Applied Thermal Technologies has passed a recent audit for the Heat Treating and Brazing of Stainless Steel and Cobalt for Honeywell Inc. (Aerospace).
Honeywell Approval
July 14th, 2010
Titanium Brazing
April 18th, 2010Applied Thermal just completed brazing a large section on Titanium over 11″ in diameter.
Brazing of Silicon Nitride
March 22nd, 2010Applied Thermal Technologies is currently working on brazing of Silicon Nitride. ATT is prototyping the use of precious metal brazing of Silicon Nitride by vacuum furnace brazing.
Working with heat treated material.
February 16th, 2010Applied Thermal referenced in Cutting Tool Engineering magazine.
http://www.ctemag.com/aa_pages/2009/0912_Threadmilling.html
– excerpt –
Making steel hard—but not too hard
In warsaw, ind., Applied Thermal Technologies Inc. specializes in vacuum heat treating and brazing steels and exotic materials. Equipped with nine vacuum furnaces and eight tempering furnaces, the company serves the orthopedic and aerospace industries, said Micky Bradican, president ofApplied Thermal. “While medical implants are usually made of titanium, surgical instruments are typically stainless steel, and aerospace runs that gamut from Inconels to cobalt alloys, titanium and stainless steels,” he said.
Methods of heat treating the metals to increase hardness and tensile strength vary. Steel, a ferrous metal, generally undergoes a two-step process called “quench and temper hardening.” Depending on the chemistry and size of the part, the steel is heated to 1,400° F or higher for a minimum of 30 minutes. Heating repositions the carbon atoms and strengthens the atomic bonds. Th e steel is then quickly quenched in water, oil or air, locking the carbon atoms in place. Tempering, the next step, involves reheating the steel from 200° F to 800° F to reduce some of the hardness, yet retain enough for the part’s intended use.
While quench and temper is used for most steels, it’s not the sole method of heat treating the material. Th e specific chemical composition (percentage of carbon, iron and other alloys) is the determining factor. For instance, the 17-4 PH stainless steel plate for the camera mount cited at the beginning of the main article contains iron, nickel and chromium, and would have required a single-step process (heating at 900° F for 1 hour) to achieve a hardness of 45 HRC.
—D. McCann
Applied Thermal Technologies Receives 100% Approval Rating
February 10th, 2010In January 2010, Applied Thermal Technologies received a perfect rating for delivery and quality from a large orthopedic manufacturing company located in Texas. Applied Thermal prides itself on providing quality customer service and on-time delivery to every customer.
Vacuum Heat Treating
September 6th, 2009Since 1992 Applied Thermal Technologies, Inc. has focused on servicing the medical, orthopedic, aerospace, military, food handling, and stamping industries. Because of the capabilities, quality system, and personal experience of our management group our customer base has grown each year.
We believe our Nadcap accreditation reflects positively on our quality system and standards. Our degreed metallurgists have over a quarter century of experience with heat treating and brazing processes. Our staff is trained and fully capable of meeting your most demanding standards.
Our facilities may be used for production orders, rush orders, prototype orders, R&D, etc. We have various size vacuum furnaces to facilitate your requirements. Consider Applied Thermal Technologies, Inc. for your next request for quotation.