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    • 1. 发明授权
    • Thermosensitive recording material
    • 热敏记录材料
    • US5792724A
    • 1998-08-11
    • US636459
    • 1996-04-23
    • Hideo SuzakiHideo Aihara
    • Hideo SuzakiHideo Aihara
    • B41M5/28B41M5/30B41M5/333B41M5/337B41M5/40B41M5/42
    • B41M5/3372
    • A thermosensitive recording material having high transmittance density, excellent reproducibility of fine dot images and half tone images under printing conditions ranging from low to high applied printing energy. The thermosensitive recording material, including a substrate and a thermosensitive coloring layer, formed on the substrate, the thermosensitive coloring layer including a leuco dye, a coloring developer for inducing color formation in the leuco dye upon application of heat thereto and binder resins, and an optional protective layer, formed on the thermosensitive coloring layer, wherein the binder resins include at least two resins having different glass transition temperature Tg and are present in total amount of more than about 0.25 parts by weight per 1 part of total weight of the thermosensitive coloring layer.
    • 一种热敏记录材料,其具有高的透光密度,在低压到高应用打印能量的打印条件下的细小点图像和半色调图像的再现性优异。 形成在基材上的热敏记录材料,包括基底和热敏着色层,热敏着色层包括无色染料,用于在加热时在无色染料中引起着色形成的着色显影剂和粘合剂树脂,以及 在热敏着色层上形成的任选的保护层,其中粘合剂树脂包括至少两种具有不同玻璃化转变温度Tg的树脂,并且相对于每1份热敏着色剂的总重量,其总量大于约0.25重量份 层。
    • 2. 发明授权
    • Thermosensitive recording material
    • 热敏记录材料
    • US5866507A
    • 1999-02-02
    • US891239
    • 1997-07-10
    • Hideo SuzakiHideo Aihara
    • Hideo SuzakiHideo Aihara
    • B41M5/30B41M5/333B41M5/40B41M5/42B41M5/44B41M5/36
    • B41M5/44B41M5/3333B41M5/3335B41M5/42
    • A thermosensitive recording material is provided which includes a substrate, a thermosensitive recording layer formed on the substrate and including a binder resin, a coloring agent and a coloring developer inducing color formation in the coloring agent upon application of heat thereto, and a protective layer formed on the thermosensitive recording layer and including a resin, wherein the protective layer includes a particulate organic filler (A) whose average particle diameter is from about 1.2 to about 3.0 times the thickness of the protective layer and a particulate organic filler (B) having an average particle diameter of from about 0.05 to about 0.7 .mu.m. The thermosensitive recording material has good image qualities without undesired white streaks and good ability to be used with thermal printheads without sticking to and wearing out the thermal printheads.
    • 提供了一种热敏记录材料,其包括基材,形成在基材上的热敏记录层,并且包含粘合剂树脂,着色剂和着色剂,其在加热时在着色剂中引起着色形成,并形成保护层 在热敏记录层上并且包括树脂,其中保护层包括平均粒径为保护层厚度的约1.2至约3.0倍的颗粒状有机填料(A)和具有保护层的颗粒状有机填料(B) 平均粒径为约0.05至约0.7μm。 热敏记录材料具有良好的图像质量,没有不需要的白色条纹,并且具有良好的热敏打印头的使用能力,而不会粘附和磨损热敏打印头。
    • 4. 发明授权
    • Transparent thermosensitive recording material
    • 透明热敏记录材料
    • US5952263A
    • 1999-09-14
    • US953425
    • 1997-10-17
    • Hideo SuzakiHideo Aihara
    • Hideo SuzakiHideo Aihara
    • B41M5/30B41M5/323B41M5/333B41M5/337B41M5/36B41M5/40B41M5/41B41M5/42B41M5/44
    • B41M5/42B41M5/323B41M5/333B41M5/3372B41M5/363B41M5/41B41M5/443Y10T428/24942
    • A transparent thermosensitive recording material is provided which includes a transparent substrate, a thermosensitive recording layer formed on the substrate, and a protective layer which is formed on the thermosensitive recording layer and including a resin, wherein the protective layer has a microscopically rough surface with projections and pits in which a 95% confidence interval of a distribution of a number of sections of projections in a depth direction of the surface of the protective layer is less than about 0.5 .mu.m and a maximum number of the sections in the distribution of the number of sections is from about 100 to about 500 per 1000 .mu.m.sup.2 when the surface of the protective layer is horizontally cut 41 times at equally spaced intervals between a top of a maximum projection of the surface and a bottom of a maximum pit of the surface of the protective layer. The transparent thermosensitive recording material has high transparency, good image qualities without undesirable white streaks and good ability to be used with thermal printheads without sticking to the thermal printheads.
