Branson ultrasonic components for VFFS systems by Emerson can seal directly through package contents, eliminating contaminants, and reducing waste and weld failures for a wide variety of product packages.
Photo courtesy of Emerson
Ultrasonics Expand Packaging Potential for Sustainable, Bio-Based Plastic Materials
Ultrasonic welders can offer precise, repeatable bonding and sealing with biobased resins.
By Bill Reed
Even as the COVID-19 pandemic has caused a short-term upswing in demand for single-use plastic packaging, the longer-term trend is toward sustainability. And so, with an eye toward the future, more and more manufacturers are striving to increase the use of biobased plastic materials as a sustainable solution for many product packaging applications.
Consumer-conscious manufacturers know that the use of biodegradable or industrially compostable biobased plastics is one way to reduce the solid-waste burden of packaging for everything from straws and drink containers, to single-use snack food and beverage packages, to the bubble wraps and films that protect e-commerce items being shipped to homes. More than 250 of these manufacturers, representing 20% of all plastic packaging produced worldwide, have made a global commitment to eliminate plastic waste and pollution at its source, pledging that 100% of their plastic packaging must be reusable, recyclable or compostable by 2025. Signatories to this pledge include a who’s who of major global corporations: Mars, Nestle, Walmart, SJ Johnson, Unilever, Colgate-Palmolive, Apple, Coca-Cola, Johnson & Johnson, PepsiCo and many more.
Pocket Shot, a 50-ml plastic pouch containing various spirits, is made of 3-layer film with ultrasonically welded seals, providing a durable alternative to plastic bottles for people on the go.
Photo courtesy of Emerson
Central to the success of plastic packaging sustainability efforts is the continued development of biodegradable or compostable biobased materials like polylactic acid (PLA), polybutyrate (PBAT) and polyhydroxyalkanoate (PHA) as replacements for conventional plastic materials such as polypropylene (PP) or polyethylene. And, whether these materials are utilized in the form of pouches, bags or other containers, these next-generation sustainable packages will have to perform to high standards, combining all of the integrity, safety, attractiveness and convenience of current conventional packages.
But adapting current packaging designs and traditional package-sealing equipment to bond newer biobased plastic materials with commercial-grade quality and reliability poses challenges. First, biobased plastics are more difficult to seal because they contain a lower amount of thermoplastic polymer. Instead of conventional polymer, they generally incorporate 20% or more biologically based materials — starch, soymeal, sugarcane bagasse, coconut shell extract or other plant-based material — to aid in biodegradability or compostability.
Second, the heat-sealing equipment used to fabricate many current-generation packages does not lend itself to the sensitive process control. Typical heat-sealing equipment provides only simple controls such as time, temperature and pressure, so it can be difficult to manage changes in material type or thickness. For this reason, more machine builders are offering, and more manufacturers and packagers are considering, a different option for fabricating and sealing packages: ultrasonic welding technology.
This coffee capsule incorporates a compostable, two-piece bio-based PP ring frame sealed to an air-laid, nonwoven paper filter basket. While heat-sealing tooling caused material degradation and seal inconsistency between the ring and basket, Branson ultrasonic welding technology from Emerson solved the problem, meeting seal-integrity and cycle-time requirements.
Photo courtesy of Emerson
Because they are equipped with multiple bonding/sealing modes, fully programmable controls and data-gathering capabilities, ultrasonic welders offer package makers the promise of more precise and repeatable bonding and sealing within the narrower processing “windows” of biobased resins. They replace the simple thermal sealing tools and controls of the past with the capability to:
- Bond biobased materials using weld-by-energy, peak power or weld-by-time modes that offer control over all parameters of the bonding process.
- Fine-tune the amplitude — the frictional heating potential generated by ultrasonic tooling — using sensitive, digital controls.
- Collect performance data for every weld that is made, comparing actual welder performance with specified parameters.
Compostable, two-piece biobased PP ring frame.
Photo courtesy of Emerson
As weld data is collected, package developers can set high/low limits on selected parameters or trigger alarms that flag individual weld cycles or packages that fall outside of process limits. Because these signals are latchable, they can be used to automatically data-log and eliminate bad packages from processing. These ultrasonic welding capabilities can not only help packagers accelerate the development and implementation of new packages built with biobased plastic materials but also provide them with the means to assure and manage package quality and integrity as new designs are tested and rolled out to market.
Beyond its applicability to building and sealing packages made with biobased plastic materials, ultrasonic welding technology contributes to plastic package sustainability in other ways:
Reduced package and product waste. There are a range of products — various foods and beverages, powders, leafy produce, oils, cereals or feeds — that, when packaged, can leave residue on the sealing surfaces. When conventional heat seals are used, this residue can become encapsulated within the seal, resulting in product contamination or package leaks and failures. Ultrasonic welding eliminates this potential problem because before the high-frequency vibratory motion of ultrasonic welding heats the sealing surfaces, it first vibrates and displaces potential contaminants — solids, fluids or moisture — out of the seal interface. The result is less package and product waste due to contamination, failure or rejects.
The Bosch VIS flavor protection valve allows degassing of aromatic coffee packages while preventing the influx of damaging oxygen. Branson ultrasonic welding from Emerson bonds this component to film that is formed into packaging using VFFS technology.
Photo courtesy of Emerson
Reduced package material consumption. Because of its precision, ultrasonic welding can provide strong seams and welds using significantly less width of material than typical heated-tool seals. Narrower sealing bands reduce the amount of plastic material needed, whether conventional or biobased, to complete each package.
Reduced process energy consumption. Because conduction heat-sealing systems must be continually powered and maintained at a specific operating temperature, they consume relatively high amounts of energy compared to ultrasonic welding systems of identical production capacity. Ultrasonic welders consume electricity only in short bursts, typically under one second, when they are in operation. This results in substantial process energy savings, conservatively estimated at 25% to 75%.
Worldwide, manufacturers and packagers are responding to the challenges of sustainability by adopting biobased plastic materials and ultrasonic welding technology to implement a growing range of innovative products made with biobased plastic materials. These include compostable coffee pods, stand-up pouches and bags, sustainable VFFS (vertical form-fill-seal) snack food packages, and e-commerce packages that utilize high percentages of recyclable or compostable content.
Bill Reed is a 35-year industry veteran with an extensive background in ultrasonic and vibration welding, including weld tooling manufacturing, technical sales and customer support, and sales and marketing management. Today, Reed serves as the business development manager, packaging, for Branson at Emerson.