炎炎スロット(lactic acid)-based Resins for Films Capable of Inflation Molding

Overview

The スロット has developed a new recycled 炎炎スロット material by compositing polyethylene gas pipe waste and PET bottle waste. By applying this technology to modify polylactic acid, which is attracting attention as a biomass (plant)-derived material, we have succeeded in producing garbage bags that could not be molded using polylactic acid alone.

This 炎炎スロット enables polylactic acid to be used to produce biodegradable agricultural mulch films, compost bags, and the like. In the future, it will also be possible for polylactic films to replace ordinary polyethylene ones and convert used bags into biogas without burning them.

Background

In recent years, polylactic acid—a biomass-derived 炎炎スロット—has been attracting attention as a low carbonization material; however, it had problems associated with its hard brittleness and inextensible quality.

In particular, for inflation film forming for trash bags, the use of polylactic acid alone was extremely difficult due to its low viscosity when melted.

Development and Features of 炎炎スロット(lactic acid)-based Resins

　We modified the hard and brittle polylactic acid by applying the 炎炎スロット modification technology that we had developed, such as by compatibilization of PET-polyethylene blends, and created a 炎炎スロット that can be used for inflation film forming.

This 炎炎スロット can be used with general-purpose inflation film forming machines and can be used to manufacture a flexible and high-strength film while maintaining a high degree of biomass and biodegradability.

In addition, compared to other biodegradable resins, it is stable at room temperature and can be stored for a long time. Accordingly, it is expected to reduce film production cost.

Fig. 3. Modification of polylactic acid

Fig. 4. Properties of modified polylactic acid (injection molding)

Fig. 5. Inflation film forming using modified polylactic acid

Applications of Biodegradable Films Made from This 炎炎スロット

In terms of use for biodegradable agricultural mulch films and compost bags, biodegradable films made from this 炎炎スロット are characterized by high strength and both preservability and degradability.

The films have good storage stability under normal indoor conditions for a certain reasonable period of time, so they can be expected to replace general polyethylene films (plastic grocery bags, trash bags, food packaging, etc.) in the future.

Moreover, using the biogasification 炎炎スロット developed by Osaka Gas, it is possible to decompose them in a short time and ultimately convert them to biogas. As a result, kitchen waste can be thrown in for gasification together with trash bags, increasing the amount of biogas. In addition, it eliminates the need to separate and dispose of trash bags, enabling labor savings.

Fig. 6. Biodegradable bag

Fig. 7. Decomposition test

Future Plans

We will develop applications for biodegradable films, making the most of the above characteristics, develop decomposition control 炎炎スロット, and aim to achieve a biomass content approaching 100% and create a more environmentally friendly material.

Meanwhile, using this polylactic acid modification 炎炎スロット, we are working on development of 100% biomass materials that are hard and highly heat-resistant, contrary to films.

In this way, we will help build a low-carbon society by deploying the material to applications in which polylactic acid could not be used in the past due to its low levels of heat resistance, impact resistance, and tensile elongation.