API version 7.1
JMatPro® API v7.1, June 2022
Extended Mechanical module with the calculation of tempered hardness for general steels
Improved Cu effect in the mechanical properties of aluminium alloys
Improved assessment of kinetics for some phases of aluminium alloys
Completed and corrected physical properties for TIM_B2 phase of titanium alloys
Fixed Solidification calculations for aluminium alloys containing oxygen
Fixed a possible issue affecting Cooling calculations
Added full Python wrapper and sample code for all available modules
JMatPro® API v7.0, December 2021
Improved quench from Scheil-Gulliver solidification model for steels to deal with cases where austenite only appears in the solid state
Reassessed yield strength <-> tensile strength <-> hardness interconversions for steels
Extended Mechanical module for aluminium alloys, including the calculation of room-temperature and high-temperature strength, as well as flow stress and age hardening curves
Remodelled contribution of particles at grain boundaries to rupture life in Ni alloys
Improved calculation of the elastic limit (point of the stress-strain curve at 0 strain)
Moved jmpSetQuenchRate() to the Core module
Added function to toggle elastic region in flow stress curves on or off
Changed the strain rate decade subdivision method used in high-temperature strength and flow stress calculations to produce nicer values
Updated the thermodynamic and properties databases to match those included in JMatPro® v13.0
Added NIW and NI6SI2B phases to Ni thermodynamic database
Adjusted MC phase in Ni and Co thermodynamic databases
Added AL12MO phase to Al thermodynamic database
Added CLUSTER metastable phase to Al thermodynamic database
Adjusted MGRE12 phase in Mg thermodynamic database
Reassessed thermal conductivity contribution for Cu and Si in FCC phase
Reassessed thermal conductivity for magnesium alloys with significant Al content
Fixed bug in Cooling calculations occurring with some user-defined profiles
Fixed mismatching problems in Solidification calculations using the quench from Scheil-Gulliver model for steels or white cast irons with out-of-step austenitisation temperatures
Fixed missing reset in Solidification calculations using the quench from Scheil-Gulliver model for steels, which could lead to wrong behaviour for ferritic steels with secondary phases