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Applying innovative surface engineering technologies to the energy sector has the potential of reducing annual CO 2-eq emissions by up to 1.8 Gt in 2050 and 3.4 Gt in 2100. This corresponds to 7% and 8.5% annual reduction in the energy sector in 2050 and 2100, respectively. [ 1 ]
MesoCoat was spun out of advanced materials company Powdermet, Inc. in 2007 to be an independent firm. One of the core technologies acquired and licensed for MesoCoat's start-up phase was developed at the Department Of Energy's Oak Ridge National Laboratory. [1] In 2009, Abakan, Inc. acquired a controlling interest in MesoCoat. [2]
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Laser peening (LP), or laser shock peening (LSP), is a surface engineering process used to impart beneficial residual stresses in materials. The deep, high-magnitude compressive residual stresses induced by laser peening increase the resistance of materials to surface-related failures, such as fatigue, fretting fatigue, and stress corrosion cracking.
In October 2018 Artech acquired the talent and technology services business unit of CDI. [16] In May 2021, CDI Engineering Solutions sold its transportation engineering and architecture division known as L.R. Kimball to TranSystems in order to focus on its core chemicals and energy industrial business. [17]
Surface engineering is the sub-discipline of materials science which deals with the surface of solid matter. It has applications to chemistry, mechanical engineering, and electrical engineering (particularly in relation to semiconductor manufacturing). Solids are composed of a bulk material covered by
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The process typically operates at 39–120 °C to avoid thermal damage. It can induce non-thermally activated surface reactions, causing surface changes which cannot occur with molecular chemistries at atmospheric pressure. Plasma processing is done in a controlled environment inside a sealed chamber at a medium vacuum, around 13–65 Pa.