was used, it was found that a slight sink was observed.
- the artificial leather of the present invention is used as a leather-like material for shoes, clothing, gloves, bags, balls, interiors, vehicle interiors, and the like.
Abstract
Description
〈不織布の製造〉
海成分として水溶性熱可塑性ポリビニルアルコール(PVA)、島成分として変性度6モル%のイソフタル酸変性ポリエチレンテレフタレ-トを用い、口金温度260℃に設定された、海成分中に均一な断面積の島成分が25個分布した断面を形成するノズル孔が並列状に配置された複数紡糸用口金に溶融樹脂を供給し、ノズル孔から吐出させた。このとき、海成分と島成分との質量比が海成分/島成分=25/75となるように圧力調整しながら供給した。
難燃性フィラー38%owf、流動パラフィン3.75%owf、及び水系ポリウレタン5%owfからなる改質剤の成分を水に分散させて分散液を調製した。そして、極細繊維の不織布に80%のピックアップ率で分散液を含浸させた後、水分を乾燥させることにより改質剤を均質に含浸付与した。そして、改質剤を含浸付与した極細繊維の不織布を収縮加工装置(小松原鉄工(株)製、サンフォライジング機)を用いて、その収縮部のドラム温度120℃、ヒートセット部のドラム温度120℃、搬送速度10m/分で処理してタテ方向(長さ方向)に5.5%収縮させて人工皮革基材を得た。得られた人工皮革基材は、目付676g/m2、見掛け密度0.633g/cm3であった。
人工皮革基材の表面にベースコート液をGemata製STARPLUSを用いて塗布量140g/m2でロールコートすることにより膜厚28μmのベースコート層を形成した。なお、ベースコート液としては、ポリウレタンエマルジョン(DIC(株)製 LCCバインダーUB1770 固形分30質量%)をフォードカップNo.4 55Sの粘度195mPa・sになるように増粘剤で調整したものを用いた。そして、形成されたベースコート層の表面にさらにカラーコート液をGemata製STARPLUSを用いて塗布量70g/m2でスプレーコートすることにより膜厚14μmのカラーコート層を形成した。なお、カラーコート液としては、ポリウレタンエマルジョン(DIC(株)製 LCCバインダーUB1770 固形分30%)を岩田カップ(IWATA NK-2 12s)で30mPa・sになるように調整したものを用いた。そして、さらに40~50℃で2~4時間空打ち処理を行った。そして、125℃,50kg/cm2のエンボスロールを用いてライン速度7.0m/分で表層にエンボス処理を施した。そしてその表面に、岩田カップ(IWATA NK-2 12s)で30mPa・sに調整したトップコート塗料((株)トウペ製のクリアー塗料)を塗布し、膜厚13.5μmのトップコートを形成した。このようにして目付777g/m2、見かけ密度0.762g/cm3の銀付調人工皮革が得られた。
得られた銀付調人工皮革を以下の評価方法に従って評価した。
ソフトネステスター(皮革ソフトネス計測装置ST300:英国、MSAエンジニアリングシステム社製)を用いて剛軟度を測定した。具体的には、直径25mmの所定のリングを装置の下部ホルダーにセットした後、下部ホルダーに銀付調人工皮革をセットした。そして、上部レバーに固定された金属製のピン(直径5mm)を銀付調人工皮革に向けて押し下げた。そして、上部レバーを押し下げて上部レバーがロックしたときの数値を読み取った。なお、数値は侵入深さを表し、数値が大きいほどしなやかであることを表す。
銀付調人工皮革を20×20cmに切りだしたサンプルを調製した。そして、中央部を境にして内側に曲げたときの外観や掴んだときの外観を以下の基準で判定した。
A:曲げたときに丸みを帯びたように曲がり、また、緻密で細かな折れシボが発生した。また、ドレープ性にも優れていた。
B:曲げたときに屈して折れ曲がり、また、粗いシボや深いシワが発生した。また、ドレープ性にも劣っていた。
