Abstract: A method for facilitating recycling an object is provided. The object is produced to include a detecting device that detects a condition of the object, and wirelessly sends out the detected condition of the object, so that a dealer shop may receive the detected condition of the object, and send the same to a server. The server determines whether the object has worn out based on the detected condition, and sends a message to a mobile device related to a consumer of the object for notifying the consumer that the object has worn out, thereby motivating the consumer to recycle the object.
Abstract: A method for manufacturing a wear and tear-indicating product includes mixing an elastomeric material, an ink affinitive material and an ink repulsive material, followed by molding to obtain an ink receiving sheet; disposing a sublimation transfer paper including a sublimation ink on the ink receiving sheet; heat pressing the sublimation transfer paper, so that the sublimation ink is released from the sublimation transfer paper and permeates into the ink receiving sheet, so as to obtain a colored ink receiving sheet formed with multiple color indicating areas that contain the ink affinitive material and sublimation ink permeating thereinto; removing the sublimation transfer paper from the colored ink receiving sheet.
Abstract: A method for facilitating recycling an object is provided. The object is produced to include a detecting device that detects a condition of the object, and wirelessly sends out the detected condition of the object, so that a dealer shop may receive the detected condition of the object, and send the same to a server. The server determines whether the object has worn out based on the detected condition, and sends a message to a mobile device related to a consumer of the object for notifying the consumer that the object has worn out, thereby motivating the consumer to recycle the object.
Abstract: A method includes processing multiple macromolecular staples to successively produce a macromolecular sheet body, multiple silks and multiple sheet particles. The macromolecular sheet body contains multiple district camouflages and is processed by edge cutting to form multiple color strips. The color strips, the silks and the sheet particles are processed and attached to the surface of the macromolecular sheet body, so that the surface of the macromolecular sheet body forms the district camouflages, the thread camouflages and the spot camouflages. Finally, the macromolecular sheet body is vulcanized or solidified in a foam molding zone, to form an elastic mat with a mixed color type.