02/19/2014

www.gupta-verlag.de/polyurethanes

High-performance adhesives and functional coatings for composites

Composites for the aerospace industry must meet a wide range of requirements. In addition to weight reduction, performance and manufacturing are in focus. With a weight saving of up to 30 % over current surface films and a minimised pre-paint preparation, the epoxy-based surface film Loctite EA 9845 LC Aero from Henkel exactly meets these requirements. Due to the high proportion of copper particles the product also provides good protection against lightning strikes. With the application of lightweight parts in aircraft construction constantly on the rise, user-friendly adhesive-based repair solutions for composite components are also gaining in importance for airline operators and MRO's. The maintenance and repair of these complex structures presents the aerospace industry with certain challenges, with various types of damage and their different repair requirements necessitating innovative and high-performance adhesive technologies.[image_0] However, under the Loctite brand Henkel offers advanced, ready-to-use adhesive solutions designed to meet a broad range of related demands, from standard adhesive bonding and wet lamination to out-of-autoclave curing and speciality repairs for high-temperature service. Optimum size options in ready-to-use two-part speciality packaging solutions allow for ease of repair applications that substantially reduce costs for OEM's, MRO's and Airlines. At JEC Europe, Henkel will be presenting its portfolio of benzoxazine resins, also marketed under the Loctite brand, for injection processes such as vacuum resin transfer moulding (VARTM). These products can be stored and transported at room temperature, thus significantly reducing energy consumption. They also offer weight savings of up to 30 % compared to the conventional metal structures they replace. In production, the lower shrinkage on cure offers further advantages, substantially reducing the stress to which the components are subjected and therefore improving the durability of the finished component. Sandwich structures have much higher stiffness and strength to weight than laminates, and syntactic core materials are an attractive design option for aircraft sandwich structure. Syntactic core materials are film products which provide an alternative to thin honeycomb for sandwich structures. Under the Loctite brand Henkel offers a range of epoxy films filled with high strength lightweight glass microballoons. These films are used between composite skins and are co-cured to achieve high stiffness with a light weight.[image_1_right] Loctite MAX 3 creates an outstanding quality of finish in composite components for the automotive industry Lightweight construction technologies are becoming increasingly important in the automotive industry, where they help to reduce vehicle weight. This is becoming an increasing necessity in view of the strict exhaust standards now in force and constant pressure to generally reduce fuel consumption and CO2 emissions. Until now, certain restrictions have existed in the use of lightweight components, as their ability to meet the demands of automobile constructors with respect to cycle time and degree of automation has been limited. In particular, the use of composite components for the outer shell of standard production vehicles has remained a rarity due to the need for reworking the surface prior to painting - always time-consuming and invariably done by hand. Working with KraussMaffei, however, Henkel has now developed a process for the manufacture of glass or carbon fibre-reinforced components using the high-pressure RTM process (HP-RTM). This generates a surface of sufficiently high quality to meet even vehicle body requirements. And it has all been made possible by Loctite MAX 3. The newly developed three-component matrix system from Henkel based on polyurethane contains not only the resin and hardener but also a high-performance internal release agent. This ensures the easy removal of the component from its mould and thus a surface that can be immediately painted or adhesive-bonded. At JEC Europe, Henkel will be presenting the Roding Roadster R1, of which the light and exceptionally strong roof module has been manufactured using this process. Mould sealers for high-gloss plastic components Likewise on show at the Henkel stand will be a number of highly efficient Frekote solutions for complex mould geometries. To its customers, the Frekote brand not only represents a range of mould release agents but also a valuable source of expertise that the company has accumulated over the years in the development of customised single-source solutions, said Henkel. And with five decades of research in this field as well, the company says it is able to offer the industry's biggest portfolio of semi-permanent release agents, sealers, and cleaners. The use of Frekote CS-125 mould sealer, for example, reduces the cost of mould manufacture. The product is able to seal porosities in foams or other moulding materials, eliminating the need for a mould gel coat. According to the manufacturer, the product creates a high-gloss surface in the moulded component beyond the capabilities of competitor products. Bonding of rotor blades Henkel is further presenting a completely new adhesive technology for the manufacture of rotor blades as used on wind generators. The polyurethane adhesives, developed by Henkel and marketed under the Loctite brand, have been tested and certified by Germanischer Lloyd and will be of particular interest due to the fact that they substantially reduce manufacturing time. Essentially, rotor blade production is divided into two phases. The first is the lamination of two half shells. As a rule, this involves the laying up non-woven strips of glass fibre-reinforced plastic (GRP) in prefabricated moulds, and impregnating them with epoxy resin. The components are then allowed to harden and cure in the half shell moulds which are heated to a temperature of between 60 °C and 70 °C. In the second stage of production, the finished half shells are bonded together to produce the completed rotor blade. They are then ground and the outer surface is coated to protect it from the influences of wind and weather. The polyurethane adhesive technology developed by Henkel for this application essentially follows the same principle but makes production significantly faster. The ability of the adhesives to cure quickly and, in the main, without external heating, offers a number of advantages over the previously established epoxy resin processes, not least of which is the fact that the energy requirement is reduced. For reasons of sustainability and the ever present need for improved cost efficiency in production, this new polyurethane technology is therefore bound to be attractive. Adhesives for composite components in motor racing For the global "Formula Student” motor racing competition, students of the Giessen University of Science and Technology are developing composite components in which high-performance adhesives from Henkel perform important structural and safety-relevant functions. Worthy of particular note is a composite development in which the once steel wishbones used in the racing cars are being replaced by composite components. Aluminium inserts are adhesive bonded inside the composite arms to enable he wishbones to be reliably connected to the chassis and wheel hub. The use of composite materials in combination with this adhesive technology means that the assembly is 56 % lighter than its steel counterpart. Aside from fuel savings, the advantages include improved torsional stiffness and a greater degree of design freedom. Henkel's recommendation to the students was to use the single-component gap-filling epoxy adhesive Loctite EA 9514, which offers good impact toughness even at high service temperatures. This solution already has been proven successfully in the third racing season.

www.gupta-verlag.de/polyurethanes