michel frison

Heat Treat Goes In-House for Medical Device Manufacturer

/ FEATURED NEWS, MEDICAL HEAT TREAT, VACUUM FURNACES NEWS

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Michel Frison
VP Global Sales
Nitrex and G-M Enterprises (Source: Nitrex.com)

A medical device manufacturer has acquired a vacuum furnace that will bring heat treating in-house, reducing lead time and improving process control. The application is for the heat-treatment of steel dies used in the company’s plastic and metal injection molding operations.

The vacuum furnace is the first purchase from G-M Enterprises, a Nitrex company. G-M Enterprises completed the installation at the company’s newly expanded greenfield facility. The turnkey solution features a horizontal front loading vacuum furnace G-M model HVF 101-(I)XB with 6-Bar internal quench capabilities and a work area of 18” x 18” x 24” (457 x 457 x 610 mm), with an all-metal furnace construction. The system is part of the company’s metal injection molding operations.

Vacuum Furnace
Source: Nitrex

"We are proud of continually maintaining G-M Enterprises’ long-standing relationship with the medical industry," said Michel Frison, VP Global Sales, Nitrex and G-M Enterprises, "providing solutions that aid in improving the affordability and accessibility of high-quality healthcare."

(photo source: Yilmaz Akin at unsplash.com)

 

 

 

 

 

 

 

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Heat Treat Abilities for Aerospace Components Expand at U.S. Defense Base

/ AEROSPACE HEAT TREAT, FEATURED NEWS, VACUUM FURNACES NEWS

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Michel Frison
Vice President Global Sales
Nitrex and G-M Enterprises (Source: Nitrex.com)

A turnkey vacuum system will support the expanding in-house heat treat operations of a military base located in the USA. This aviation maintenance, repair, and overhaul facility performs rework of engines and related components.

The new horizontal furnace provided by G-M Enterprises, a Nitrex company, will complement existing vacuum systems from the company that has been in operation since 1989. The supplier will provide all key components, including a horizontal front-loading vacuum furnace with a work zone of 48” wide x 48” high x 72” deep (1220 x 1220 x 1800 mm), a 4,000 lb. (1800 kg) weight capacity, and a 2 bar-quench system in addition to an all-metal hot zone construction, advanced computer-control system, and hydrogen partial pressure capabilities.

Operating at a temperature range of 1000°F to 2400°F (535°C – 1300°C), the furnace will heat treat aircraft engine components.

Michel Frison, vice president of Global Sales, Nitrex and G-M Enterprises said, "Our success with the government’s military bases is about delivering cost-effective, result-oriented heat-treating solutions that support in-house capabilities, improve on the material properties of mission-critical aerospace applications, and can save on manufacturing costs."

Production of the new vacuum furnace is scheduled to start in July 2021.

(Photo source: Pixabay at pexels.com)

 

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Global MIM Manufacturer Purchases 2 Vacuum Furnaces

/ FEATURED NEWS, MANUFACTURING HEAT TREAT, SINTERING POWDER METAL NEWS, VACUUM FURNACES NEWS

A leading, global manufacturer of metal injection molding (MIM) products is bolstering its manufacturing capacity with the addition of two large-size horizontal vacuum furnaces for sintering and debinding MIM products and components. The first of the two furnaces will be delivered this year and the second is scheduled for commissioning in March 2021.

The multimillion-dollar order from the global manufacturer was awarded to G-M Enterprises, a Nitrex company. The 2-Bar vacuum sintering furnaces will feature a work area of 36” wide x 30” high x 84” long (900 x 762 x 2100 mm), 4400 lb. weight capacity, a maximum operating temperature of 2600°F (1430°C), and uniformity of +/-10°F (+/-5.5°C).

Vacuum Furnace (Source: Nitrex.com)

Michel Frison, VP Global Sales, Nitrex and G-M Enterprises (Source: Nitrex.com)

Integral to the vacuum system configuration is a multistage debinder trap system designed to thermally extract binder from the parts. Sintering and debinding occur in a single cycle using a robust and unique system design that is optimized to handle the maximum load capacity the furnace is designed for. Consequently, there is never a need to operate below the rated load capacity to achieve the required part quality. The high-temperature sintering process also ensures a high-quality finished part surface in terms of density, porosity, mechanical resistance, and aesthetics.

“This latest order comes from a customer we have had a strong cooperation with," said Michel Frison, VP Global Sales, Nitrex and G-M Enterprise, "and which will be part of a series of multiple furnaces provided by G-M Enterprises over the past decades."

(photo source: Wikimedia.org)

 

 

 

 

 

 

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