    • 提供一种透明的热敏记录材料,其包括透明基板,形成在基板上的热敏记录层,以及形成在热敏记录层上并包括树脂的保护层,其中保护层具有微观粗糙的表面,其具有凸起 以及凹坑,其中在保护层的表面的深度方向上的多个突起部分的分布的95%置信区间小于约0.5μm,并且数量分布中的部分的最大数量 当保护层的表面在表面的最大突起的顶部与表面的最大凹坑的底部之间以等间隔的间隔水平切割41次时,每1000微米的面积为约100至约500 保护层。 透明热敏记录材料具有高透明度,良好的图像质量,没有不希望的白色条纹,并且在不粘附热敏打印头的情况下具有良好的热打印头使用能力。
    • 6. 发明授权
    • Thermosensitive recording material
    • 热敏记录材料
    • US5482911A
    • 1996-01-09
    • US309464
    • 1994-09-21
    • Katsunori HiroishiNorio KurisuHideo Aihara
    • Katsunori HiroishiNorio KurisuHideo Aihara
    • B41M5/30B41M5/41B41M5/40
    • B41M5/30B41M5/41
    • A thermosensitive recording material having a support and a thermosensitive coloring layer formed on the support, capable of inducing color development by the application of heat thereto is disclosed, the stiffness of the thermosensitive recording material in the lengthwise direction thereof in accordance with JIS-P-8125 being less than 0.45 exp.sup.0.018x (gf.multidot.cm) wherein x represents the thickness (.mu.m) of the recording material measured in accordance with JIS-P-8118, provided that the lengthwise direction of the recording material is (i) a machine direction in which cellulose fiber contained in a natural material for use in the support is oriented, or (ii) a plane direction of the recording material when a synthetic material is used for the support.
    • 公开了一种热敏记录材料,其具有形成在载体上的载体和热敏着色层,其能够通过施加热量而引起显色。根据JIS-P-1,热敏记录材料在其长度方向上的刚度 8125小于0.45exp0.018x(gfxcm)其中x表示根据JIS-P-8118测量的记录材料的厚度(μm),条件是记录材料的纵向方向为(i)机器方向 其中包含在用于载体的天然材料中的纤维素纤维取向,或(ii)当合成材料用于载体时记录材料的平面方向。
    • 8. 发明申请
    • STEEL HAVING NON-MAGNETIC PORTION, ITS PRODUCING METHOD, AND REVOLVING ELECTRIC CORE
    • 具有非磁性部分的钢铁,其制造方法和改造电芯
    • US20100225431A1
    • 2010-09-09
    • US12675940
    • 2008-08-27
    • Keisuke KadotaHideo AiharaMasahiko Mitsubayashi
    • Keisuke KadotaHideo AiharaMasahiko Mitsubayashi
    • H01F21/06B32B15/01B23K31/02B32B15/18
    • H02K1/2766H02K1/02H02K15/03Y10T428/12965
    • Provided are a steel having a non-magnetic portion, which can be applied to the steel of the remaining portion irrespective of the material and which has a structure of a short treating time required and a determined depth direction, its manufacturing method, and a revolving electric core. There is prepared an electromagnetic steel sheet having a recessed groove. A two-layered chip of a modifier metal foil and a stainless steel foil is so set in the groove of the electromagnetic steel sheet that the electromagnetic steel sheet and the stainless steel foil have surfaces of the same height. The modifier metal foil is melted when electric current is applied under pressure. When this pressing and current applying is continued, inner sides of the electromagnetic steel sheet and the stainless steel foil contacting the modifier metal foil are melted to form a nonmagnetic alloy layer in the region excepting the surface portions of an electromagnetic steel sheet layer and a stainless steel layer. The nonmagnetic alloy layer and the stainless steel layer do not pass a magnetic flux.
    • 本发明提供一种具有非磁性部分的钢,不管材料如何,都可以应用于剩余部分的钢,并且具有所需要的短处理时间和确定的深度方向的结构,其制造方法和旋转 电芯。 制备具有凹槽的电磁钢板。 将修改金属箔和不锈钢箔的两层芯片设置在电磁钢板的槽中,电磁钢板和不锈钢箔具有相同高度的表面。 当在压力下施加电流时,改性金属箔熔化。 当这种按压和施加电流持续时,电磁钢板和与改性金属箔接触的不锈钢箔的内侧在除了电磁钢板层和不锈钢的表面部分之外的区域中熔化以形成非磁性合金层 钢层。 非磁性合金层和不锈钢层不通过磁通。