A Diferença entre Significado Físico e Matemático no Ensaio de Carregamento Dinâmico

Doi: 10.47094/COBRAMSEG2024/258

PALAVRAS CHAVE: Ensaio de Carregamento Dinâmico (ECD), Significado Físico, Significado Matemático, Match Quality de Recalques (MQR), Pile Driving Analyzer (PDA).

KEYWORDS: Dynamic Load Test, Physical Meaning, Mathematical Meaning, Match Quality of Settlements (MQS), Pile Driving Analyzer (PDA).

ABSTRACT:
Dynamic Load Testing (DLT) on piles has been used as an alternative to Static Load Testing (SLT), offering cost savings and time reduction. Sensors at the pile top capture signals during the hammer impact. These signals are analyzed using the " Signal-Matching" method to adjust calculated curves to measured data, varying parameters such as shaft friction and toe resistance. Different solutions may yield good " Match Quality" (MQWU). In CAPWAP, quality is traditionally assessed through MQWU, indicating the error between measured and calculated curves. Historically, DLT and SLT correlate well through the Davisson Method. However, Murakami (2015, 2019) observed discrepancies between simulated load vs. displacement curves of CAPWAP and SLT, introducing the " Match Quality" of Settlements (MQS) to enhance the physical meaning of the analysis. Improving MQR also enhances MQWU, achieved by the determination of the pile shaft quake along with two boundary conditions, constituting a New CAPWAP Procedure, resolving the variability of results in uniquely. This paper explores the concepts of physical and mathematical meaning in DLT and their impact on the execution and interpretation of CAPWAP.

Autores

• Daniel Kina Murakami