White masterbatch is very popular in the plastics manufacturing industry as well as other diverse fields. Plastic products made from white masterbatch have a high competitive advantage in price because investors can save production’s material cost, shorten production process and energy consumption when transporting production machinery. Recently, plant-based masterbatches are gaining public attention thanks to their environmental friendliness. Specifically, bioplastic from the guessed sugar cane possesses many advantages that bring potential for plastic products. Can this resin derived from this plant produce quality products?

How is the structure of white masterbatch derived from bagasse?
Unlike other petrochemical-based materials, the bio white masterbatch is made from 100% natural materials, mostly from plants such as sugar cane, corn or mushroom, which are easily biodegradable. in the environment as well as the ability to re-use flexibly. However, many businesses still worry about the quality of natural plastic products will decrease compared to other normal plastic materials, in fact, there have been many experiments and researches to improve the properties of bio white masterbatch to meet the strict requirements of finished product production.

The advantages of producing plastic from white masterbatch are derived from bagasse
Normally in sugar production, sugarcane leaves are often removed after squeezing out all the juice used to produce sugar. The number of sugarcane leaves thrown out of the field or burned is thought to be very large, in Australia alone, there are 4,000 sugarcane farms with yields of 35 million tons of sugarcane. Utilizing this huge source of materials to produce bio white masterbatch helps to optimize the use of this plant species and minimize excess waste in agriculture. Researchers are now working hard to improve the durability of paper money made from primary plastic beads, minimizing consumption of petrochemical-based materials as well as reducing the amount of carbon emitted from this material.