Detection of contact failures employing combination of integral transforms with single-domain formulation, finite differences, and Bayesian inference

“…Using a single-domain formulation (Mascouto et al 2020) and taking in consideration the mentioned assumptions, the heat conduction problem can be written as…”

“…More specifically, defect identification in the process of bonding among different materials can be formulated as a multilayered media and solved as an Inverse Heat Conduction Problem (IHCP), where estimating the positioning of air gaps, oil bubbles, and cracks, usually is performed by estimating thermophysical properties of the adhesive layer. Therefore, estimating heterogeneity in this layer may be crucial to evaluate the bonding quality (Abreu et al 2014, 2016, Mascouto et al 2020.…”

“…In order to test this approach, the problem of contact failures identification was chosen, where two materials are joined with an adhesive layer. Gaps of air can form in this layer, meaning that the adhesion process is not perfect (Abreu et al 2014, 2016, Mascouto et al 2020. Identifying the thermal properties of this layer containing gaps is crucial to access the adhesion quality in manufacturing and preventive maintenance.…”

Contact Failure Identification in Multilayered Media via Artificial Neural Networks and Autoencoders

“…Using a single-domain formulation (Mascouto et al 2020) and taking in consideration the mentioned assumptions, the heat conduction problem can be written as…”

“…More specifically, defect identification in the process of bonding among different materials can be formulated as a multilayered media and solved as an Inverse Heat Conduction Problem (IHCP), where estimating the positioning of air gaps, oil bubbles, and cracks, usually is performed by estimating thermophysical properties of the adhesive layer. Therefore, estimating heterogeneity in this layer may be crucial to evaluate the bonding quality (Abreu et al 2014, 2016, Mascouto et al 2020.…”

“…In order to test this approach, the problem of contact failures identification was chosen, where two materials are joined with an adhesive layer. Gaps of air can form in this layer, meaning that the adhesion process is not perfect (Abreu et al 2014, 2016, Mascouto et al 2020. Identifying the thermal properties of this layer containing gaps is crucial to access the adhesion quality in manufacturing and preventive maintenance.…”

Contact Failure Identification in Multilayered Media via Artificial Neural Networks and Autoencoders

“…O uso da transformac ¸ão integral para obter informac ¸ões sobre as características internas ou causas em processos de transferência de calor vem sendo alvo de diversos estudos, como, por exemplo Naveira- Cotta (2011b), que introduziu o uso de dados de medic ¸ão de temperatura transformada integral para a soluc ¸ão de problemas de transferência de calor inverso objetivando a estimativa simultânea de condutividade térmica espacialmente variável e difusividade térmica na conduc ¸ão de calor unidimensional em meios heterogêneos; Sanches et al (2021) utiliza uma formulac ¸ão explícita com auxílio da transformac ¸ão integral para formular e abordar a validac ¸ão experimental da estimativa explícita de fluxos de calor contorno variáveis no tempo em placas termicamente finas empregando medidas de temperatura obtidas por termografia infravermelha; Knupp (2021) apresenta uma abordagem baseada em um problema de minimizac ¸ão simples, onde é feita a estimativa direta e simultânea da condutividade térmica e capacidade térmica em meios heterogêneos, aplicando diretamente as medidas de temperatura na equac ¸ão de conduc ¸ão de calor transformada; Mascouto et al (2020) coma auxílio da transformac ¸ão integral e diferenc ¸as finitas, em uma formulac ¸ão de domínio único, faz estimativa da condutividade térmica para identificac ¸ão de falhas de contato, considerando um problema de conduc ¸ão de calor dentro de um tubo multicamadas; Abreu et al (2018) faz a detecc ¸ão de falhas de contato, através de um problema inverso de conduc ¸ão térmica, em compósitos laminares, utilizando o método Monte Carlo em cadeia de Markov com medidas transformadas.…”

Esquema Explícito Com Transformações Integrais Para Reconstrução De Termos-Fonte Em Problemas De Condução Do Calor Em Meios Heterogêneos

Integral transforms for explicit source estimation in non-linear advection-diffusion problems