There’s a tug-of-war taking place on production lines and assembly floors across numerous industries, but especially sectors under the transportation umbrella. It relates to the use of traditional mechanical fasteners versus modern adhesives.
Both have well-earned positions in the marketplace, as they have on our shelves at Austi
Just some of the benefits of mechanical fasteners include:
Predictable, Exceptional Performance - They eliminate the risk of faulty and potentially scrap assemblies by providing a visible fixing that is not subject to a failed bond scenario. Additionally, there are no thickness limitations; they offer low sensitivity to peel stresses and have no major residual stress issues.
Simplicity - Fasteners provide a simple solution to most assembly problems. They are simple to install with the right tools. They’re not messy, nor require any specialized training to use, and provide a system of positive connection with low risk. They generally require no special preparation of mating surfaces as there is no risk of chemical created structural change. Dissimilar materials can be easily joined (though care is recommended to prevent the risk of galvanic corrosion).
Environmental - They’re not environmentally sensitive, and application can take place in most weather and ecological conditions. There’s no need to provide specialized, temperature-controlled assembly areas, or fume extraction equipment. Finally, they have an extended shelf life, require only a dry storage environment, and maintain their value over time.
While traditional fasteners have been around nearly forever, the adhesives market, while certainly not “new,” is experiencing rapid development. Manufacturers in the transportation industries are adopting and adapting to the latest adhesives technologies.
Benefits of modern adhesives include:
Corrosion Resistance – Adhesives work well in applications where the end product exposure to water and chemicals that may penetrate or damage mechanical fasteners is a factor. The most durable and most resilient component is not one with a dozen holes in it but a solid, undamaged piece. The elimination of holes reduces the opportunity for corrosion and improves the product’s structural integrity in the long run. Adhesives also aid in preventing galvanic corrosion that may come from the joining of dissimilar metals, as is often the case when riveting the sidewalls of a truck or trailer body.
Weight Reduction – You will experience significant fuel savings in the transportation industry by lowering a vehicle’s weight. It can also help to free up weight for installing additional components that give products new abilities and potential competitive advantage. While adhesives are not significantly lighter than mechanical fasteners, they do allow for the distribution of stress across the entire surface of a bonding area, as opposed to point-loads at each fastener. This can allow for the use of lighter or thinner materials.
Thermal Cycling and Vibration - Adhesives perform better against thermal cycling because they mitigate the stress from substrates’ expansions and contractions. Adhesives also have a quieting effect due to their viscoelastic properties. Sound vibrations are dampened as they pass through adhesive bonds.
Strength Over a Large Surface Area - Advanced structural adhesives can offer stronger bonds than mechanical fasteners, particularly when the bond covers a relatively large surface area. Most “impact-resistant” structural adhesives are limited to a range of 15 to 20 J of impact strength, but some next-gen adhesives are stronger.
Aesthetics – Adhesives seal against moisture and are out of sight between substrates. This eliminates long rust streaks and allows for smooth exteriors and improved aesthetics.
Design Flexibility – Designers often select adhesives because they can be applied when parts or joints are accessible, or when it is more convenient. They can then be cured later using heat, anaerobic, UV light, or several curing methods in combination. Bonds can also be formed in places and at times when mechanical fasteners and welds are impractical or impossible. Adhesives are also advantageous when combining multiple substrates (e.g., metals, composites, wood, etc.) without having to puncture.
Additionally, adhesives can be cut and limit the damage as salvaged parts.
So, which do you choose? Again, we’re not here to tell you which is better. In certain applications,
While many modern adhesives cure quickly, it’s often not fast enough to keep parts moving down the assembly line. In those cases, adding a few mechanical fasteners to hold parts in place while the adhesive is curing can be a solution. Finally, clamps are generally required to hold two pieces of metal together for adhesive bonding. However, that clamp can often get in the way. A few mechanical fasteners can take the place of the clamp and provide additional strength to the end product.
We invite you to consult our sales and engineering experts on what is best for your assembly.
Source Credit:
Challenge (Europe) Ltd., July 7, 2018 (https://www.challenge-europe.co.uk/some-advantages-of-modern-mechanical-fasteners/)
Machine Design, Drew Richards, June 15, 2018 (https://www.machinedesign.com/mechanical/what-s-difference-between-structural-adhesives-and-traditional-fasteners)