What does Biodegradable mean?

Biodegradable refers to the ability of a substance to break down and decompose naturally in the environment, typically through the action of microorganisms, into environmentally benign components.

Can Cassava Replace Oil-based Plastics?

The modern era, marked by significant technological progress, grapples with extensive plastic pollution. Despite this, cassava resin emerges as a promising alternative—a single-use material derived from organic sources instead of non-renewable ones. Cassava, a fast-growing plant, offers a feasible option to produce eco-friendly alternatives to oil-based polymers. Plastic, ubiquitous in commercial products, is undeniably versatile, but the environmental toll is concerning. Cassava, a root relative, holds the potential to replace various plastic products due to its fibre composition. With finite fossil fuel reserves, the shift towards sustainable alternatives is imperative. Cassava resin shows promise, evident in its current applications in everyday items and even car manufacturing. The article explores the potential of cassava resin to mitigate a portion of plastic consumption, signalling a positive shift toward sustainability.

Are Cassava Bags durable?

Regardless of how quickly cassava decomposes, cassava resin is as strong as traditional plastic. It is also heat-resistant, making it suitable for food-based applications.

How does your product distinguish itself from conventional alternatives?

Our product is engineered to disintegrate into natural components, markedly diminishing its ecological footprint when contrasted with traditional materials that endure in the environment for protracted durations.

What materials do you incorporate into your biodegradable products?

We utilise plant-based materials, including cassava starch, polyvinyl alcohol (PVA), and other resources derived from plants, in the creation of our biodegradable Cassava bag products.

What is the biodegradation timeframe for your products?

The time required for biodegradation varies depending on specific circumstances and environmental conditions. Generally, our products are formulated to break down within 4-6 weeks in aquatic environments or 3-6 months in landfills, contingent on prevailing conditions. Additionally, an expedited process occurs when immersing the bags in boiling water, resulting in instantaneous dissolution.

Can your products undergo home composting?

While our products are not suitable for home composting, they are designed to break down efficiently in industrial composting facilities.

Are your products both recyclable and biodegradable?

Our product, crafted for single use, is not recyclable. However, it is devoid of harmful materials that might adversely affect the environment or marine life.

Are there specific conditions necessary for biodegradation to take place?

Under normal environmental conditions, our products undergo biodegradation seamlessly. Nonetheless, extreme temperatures, such as freezing or exceptionally high levels, may impact the biodegradation process.

Is it harmful to humans and animals?

There are many links between conventional plastic and health problems. It is also a problem for animals and marine life. Regular plastics contain a range of harmful chemicals such as BPA and PVC. These can lead to developmental problems in children after the leaching of toxic chemicals from the plastic into our food or drinks.

Meanwhile, cassava resin uses natural ingredients and fewer to no chemicals at all. This means it is less harmful to our environment, animals, and humans.

Do your products emit harmful substances during the biodegradation process?

Our products are meticulously designed to decompose into non-toxic components. Rigorous testing and various nationally recognised certifications ensure that the biodegradation process aligns with environmentally friendly standards.

What certifications have your products obtained?

Adhering to industry benchmarks, our products boast numerous certifications aligned with Australian (AS4736), European (EN 13432), and American (ASTM6400) standards.