Induction Hardening

The Burton facility in Waterloo, IA is the oldest Advanced Heat Treat Corp. location and specializes in UltraGlow Induction Hardening, Carburizing, Carbonitriding, Stress Relieve, Quench & Temper/Through Hardening, Annealing, Normalizing, Cold Treatment, Oxidation Treatment, Duplex Hardening, Assembly, Cleaning Applications, and MUCH MORE! Here’s a photo of a part being induction heated:

Induction hardening is a method of heating electrically conductive materials to a temperature within or above its transformation range by means of a varying magnetic field. This process generates a voltage which has the ability to create and electric current that dispels energy and produces heat by flowing against the resistance of an imperfect conductor. After the metal is heated, it is immediately quenched. Induction hardening results in a hardened case while the core of the part remains unaffected.

 To find out more about Advanced Heat Treat’s induction hardening process or other heat treat applications, visit their website at www.ahtweb.com.

Conventional Heat Treatments

Carburizing and Carbonitriting give wear resistance and strength to low carbon steels.

Quench & Temper a/k/a Through Hardening, gives strength with controllable hardness to medium and high carbon steels.

Induction Hardening is a selective hardening process with deep case capability.

News and Trends in the Worldwide Heat Treating Industry

The link below will take you to the December 2011 issue of “The Monty” covering the latest news and trends in the worldwide heat treating industry. This issue is sponsored by “Vac Aero”.

http://www.themonty.com/newsletters/themontydecember2011.pdf

Table of Contents includes:

Heat Treat News

Used Equipment

• Batch

• Continuous

• Draw/Temper

• Generator

• Induction

• Miscellaneous

• Salt

• Vacuum

Employment Opportunities

Seeking Employment

 

Case Depth Terms

When applying a heat treatment, such as ion nitriding, to a part, it is important to know the following case depth terms:

Effective Case Depth (ECD):

The distance from the surface of a hardened case where a specified level of hardness is maintained (typically 50 HRC eqv.).

Total Case Depth (TCD):

The distance from the surface of a hardened case to a point where differences in physical properties of the case and core are no longer distinguished (visual or hardness method).

For example:

 For more information, visit www.ahtweb.com.

Honda To Expand Production Of Light Trucks, Engines At Alabama Plant

Bloomberg News (11/15, Ohnsman) reports, “Honda Motor Co., Japan’s third- largest automaker, will spend $84 million and hire 100 more workers to expand production of light trucks and engines at its assembly plant in Alabama.” In a statement, Honda said that “the investment will boost annual capacity for the Lincoln, Alabama, plant to 340,000 vehicles and engines by 2013 from 300,000 now.” Bloomberg News notes, “Asian automakers including Honda are expanding output capacity in North America as US sales recover from a recession in 2008 and 2009. Demand for new cars and trucks grew 10 percent this year through October, and most companies and analysts are forecasting total sales of 12.5 million to 13 million vehicles in 2011.”

The AP (11/15) reports, “The $1.5 billion plant began production with the Odyssey minivan. The plant employs about 4,000 people and is the sole North American producer of the Odyssey, the Pilot SUV and the Ridgeline pickup.”

The Birmingham Business Journal (11/15, Poe, Subscription Publication) reports, “The latest investment, which brings Honda’s total investment this year up to $275 million and 140 jobs, is tied to the addition of the Acura MDX luxury SUV to the plant’s production lineup, the company said.”

On its website, WLTZ-TV Columbus, GA (11/15) notes, “In 2013, the Lincoln plant will start making the luxury Acura MDX sport utility vehicle.”

Also covering the story are the Anniston Star (11/15, McCreless), WVTM-TV Birmingham, AL (11/15, Jackson) and other media sources.

Read the article here: http://www.businessweek.com/news/2011-11-16/honda-expanding-alabama-plant-to-lift-light-truck-engine-output.html

Did you know Advanced Heat Treat Corp. has a location in Alabama?

The Cullman Facility is located at: 1545 County Rd. 222 Cullman, AL 35057 and specializes in heat treat services such as: Ion Nitriding, Ferritic Carburizing, Stress Relieve, Oxidation Treatment, Duplex Hardening, Assembly, Cleaning Applications, Metallurgical Services & Consultation, Tempering/Drawing, Polishing, and Failure Analysis.

Ion Nitriding Frequently Asked Questions

Will my part have any growth and/or shrinkage from UltraGlow® Ion Nitriding?

Generally, your parts will have minor growth depending on the process that you are requesting. The growth will be dependent on the amount of compound zone (white layer) that is required/achieved during processing. The standard rule of thumb is ~70% of the CZ Layer thickness.

How does AHT know that my parts met the right hardness and case depth specified?

When processing your parts, an AHT sample of similar material and/or customer supplied sample will be processed with the parts. After processing, a full metallurgical evaluation will be performed in order to document the results achieved.

What will happen to parts that I have repair welded?

The weld repair should nitride dependent on the material. If you have made weld repairs, it is imperative that you provide the welding material to AHT prior to processing as it may respond different to nitriding than the base material(s).

I have heard of UltraGlow® Ion Nitriding but do not know exactly what it is?

The process is conducted in a vacuum chamber back-filled to a very low pressure with a mixture of nitrogen and other gases. A high voltage electrical charge forms plasma from the gas mixture. Nitrogen ions then accelerate through the plasma and impinge on the workpiece. The ion-bombardment process heats the workpiece, cleans its surface, and results in absorption of active nitrogen into the surface of the material producing a “hardened case”.

How long does UltraGlow® Ion (Pulse Plasma) Nitriding take?

Due to the various materials and/or requirements the UltraGlow® Ion (Pulse Plasma) Nitriding process can take anywhere from a few hours up to a few days.

What do I need to do to my parts after UltraGlow® Ion Nitriding?

UltraGlow® Ion (Pulse Plasma) Nitriding is generally performed on “finished” machined parts. After processing, a light polishing of the part(s), if required, will bring your part back to the required surface finish with no affect to the nitrides.

What information do you need before you can quote/process my parts?

At a minimum, we need the following information:
• Material/Steel number
• Type of heat treat requested
• Surface hardness
• Case depth
You may also include the following additional information:
• Core hardness
• Selective location for heat treat
• Any previous heat treat/thermal processing on parts

When is carbonitriding better than carburizing?

Carbonitriding (CN) is a very effective case hardening process, and it can be used on a variety of low carbon steels. CN is well suited for sheet steel and 10xx, 11xx, and 12xx series steels. The addition of nitrogen to the case hardening process allows the case hardened layer to react and form a harder case than would typically be provided with carburizing alone. The CN is also a lower temperature process, which can contribute to lower distortion.