PROBLEM TO BE SOLVED: To provide an economical sheet of Shoji-gami for heat bonding readily applicable to a frame or repapered by anyone without requiring water or a skilled technique and without losing quality characteristics as a substrate for the Shoji-gami and without especially deteriorating the quality with heat and a method for producing the Shoji-gami for heat bonding.;SOLUTION: This Shoji-gami for heat bonding is obtained by converting a hot-melt resin having a softening point assuming adhesion during heating within the range of 80-180°C into the form of a continuous or a discontinuous ultrafine fibrous material and applying the fibrous material to a bonding region of a sheet body composed of the Shoji-gami. The ultrafie fibrous material of the hot-melt resin has a fiber diameter within the range of 3-20 μm and the coating weight is within the range of 3-20 g/m2. Furthermore, the softening point of the ultrafine fibrous material of the hot-melt resin during the heat bonding is lowered from the essential softening point.;COPYRIGHT: (C)2002,JPO
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机译:要解决的问题:提供一种经济的Shoji-gami纸,用于热粘合,可以容易地应用于框架或由任何人重贴,而无需水或熟练的技术,并且不会损失作为Shoji-gami的基材的质量特性,并且不会特别恶化解决方案:通过将具有软化点的热熔树脂(假设加热过程中的附着力在80-80°C的范围内)转化为热熔树脂,从而制得这种热粘合的Shoji-gami。在180℃下制成连续或不连续的超细纤维材料的形式,并将纤维材料施加到由Shoji-gami组成的片状体的粘合区域上。热熔树脂的超细纤维材料的纤维直径在3-20μm的范围内,并且涂层重量在3-20g / m 2 Sup>的范围内。此外,热粘合树脂的超细纤维材料在热粘合过程中的软化点也从必要的软化点降低。;版权所有:(C)2002,日本特许厅
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