4 Types Of Bioplastic Compostable That Will Improve Your Product Packaging
We can all agree that product packaging is VERY important. If a product packaging fails, your products might get damaged. This could lead to customers perceiving this as low-quality even though the product inside is fantastic! Thus, leading to a loss in sales and even a negative brand image.
Product packaging transcends mere protection. It can be a powerful tool for brand storytelling, creating memorable experiences, and driving sales. As Sarah Jones from Cocoa Bliss aptly sums it up, "Packaging is the silent salesperson that speaks volumes about your brand and product."
So in this post, I will be showing you 4 Bioplastic Compostables that will improve your product packaging.
What Are Bioplastic Compostables?
First, let's understand what bioplastic compostables are. Bioplastic compostables are basically environmentally friendly alternatives to traditional plastics. They are made from renewable resources like plants and can break down naturally into organic matter, water, and carbon dioxide under specific composting conditions. These materials aim to reduce reliance on fossil fuels and minimize environmental impact. They are often used in products like packaging and disposable items.
Now let's get into the examples!
1. Polylactic Acid (PLA):
Polylactic Acid (PLA) is a bioplastic derived from fermented corn starch or other plant-based sources. Its advantages are:
- Versatility in Applications: PLA is commonly used in the production of various disposable items such as cups, cutlery, and food packaging. Its versatility makes it suitable for both rigid and flexible packaging applications.
- Transparency and Aesthetics: One of the notable features of PLA is its transparency. This transparency allows for clear visibility of the packaged product. This makes it an excellent choice for attractive and visually appealing packaging designs. This characteristic is particularly advantageous in the food and beverage industry where consumers often prefer to see the contents of the packaging.
- Printability and Branding: PLA offers good printability. This makes it an ideal material for displaying branding elements and product information on packaging. The surface of PLA can be easily printed with vibrant colors, logos, and product details. Thus, enhancing the overall aesthetic appeal of the packaging.
2. Polyhydroxyalkanoates (PHA):
Polyhydroxyalkanoates (PHA) is a biodegradable polymer produced by bacteria utilizing organic waste materials. Its advantages are:
- Bacterial Production: PHA is produced through microbial fermentation. This is where bacteria transform organic compounds, such as sugars or plant oils, into a polymer. This sustainable production method utilizes renewable resources and can involve various bacteria species.
- Durability and Toughness: PHA exhibits greater durability and toughness compared to other bioplastics, including PLA. Its robust nature makes it a valuable choice for applications that demand resilience, strength, and durability.
- Applications in Medical Implants: The exceptional durability of PHA makes it suitable for medical applications, including the production of implants. The biocompatibility and biodegradability of PHA contribute to its use in medical devices. This is where it can provide a stable and durable material for implants.
3. Polybutylene Succinate (PBS):
Polybutylene succinate (PBS) is a biodegradable polymer derived from corn and butanediol. Its advantages are:
- Polystyrene-like Properties: PBS has the unique ability to mimic the properties of polystyrene. Polystyrene is a commonly used non-biodegradable plastic known for its versatility and durability. This makes PBS a suitable alternative for applications where polystyrene-like properties are desired.
- Versatility in Products: Due to its ability to imitate polystyrene, PBS finds applications in various products, such as yogurt tubs and straws. This versatility allows businesses to offer eco-friendly alternatives without compromising on the performance characteristics that customers may expect from traditional plastics.
- Balance Between Durability and Versatility: PBS strikes a balance between durability and versatility. Thus, making it an appealing choice for businesses that need packaging options with diverse properties. This is particularly helpful for companies looking to maintain or enhance the functionality of their products while adopting more sustainable materials.
- Potential for Diversification: If your business focuses on a range of packaging options and desires diversity in product lines, incorporating PBS into your materials portfolio could be a strategic move. It allows you to provide sustainable alternatives to customers while maintaining the flexibility and adaptability of your product offerings.
4. Starch Blends:
Starch blends represent a category of biodegradable polymers that combine starch with other biopolymers such as Polylactic Acid (PLA) or Polyhydroxyalkanoates (PHA). Its advantages are:
- Blend Composition: Starch blends typically consist of starch as the main component, derived from sources like corn, potatoes, or tapioca. Other biopolymers, such as PLA or PHA, are added to the blend to enhance specific characteristics like strength, flexibility, or biodegradability.
- Versatility: The combination of starch with other polymers provides a versatile material suitable for various applications. The properties of starch blends can be tailored based on the specific needs of the end product, allowing for customization in terms of flexibility, durability, and compostability.
- Creation of Various Items: Starch blends are used to manufacture a wide range of items, including bags, food trays, and other packaging materials. The adaptability of these blends makes them suitable for different types of packaging solutions, accommodating the diverse requirements of various industries.
- Customization for Packaging Solutions: If your business requires adaptable packaging solutions for different products, starch blends provide a customizable approach. The ability to adjust the blend composition enables the creation of packaging materials that meet specific performance and environmental criteria.
I hope today's post showed you how you could improve your product packaging.
Now I want to turn it over to you.
Which of the 4 bioplastic compostables from today's post are you going to try first?
If You Want To Know More About Bioplastics:
Bioplastic vs. Traditional Plastic
How One Business Switched to Bioplastics and Skyrocketed Their Sales
6 Myths About Bioplastic Bags That Business Owners NEED To Know Is False
Why Bioplastic Bag Is Actually Capable To Empower Your Brand
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