C:充実感が著しく低い風合いであった。
A:銀面層の沈み込みが少なく、平滑で滑らかな表面が形成された。
B:銀面層の沈み込みが少しあり、表面の繊維のざらつきが少し感じられた。
C: 銀面層がほとんど沈み込み、表面が繊維で露出して毛羽立っていた。
JIS L1913に準じて、厚さ(mm)および目付け(g/cm2)を測定し、これらの値から見掛け密度(g/cm3)を算出した。
実施例1において調製した改質剤用の分散液の組成を、表1に示したような組成及び量に変更して調製された改質剤を極細繊維の不織布に含浸付与させた以外は、実施例1と同様にして銀付調人工皮革を得、評価した。結果を表1に示す。また、図3に実施例6において得られた極細繊維の不織布を走査型電子顕微鏡(SEM)で観察したときの断面写真を、図4に改質剤を含浸付与して得られた人工皮革基材のSEMの断面写真を示す。また、図5に実施例6で得られた銀付調人工皮革基材のSEMの断面写真を示す。
実施例6において調製した改質剤用の分散液の組成において、粒子状フィラーとしてジアルキルホスフィン酸アルミニウムを配合する代わりに、アルミナ(Al2O3)粒子を配合した以外は実施例1と同様にして銀付調人工皮革を得、評価した。結果を表1に示す。
実施例1において、極細繊維の不織布に改質剤用の分散液を含浸付与する代わりに、極細繊維の不織布に対して固形分で12.5質量%になるように実施例1で用いたのと同様の水性ポリウレタン分散液を含浸させ、120℃で乾燥させた以外は同様にして銀付調人工皮革を得、評価した。結果を表1に示す。
実施例1において、改質剤を含浸付与する工程を省略した以外は実施例1と同様にして、銀付調人工皮革を得、評価した。結果を表1に示す。
実施例1において調製した改質剤用の分散液の組成を調整し、表1に示したような組成及び量の改質剤を人工皮革基材に含浸付与させた以外は、実施例1と同様にして銀付調人工皮革を得、評価した。結果を表1に示す。
実施例6で得られた人工皮革基材の表面に銀面層の膜厚28μmのベースコートを形成する代わりに、次のようにして平滑化層を形成した。具体的には、ポリウレタンエマルジョン(DIC(株)製 LCCバインダーUB1770 固形分30質量%)の固形分100質量部に対して、充填剤(平均粒子径5μmの炭酸カルシウム)42.9質量部を配合し、増粘剤を添加して撹拌混合することにより平滑化層用塗液を調製した。なお、得られた平滑化層用塗液は、25℃の温度下で、B型回転粘度計を用いて回転数0.6回転/秒で計測したときの粘度η0.6が240Pa・sであり、回転数3回転/秒で計測したときの粘度η3.0が75Pa・sであり、η0.6/η3.0が3.2であった。なお、ポリウレタンエマルジョンのみの場合は、粘度η0.6が4.2Pa・sであり、粘度η3.0が3.0Pa・sであり、η0.6/η3.0が1.4であった。
JIS L1907-7.1.1の滴下法に準じて測定した。具体的には人工皮革基材を約200mm×200mmの大きさに切断して試験片を作製した。作成された試験片を試験片保持枠に取り付け、光源と観察者との間に置き、試験片の平滑化層側の表面からビュレットの先端までが10mmの高さになるように調整した。そして、試験片の平滑化層側の表面にビュレットから水を1滴滴下させ、水滴が試験片の表面に達したときからその試験片が水滴を吸収するにつれて鏡面反射が消え,湿潤だけが残った状態までの時間をストップウォッチで測定した。結果を表2に示す。
表2に記載のように、充填剤(炭酸カルシウム)をそれぞれ5質量%、10質量%、20質量%、40質量%、50質量%を配合した以外は実施例13と同様にして平滑化層用塗液を配合した。調整された平滑化層用塗液を用いた以外は、実施例13と同様にして銀付調人工皮革を得た。結果を表2に示す。
表2に記載のように、平滑化層の厚さをそれぞれ20μm、31μm、54μmに変更した以外は実施例13と同様にして銀付調人工皮革を得た。結果を表2に示す。
