STRESS RELIEVING TECHNICAL CONTENT

Heat Treating Mold Base Materials for Optimal Conditions

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Source: ETMM-online

 

Heat treating plays a critical role in the making of a mold base, notes an Austrian manufacturer of standard parts for mould bases and die sets in a recent process prHigh-precision mould bases from stress relieved high-grade steel.ofile in ETMM-online.

An excerpt:

"Heat-treat[ing] all steel plates for stress relief . . . at approximately 580°C [1076°F] for 24 hours . . . creates optimal conditions for low-deformation processing of parts. . . . With stress-relieving heat treatment, the tension in the material is minimized without changes to the microstructure or strength. This is a great advantage during subsequent machining. If there was still tension in the material, it would, for example, cause deformation during sawing or milling. During stress-relieving, it is important to heat the plates slowly and consistently and then maintain this temperature for six hours."

Read more: "Producing the Ideal Material for Making a Mould Base"

 

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Vacuum Heat Treatment’s Role in Additive Manufacturing (AM) 3D Printing

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BOTW-50w  Source:  Global Heat Treatment Network

“Vacuum heat treatment tasks for AM manufactured parts is the same process as  traditional subtractive manufacturing and its purpose is to assure AM parts has the correct physical and metallurgical properties for specific applications.  In some cases, when a bidder is involved, the purpose of the heat treatment process is to deciding and sinter parts. Most vacuum furnaces use up to 800°C degrees to relieve stress and a higher temperature of up to 1800°C for other processes.

Vacuum furnaces with high vacuum levels are preferred to heat treatment equipment to process AM parts. AM parts made from Titanium, Cobalt, Aluminum require vacuum levels of up to 10-6 mbar with 99.9995 Argon purity.  Argon is the preferred gas because of its neutrality and that it has no adverse reaction with the above alloy components.  Creating an Alfa surface layer on titanium parts is not desirable and should be avoided.

The small parts and small production volume influences vacuum furnaces of small to medium size. The next challenge for the heat treatment industry is to integrate heat treatment process into the AM equipment in one continuous process.”

Read More:  Amazing Vacuum Furnaces:  Vacuum Heat Treatment’s Role in Additive Manufacturing 3D Printing by Janusz Kowalewski

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