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- Title
MODELAGEM NUMÉRICA E SOFTWARE PARA DETERMINAR OS PARÂMETROS ESTÁTICOS E DE LIGAÇÃO DOS ORGANISMOS EM CRESCIMENTO NO PROCESSO DE TRANSFERÊNCIA ADITIVA NÃO ESTACIONÁRIA DE CALOR E MASSA.
- Authors
KUZNETSOVA, Ekaterina L.; RABINSKIY, Lev N.
- Abstract
Currently, methods of three-dimensional printing of products from polymer, metal and ceramic materials are widely used. Layer-by-layer synthesis technologies make it possible to obtain high-quality products with sufficiently high mechanical characteristics close to those realized using traditional technological processes. A related problem is solved, including calculating the temperature in the product and the operation area surrounding it in a flat setting based on two different approaches. For a layer-by-layer extensible body, the unsteady heat conduction problem is stated. At each step, the height of the computational region increases due to the filling of a new layer of powder. One time step of the calculation is determined by the interval between two consecutive passes of the laser. The temperature distribution found at each step is used as the initial conditions for the calculations at the next step. The temperature field obtained as a result of solving the problem that is implemented in the product in question with a step of 1000 (after applying and melting 1000 layers) is further compared with the solution of the quasi-stationary problem for the finite dimensions product. Using the example of the simple geometry taken, it is shown that a quasi-stationary solution can provide a satisfactory estimate of the macroscopic thermal state of the growing product.
- Subjects
CERAMIC metals; THREE-dimensional printing; TEMPERATURE distribution; HEAT conduction; LASER heating
- Publication
Periódico Tchê Química, 2019, Vol 16, Issue 33, p472
- ISSN
1806-0374
- Publication type
Article