Over the past few decades, the low-pressure “vacuum” carburizing process has proven time and time again to produce superior part quality.
October 14, 2019
The use of vacuum technology for carburizing has always shown the most potential for improving the manufacturing process by reducing both processing time and the number of manufacturing steps required to produce a part.
SECO/VACUUM Technologies (SVT), a SECO/WARWICK Group division with headquarters in Meadville, Pa., will supply a dual-chamber vacuum oil-quench furnace to an aerospace equipment manufacturer. The company is bringing its low-pressure carburizing and hardening work in-house. The furnace uses one chamber for vacuum heat treatment and the second chamber for oil quenching.
Aero Gear, a manufacturer of gearbox assemblies for the global aerospace market, completed a 24,000-square-foot expansion of its Windsor, Conn., facility. The company’s processing is conducted within its climate-controlled, 69,000-square-foot facility and includes gear-processing capabilities such as low-pressure carburizing and hardening heat treatment, nondestructive testing, super finishing and balancing. The expansion included manufacturing space for several new programs.
The acceptance of low-pressure (vacuum) carburizing (LPC) technology in manufacturing is due in large part to the ease of recipe development and modification made possible by the use of simulators designed specifically for this purpose. Let's learn more.
Rex Heat Treat purchased a 15-bar Vector vacuum furnace from SECO/VACUUM Technologies for its commercial heat-treating facility in Lansdale, Pa. The company created a newly upgraded climate-controlled vacuum heat-treat bay to house the new furnace, which will be used for through-hardening, tool and die steel processing, high-temperature solution nitriding, annealing and vacuum tempering. The system is scheduled for delivery by the end of the first quarter.
Check out the April 2020 issue of Industrial Heating, which features our cover story on "CF Lining Attachment Advances", "Heat-Treatment Influence on Recast-Layer Thickness from Nonconventional Machining", "Hot Isostatic Pressing with Integrated Heat Treatment", and much more.