Developed software can be used for mathematical modeling of additive process of formation of steel, titanium and aluminum alloys structures.
320 ☌ should be used to prevent noticeable deformation of the substrate. In additive manufacturing process, preheating to at least 300. It is determined that increasing the number of deposited layers provokes a nonlinear rise of a level of stress at the additive layer / substrate boundary and does not depend on the number of deposited layers in time.
Stresses between the layers of deposited metal are significantly lower (to 50 MPa). iii) a specific demonstration on prediction of properties and phases of materials. SIMHEAT® is the effective solution to simulate metallic alloy (including carbon steel and aluminum) heat treatment processes and gain true workpiece distortion, residual stress, and microstructural evolution insights. With JMatPro, for example, advanced prediction and modelling of phase. g., density, specific heat, and thermal conductivity) and phase transformations in. Two alloys aimed at fulfilling the specifications for the two DEMO operating. SIMHEAT® is simulation software dedicated to the heat treatment process. JMatPro software 9 is widely used to perform thermodynamic calculations, and predict physical properties (e. Carried investigation showed that the highest level of residual stresses and deformations in the additive deposition of 09G2S steel layers on the substrate is reached at the boundary of the first layer and substrate and makes 280 - 320 MPa. Calculation of the stability of carbide and nitride phases (JMatPro-v5). Some physical-thermal properties of 09G2S steel were calculated using JmatPro® 6.0 software package. The results for modeling were obtained using Gleeble 3800, a complex for simulation of thermal deformation state of welding thermal cycle. Effect of temperature on physicochemical parameters of steel was taken into account in the work.
An interdisciplinary research computational package COMSOL Multiphysics® was used for computer modeling. It also adds the sonic capabilities of FM, modeling of natural sounds and advanced wavetable synthesis latter can be learned and used quickly with Zebralette, which is an included mini-Zebra. The results of modeling of thermal fields, stresses, deformations and displacements in formation of an additive structure from structural low alloy steel for welding 09G2S on a substrate are presented. With version 2, Zebra has not only become an even more wireless modular synth.