Air-Core® with Threaded Inserts: As illustrated by this Air-Core® part, it is possible to include metal threaded inserts for mounting. (2in. x5in.x11in.)
Air-Core® with Threaded Inserts
Air-Core® Tube: By using Air-Core® on this tube, we were able to provide a part with minimal disturbance in the corner. Also, we were able to blow a radial rib on each end which acts as a stop when inserting the tube into a fitting.
Air-Core® Tube
PEX Air-Core® Water Reservoir: Because there are no parting seams running the length of our Air-Core® water reservoirs, Air-Core® tanks are able to withstand higher pressures than blow molded tanks.
PEX Air-Core® Water Reservoir
Air-Core® Inserts: Thermoplastic or metal mounting brackets and fasteners can be inserted during the Air-Core® process.
Air-Core® Inserts
Multi-layer Air-Core® Possibilities: In addition to putting corrugations in the part for additional flexibility and forming the part fit around a tight corner, this multi-layer Air-Core® part utilizes a chemical resistant material on the interior and a more abrasion resistant material on the exterior.
Multi-layer Air-Core® Possibilities
Air-Core® Santoprene: By utilizing the advantages of the Air-Core® process, this Air-Core® Santoprene part replaced an assembly of 5 components.
Air-Core® Santoprene
Glass-filled Nylon Air-Core®: The Air-Core® process allows the freedom to design shapes that are not possible with traditional blow molding.
Glass-filled Nylon Air-Core®
Glass-filled Nylon Air-Core®: The Air-Core® process allows the freedom to design shapes that are not possible with traditional blow molding.
Air-Core® Bottle
Air-Core® in the Middle of a Tube: The Air-Core® process allows us to blow a detailed shape anywhere along the length of an extruded tube or profile. This included convolutions, flow restrictions, mounting details, etc.
Air-Core® in the Middle of a Tube
Air-Core® PP Reservoir: After the Air-Core® process, both ends of this part are trimmed and notched to allow it to snap into the assembly.
Air-Core® PP Reservoir
Glass-filled Nylon Air-Core® with Mounts: Glass-filled nylon was used for this part because of high heat requirements. This part illustrates the three dimensional capabilities of the Air-Core® process. It also shows how inserts can be added during the process for mounting or fastening.
Glass-filled Nylon Air-Core® with Mounts
PEX 5-Pass Air-Core® Water Reservoir: This refrigerator water reservoir is able to withstand pressure in excess of 480 psi. The entrance and exit tubes are installed during the Air-Core® process to insure a leak-free connection. The entire assembly is produced using Mercury Plastics? PEX-OT material which provides superior odor and taste performance.
PEX 5-Pass Air-Core® Water Reservoir
The Air-Core® process is the perfect process for making high pressure containers, capable of holding pressures in excess of 1,000 psi. Because Air-Core® parts start out as tubes; there are no seams, so the hoop strength of the material is capitalized on. Cross-linking the tanks also increase their strength and durability. The tube connections are made during the Air-Core® process, insuring a strong leak-free connection every time.
Air-Core® with Threaded Inserts: As illustrated by this Air-Core® part, it is possible to include metal threaded inserts for mounting. (2in. x5in.x11in.)
Air-Core® Tube: By using Air-Core® on this tube, we were able to provide a part with minimal disturbance in the corner. Also, we were able to blow a radial rib on each end which acts as a stop when inserting the tube into a fitting.
PEX Air-Core® Water Reservoir: Because there are no parting seams running the length of our Air-Core® water reservoirs, Air-Core® tanks are able to withstand higher pressures than blow molded tanks.
Multi-layer Air-Core® Possibilities: In addition to putting corrugations in the part for additional flexibility and forming the part fit around a tight corner, this multi-layer Air-Core® part utilizes a chemical resistant material on the interior and a more abrasion resistant material on the exterior.
Air-Core® in the Middle of a Tube: The Air-Core® process allows us to blow a detailed shape anywhere along the length of an extruded tube or profile. This included convolutions, flow restrictions, mounting details, etc.
Glass-filled Nylon Air-Core® with Mounts: Glass-filled nylon was used for this part because of high heat requirements. This part illustrates the three dimensional capabilities of the Air-Core® process. It also shows how inserts can be added during the process for mounting or fastening.
PEX 5-Pass Air-Core® Water Reservoir: This refrigerator water reservoir is able to withstand pressure in excess of 480 psi. The entrance and exit tubes are installed during the Air-Core® process to insure a leak-free connection. The entire assembly is produced using Mercury Plastics? PEX-OT material which provides superior odor and taste performance.
The Air-Core® process is the perfect process for making high pressure containers, capable of holding pressures in excess of 1,000 psi. Because Air-Core® parts start out as tubes; there are no seams, so the hoop strength of the material is capitalized on. Cross-linking the tanks also increase their strength and durability. The tube connections are made during the Air-Core® process, insuring a strong leak-free connection every time.
