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Determining oxygen content in different atmospheres is a demanding task: Messer’s oxygen sensor is based on well-established technology with a design that allows measurements in a wide range of atmospheres.
Learn more about the physics behind sub-zero treatment and how Messer's technologies may meet all your sub-zero treatment needs.
Messer‘s ASURE3D™ atmosphere control uses state-of-theart engineering to continuously analyze the gas atmosphere in your powder chamber with high precision and without cross-sensitivity.
3D printing (also called additive manufacturing) of metals has only been developed in the last few years but is already seen as one of the technologies for the future. 3D printing involves the use of a variety of gases at different stages of the production chain. Messer ASURE3D™ equipment and system atmosphere control uses state-of-the art technology to continuously analyze the gas atmosphere in your build chamber with high precision and without cross-sensitivity.
If your business depends on industrial gases, you need a dependable supplier of quality products. You also need a leader in industrial gas technologies, committed to delivering solutions that create value in areas of productivity, quality and reduced operating costs that allow you to maintain focus on your core business. This is where Messer excels, and these pillars form the cornerstone of our success.
Welcome to the epicenter of innovation and customer solutions in applied gas technologies - the Messer Technical Center in Cleveland, Ohio. Here, our team of Messer engineers demonstrate leading application technologies to customers and innovate to address emerging industry needs.
Gas inner cooling for fast and economical production.
Uniform heating for higher productivity, no hot spots and less emissions.
Messer’s high-speed gas injection for advanced heat treatment is a patented technology which allows for better gas convection in heat treatment furnaces without fans.
The Messer high pressure liquid pump is a modern, cost and energy-efficient unit that delivers nitrogen at high pressure. It doesn‘t degrade the gas purity when liquid nitrogen is gasified. If you're looking for high-pressure nitrogen or argon supply, look no further.
The Messer nitrogen-methanol based atmosphere system generates a very flexible, high-quality atmosphere for carburizing, neutral hardening, annealing and sintering of steel. The nitrogen-methanol atmosphere system includes media storage and supply, flow control, distribution to the furnace, intake into the furnace and atmosphere control.
Messer ACS is an atmosphere control system designed for advanced atmosphere control during carburizing, neutral hardening and annealing in continuous furnaces. The system allows you to have control over the carbon potential in up to four zones per furnace as well as to optimize the heat treatment cycle. The functions of this system provide an indispensable tool in quality assurance work.
In stainless steel annealing, Messer’s atmosphere control system monitors the atmosphere in continuous and batch furnaces and controls the amounts of gases introduced into the furnace (hydrogen and nitrogen).
The powder metallurgy (PM) industry is challenged to increase the quality and consistency of sintered parts. Messer has developed a technology to control the sintering process and improve the mechanical strength of sintered parts.
The flameless Messer OXIPYR LEAF air-oxy fuel burner offers on-demand and adjustable productivity, superior temperature uniformity, cost savings and low NOx emissions.
Messer's foam injection molding technology is a less expensive, more flexible process for light-weighting molded plastic parts.
Messer's spot mold cooling technology delivers cold to the core for faster injection molding.
Do you need more from your reheating furnace without a major capital investment? Messer's OXIPYR pure oxygen technology - for superior melting and reheating of steel and other metals - can help.
"We were looking for quick, low capital improvements that could increase production without adding labor. As a result, we’re seeing lowered refractory temperatures, increased melt rates and reduced dross formation in the hearth...even a small percentage increase in production translates to significant savings and positive impact on our bottom line."