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for the three alloys with Zr content increasing. The calculated mass fractions of carbides are 0.0450.17 wt.
JMATPRO SOFTWARE
“Leading European steel manufacturers such as Georgsmarienhütte use JMatPro to reduce development time. The mass fractions of M 6 C carbides in the three alloys were calculated by JMatPro software (Fig. Metatech is the exclusive sales and implementation partner for the system in Germany, Austria and Switzerland. JMatPro is the unique and tried-and-tested tool for calculating temperature-dependent material properties for a large number of technical multi-component. Uwe Diekmann, managing director of Metatech GmbH in Kamen, Germany. “Sente Software Ltd designed the software application so that it can be used by any engineer or scientist that requires materials properties as part of their everyday work.” explains Dr. The software has been used successfully for many years in the areas of materials development, for instance in steel related industries, as well as in the areas of process modeling and product development like in the automotive industry. For steels, re-austenitization calculations and time-temperature-austenitization (TTA) diagrams have also been added in the new version. Moreover, the data export capabilities to CAE tools have been further expanded to Deform, Simufact, Forge and similar tools. The new version includes numerous enhancements, such as the calculation of flow curves as a function of temperature and strain rate. It combines solid and user-friendly thermodynamics (CalPhad) with the calculation of. Version 6.0 of t JMatPro is available since November 2010. JMatPro (Java-based Material Properties) closes these gaps in data. In addition, the software determines mechanical properties like strength and hardness and phase transformations like time-temperature transformation (TTT) diagrams. It calculates phase equilibria and thermo-physical data, such as heat capacity and thermal expansion. steels as well as nickel, aluminum, and titanium alloys. The material simulation software is available for many alloy systems, e.g. It combines solid and user-friendly thermodynamics (CalPhad) with the calculation of material properties based on physical models. JMatPro (Java-based MATerial PROperties) closes these gaps in data.
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FactSage, MTDATA, PANDAT, MatCalc, JMatPro, and Thermo-Calc as well as open-sources codes such as OpenCalphad, P圜alphad, and ESPEI (see 'External links' below). Because of the great effort involved in traditional testing, data is often scarce or inconsistent, especially for new products or multi-components alloys. CALPHAD had a slow start in the 60s but sophisticated thermodynamic data bank systems started to appear in the 80s and today there are several commercial products on the market, e.g. For these two chemical compositions, the TTT (Time-Temperature-Transformation) and CCT (Continuous-Cooling-Transformation) curves were constructed, to study the solution annealed specimen, using JMatPro software. However, this materials data is an important basis for the optimization of products and processes. For the study of single aging, two different heats are being utilized. Although engineers have common and easy access to geometrical data for CAE and FEM software, there is a lack of accurate materials data for use with such softwares.