Control of Jet Flows and their Effects on the Alignment of Electrospun Nanofibers
p.274
p.274
A Service Life Prediction for Waste Disposal Concrete under Carbonation
p.279
p.279
A Service Life Prediction for Waste Disposal Facility Concrete Exposed to Chloride Attack
p.284
p.284
Effects of Antibacterial Treatment Temperature on the Properties of Copper-Bearing Antibacterial Duplex Stainless Steels
p.289
p.289
The Precipitation and Dissolution of Alloy Iron Carbides in Vacuum Carburization Processes for Automotive and Aircraft Applications - Part I
p.297
p.297
The Precipitation and Dissolution of Alloy Iron Carbides in Vacuum Carburization Processes for Automotive and Aircraft Applications - Part II
p.303
p.303
Solvothemal Synthesis and Characterization of α-MnS Micronsized Architectures
p.309
p.309
Finite Element and Experimental Investigation of Human Femur Cortical Bone Microdamage during Radial Fretting
p.313
p.313
Corrosion Behavior of Zr-Based Bulk Metallic Glasses by Addition of Ni
p.321
p.321
The Precipitation and Dissolution of Alloy Iron Carbides in Vacuum Carburization Processes for Automotive and Aircraft Applications - Part I
Abstract:
The article is dedicated to the experiments and tests on the phenomena of precipitation and dissolution of alloy iron carbides in vacuum carburization processes. This researches was done in order to evaluate to the possibility of using artificial neural networks to predict the speed of the processes examined (it is described in the part II). In the section below, we are presenting the precipitation phenomena taking place in vacuum carburization processes and the experiments that were conducted.
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Info:
Periodical:
Advanced Materials Research (Volume 486)
Pages:
297-302
Citation:
Online since:
March 2012
Keywords:
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