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Design AlternativesThe abundance of choice in our modern society, coupled with the average consumer’s growing desire to stand apart from the crowd, is stimulating many new and unusual 3-D designs, particularly in the kitchen. It has been calculated that 15% of a person’s time in the home is spent in the kitchen area, so designers are exploiting this trend by styling kitchens to become the home’s focal point.
Rather than relying on flat panels or simple shapes, cabinetmakers are becoming more adventurous with flow patterns (see Figure 1). The wood-based material, mainly medium-density fiberboard (MDF), is shaped by CNC and then laminated with a special polymer-based film (such as PVC, PP or ABS) in a variety of colors and finishes.
From the consumer viewpoint, this is great news, since kitchen cabinet doors can make an impressive and dramatic design statement. Doors and panels are available in many colors, 3-D shapes and high-gloss finishes, and the final product is usually low cost and long lasting. However, the cabinetmakers’ perspective is different. These new design trends can be problematic, since getting the laminate to hold fast and strong to a curve or a hollow, or to achieve a high-gloss finish, is much more challenging.
Another area where ambitious designs with routed or shaped wood are being seen is in wardrobe doors (see Figure 2). Here, too, homeowners are breaking with tradition by making their bedrooms a very personal space. Bedroom furniture is no longer just a way of organizing a space; it is becoming a collage of art and function. Historically, intricate shapes in wardrobe doors would have prevented sufficient bonding between the PVC film and wood base, and the design would have remained in the computer. However, it’s reasonable to anticipate that unusual designs will become increasingly popular as people are encouraged by new creative initiatives. Accordingly, special wood adhesives must evolve to keep pace with changing times.
Other challenges associated with inappropriate PU adhesives may include delamination and the orange skin effect. PU adhesives that possess inadequate bonding properties when initially applied will lose their power over time, causing delamination and air pockets. The risks of delamination are higher in the kitchen, where many appliances discharge heat; cabinet doors in the immediate vicinity may suffer extreme temperature differences.
In addition, a certain adhesive thickness must be applied for good adhesion, but it is possible that this may cause an unpleasant orange skin effect that is especially noticeable on high-gloss surfaces. The PU dispersion adhesive must be unusually strong and of excellent quality if an ultra-thin coating is to have the desired bonding effect. Good wetting properties and a uniform drying process prevent the orange skin effect.
Stronger PU Adhesives NeededIn a design environment where a far greater percentage of contact points between the PVC film and its underlying MDF base take place on curves and dips rather than flat surfaces, five conditions must exist simultaneously:
- High initial bond strength for high production throughput.
- Long-lasting adhesion for enduring product fidelity.
- Excellent heat resistance to prevent delamination in hot conditions.
- Nice and smooth surface for high-gloss finishes.
- Low activation temperature for heat-sensitive lamination films.
Over the past 15 years, Polystick has refined Presstick 346, a membrane press adhesive specially developed to deliver superior performance in all membrane and membrane-less press applications. Heat-activated Presstick is applied either by spray or roller onto MDF curved boards or profiles in the production of furniture fronts and indoor doors. Its unique composition ensures a strong and secure bonding between PVC foils and wood surfaces, especially in regard to the new and challenging designs entering the market.
The Polystick formulation has undergone many improvements as a result of periodic field tests for delamination and longevity. In the most recent bonding tests, conducted on a leading line of cabinet doors in April 2010, Presstick was tested both with and without a hardener. Presstick’s chemical nature is 42% aqueous dispersion based on polyurethane, and its viscosity at 23°C is 800 (± 200) cps (measured on a Brookfield RVT 20 rpm/spindle 2). The adhesive was applied with a spray gun, and membrane press temperature reached 130°C. The results are shown in Table 1.
These tests have shown that Presstick represents a new generation of PU dispersion adhesives. It is well-suited to meet the challenges of today’s new cabinet design trends and can ensure excellent long-term bonding performance.
For more information or to ask about customized PU adhesive formulations, e-mail firstname.lastname@example.org or visit www.polystick.com.