Development of an air cushioning material based on a novel idea

The air cushioning material introduced in this paper as a new packaging material represents a new steadying and cushioning system using air pressures. The material is a two-layer structure consisting of an airtight chamber (air chamber) ®lled with air and a urethane chamber holding ¯exible and resilient urethane that permits free air passage. Ordinary air cushioning materials have drawbacks in that they repeat expansion and contraction according to changes in atmospheric pressure and temperature during long storage or transportation to remote destinations. While their expansion may damage the case or the packaged object, their contraction may cause a drop in steadying pressures, so that the contents may move about inside and eventually sustain damage. The two-layer structure of the new material recti®es the shortcoming of ordinary air cushioning materials that they may be affected greatly by temperature changes. Also, the greatly improved ¯exibility of the packaging material opens up possibilities for far wider applications in packaging precision devices and machinery. The airtight chamber to be ®lled with air is provided with an air charge port and an air discharge port, which may be used to control the charged air pressure. The desirable air pressure is such that the urethane in the urethane chamber is compressed to about half the ordinary size. Since it can be checked visually or tactually, the charging of air, which used to be a delicate and rather dif®cult operation, is easy. Conventionally, most of the packaging materials were of throw-away type and thus handled as waste materials. The new air cushioning material, which is surfaced with a strong wear-resistant cloth, is designed for repetitive use, so that it will contribute greatly to the reduction of wastes if systematic recovery is carried out.