表2に記載のように、充填剤(炭酸カルシウム)を30質量%配合する代わりに、充填剤(平均粒子径30μmの塩化ビニリデン・ニトリル系プラスチックバルーン)をポリウレタンエマルジョンの固形分100質量部に対して1.5質量部であって、体積比で50%配合した以外は実施例13と同様にして平滑化層用塗液を配合し、調整された平滑化層用塗液を用いた以外は、実施例13と同様にして銀付調人工皮革を得た。結果を表2に示す。また、図9に実施例22において得られた人工皮革基材の平滑化層の形成後の斜断面のSEM写真を、図10に実施例22得られた銀付調人工皮革基材のSEMの断面写真を示す。
Claims (20)
- 繊維絡合体と、前記繊維絡合体に含浸付与された、第1の充填剤と液状の不揮発性油と、を含む人工皮革基材。
- 前記第1の充填剤は無機フィラー及び有機フィラーの少なくとも一方を含む請求項1に記載の人工皮革基材。
- 前記不揮発性油が、流動パラフィン,シリコーンオイル,鉱物油,及びフタル酸エステル類から選ばれる少なくとも1種を含む請求項1に記載の人工皮革基材。
- 前記繊維絡合体が、繊度0.9dtex以下の極細繊維の不織布である請求項1に記載の人工皮革基材。
- 前記繊維絡合体に対して、前記第1の充填剤を1~60質量%含む請求項1に記載の人工皮革基材。
- 前記繊維絡合体に対して、前記不揮発性油を0.5~10質量%含む請求項1に記載の人工皮革基材。
- 前記繊維絡合体に対して、さらに第1の高分子弾性体が0~15質量%含浸付与されている請求項1に記載の人工皮革基材。
- 前記第1の充填剤と前記不揮発性油と前記第1の高分子弾性体とを、前記繊維絡合体に対して合計で10~30質量%含有する請求項7に記載の人工皮革基材。
- 前記第1の充填剤と前記不揮発性油と前記第1の高分子弾性体との総量中、前記不揮発性油を3~70質量%含有する請求項7に記載の人工皮革基材。
- 前記第1の充填剤と前記不揮発性油と前記第1の高分子弾性体との総量中、前記第1の充填剤を30~97質量%含有する請求項9に記載の人工皮革基材。
- 前記第1の充填剤と前記不揮発性油と前記第1の高分子弾性体との総量中、前記第1の高分子弾性体を1~20質量%含有する請求項10に記載の人工皮革基材。
- 0.60g/cm3以上の見かけ密度を有する請求項1に記載の人工皮革基材。
- 表面を平滑化する平滑化層をさらに備え、
前記平滑化層は、第2の高分子弾性体と第2の充填剤とを含む厚さ10~100μmの層である請求項1に記載の人工皮革基材。 - 前記平滑化層は、前記第2の充填剤を1~50質量%含有する請求項13に記載の人工皮革基材。
- JIS L1907-7.1.1の滴下法に準拠した前記平滑化層の表面吸水速度が100秒以上である請求項13に記載の人工皮革基材。
- 請求項13に記載の前記人工皮革基材の前記平滑化層に、さらに樹脂層を積層して形成された銀付調人工皮革。
- ソフトネステスターで測定された剛軟度が1.8~2.5mmである請求項16に記載の銀付調人工皮革。
- 請求項13に記載の人工皮革基材の製造方法であって
請求項1に記載の人工皮革基材の原反を準備する工程と、
前記原反の表面に平滑化層形成用塗液を塗工した後、乾燥させることにより厚さ10~100μmの前記平滑化層を形成する工程と、を備え、
前記平滑化層形成用塗液は、
固形分として前記第2の高分子弾性体と前記第2の充填剤とを含み、
25℃の温度下で、B型回転粘度計を用いて回転数0.6回転/秒で計測したときの粘度η0.6と回転数3回転/秒で計測したときの粘度η3.0との比率(η0.6/η3.0)であるチクソトロピー指数が2~4である、人工皮革基材の製造方法。 - 前記平滑化層形成用塗液は、固形分中に前記第2の充填剤を1~50質量%含有する請求項18に記載の人工皮革基材の製造方法。
- 不揮発成分として、液状の不揮発性油3~90質量%と、無機フィラー及び有機フィラーから選ばれる少なくとも一種の第1の充填剤及び第1の高分子弾性体の配合物10~97質量%とを含む人工皮革基材用改質剤。
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US20160002846A1 (en) | 2016-01-07 |
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EP2966218A1 (en) | 2016-01-13 |
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