Our goal is to completely and competitively satisfy the needs of our
customers. We believe in the importance of being selective of the
markets we wish to serve as a foundation to the skills and
capabilities required to better assist our customers.
Bonnell Aluminum's primary markets consist of building and construction, automotive and specialty.
Bonnell Aluminum manufactures custom aluminum extrusions in a variety of alloys and sizes up to 16 inches wide.
Bonnell Aluminum offers a variety of finishes and coatings, including paint, and anodize. Our services include thermally broken and fabricated extrusions and packaging.
Since its introduction to the world, anodizing has been recognized as a valuable medium for extending the life of aluminum. Anodizing enhances the use of aluminum as a lightweight and attractive manufacturing component. While the science of anodizing aluminum is well understood, the actual practice of anodizing - and the resultant finished product - often varies between one anodizing company and another. So, the most important thing you need to know about anodizing is how to choose the aluminum anodizing company most capable of delivering results that are acceptable to you and your company. To appreciate the anodizing company selection process, a basic understanding of the aluminum anodizing process itself might be helpful.
Exposed to the earth's atmosphere, aluminum combines with oxygen
to form a protective surface film which inhibits further oxidation
of the aluminum. Unlike steel or iron alloys, aluminum will not
continue to oxidize (rust) once this protective layer is formed.
This natural oxide is extremely thin and loosely adhered to the
aluminum surface, however, and is easily removed by handling.
Anodizing is a process which thickens the natural oxide film
resulting in a heavy aluminum oxide film of controlled thickness
having the hardness similar to that of a ruby or sapphire.
When aluminum is anodized conventionally, direct electrical current (DC) is passed through a bath of sulfuric acid -- the electrolyte -- while the aluminum being treated serves as the anode. This produces a clear film of aluminum oxide on the aluminum's surface. Electron microscopy indicates that this layer is mostly porous with a very thin barrier layer at the base. This structure lends itself very well to electrolytic coloring or absorptive dying.
During the anodizing process, several controls are critical to assure the specified film thickness, its abrasion resistance and density. These controls include a precise combination of chemical concentration, temperature and current density. In the production of quality anodized products, there is no alternative to having sophisticated monitoring equipment and highly-trained, experienced personnel. The company you choose for your anodizing projects must be able to demonstrate these qualities.
Pre-Treatment: Cleaning is done in a non-etching,
alkaline detergent heated to approximately 145 degrees Fahrenheit.
This process removes accumulated contaminants and light oils.
Rinsing: Multiple rinses, some using strictly de-ionized water, follow each process step.
Etching (Chemical Milling): Etching in caustic soda (sodium hydroxide) prepares the aluminum for anodizing by chemically removing a thin layer of aluminum. This alkaline bath gives the aluminum surface a matte appearance.
Desmutting: Rinsing in an acidic solution removes unwanted surface alloy constituent particles not removed by the etching process.
Anodizing: Aluminum is immersed in a tank containing an electrolyte having a 15% sulfuric acid concentration. Electric current is passed through the electrolyte and the aluminum is made the anode in this electrolytic cell; the tank is the cathode. Voltage applied across the anode and cathode causes negatively charged anions to migrate to the anode where the oxygen in the anions combines with the aluminum to form aluminum oxide (Al2O3).
Coloring: Anodic films are well suited to a variety of coloring methods including absorptive dyeing, both organic and inorganic dyestuffs, and electrolytic coloring, both the Sandocolor® and Anolok® processes.
Sealing: In all the anodizing process, the proper sealing of the porous oxide coating is absolutely essential to the satisfactory performance of the coating. The pores must be rendered nonabsorbent to provide maximum resistance to corrosion and stains. This is accomplished through a hydrothermal treatment in proprietary chemical baths or by capping the pores via the precipitation of metal salts in the pore openings.
The quality of finished aluminum extrusions and anodized products is a function of the knowledge, experience and capability of the people and equipment used. To achieve our first-rate extrusions and anodized finishes, meticulous attention is paid to every detail -- from using the finest aluminum and press practices to maintaining the tightest chemical and electrical controls. With more than a century of combined metallurgical, chemical and anodizing experience, our people apply their skills in our custom-designed, technologically-advanced aluminum extrusion and anodizing facilities. Our in-house laboratories, equipped to handle all critical testing procedures, continually monitor each production run. We're proud of our proven ability to consistently provide the highest quality aluminum extrusion and anodizing products possible. Come in and visit - you can see for yourself.
Many customers choose to work with Bonnell Aluminum because we offer a comprehensive spectrum of anodizing processes. We have become an expert at anodizing fabricated parts and welded assemblies. As with many projects, aluminum extrusions often require additional processes to meet the customer's finished part specifications. Bonnell Aluminum offers extensive capabilities to supply such finished parts.
Clear sulfuric anodizing is an electrochemical process in which aluminum is immersed in a sulfuric acid electrolyte through which electrical current is passed. The aluminum is the anode and the tank is the cathode. Voltage applied across the anode and cathode causes negatively charged anions to migrate to the anode, where the oxygen in the anions combines with aluminum to form an aluminum oxide coating. The coating may be produced in various thicknesses to achieve desired specifications.
Production of absorptive dyed finishes starts with conventional sulfuric acid anodizing in which a clear aluminum oxide film is produced. Specifications for anodic film thickness and density are critical at this stage. The anodized aluminum is then immersed in a heated solution of either organic or inorganic dyestuffs. The dye is absorbed into the pores of the anodic coating providing a pigmentary color to the surface of the aluminum.
Production of Sandocolor® and Anolok® starts with conventional sulfuric acid anodizing in which a clear aluminum oxide film is produced. Specifications for anodic film thickness and density are critical at this stage. Sandocolor® requires thicker coatings and is well suited for architectural applications. Anolok® can be utilized on thinner coatings making Anolok® more desirable for automotive applications. At the next stage, an electrolytic process deposits an elemental metal at the base of the anodic film. Sandocolor® utilizes the metal tin, whereas Anolok® utilizes the metal cobalt. Colors achieved are the result of an optical effect, not pigmentation, and are totally immune to damaging ultra-violet light.