Tomonori Ohno scite author profile

The aim of this study was to experimentally examine the impact response of a RPC (Reactive Powder Concrete) beam and develop an analytical model to represent its impact response. Thus, a drop hammer impact test was performed to investigate the influence of drop height of the hammer on the impact response of the RPC beam. Subsequently, a static flexural loading test was conducted to find out the residual load carrying capacity of the RPC beam after impact loading. In the impact analysis, the two degrees of freedom mass-spring-damper system model was used. The analytical results were in good agreement with the experimental results when high damping for the local response at the contact point was assumed.

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Proton Beam Therapy Combined With Concurrent Chemotherapy for Esophageal Cancer

Ishikawa

Okumura

Ohno

et al. 2014

International Journal of Radiation Oncology*Biology*Physics

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Damage evaluation of concrete plates by high-velocity impact

Beppu

Miwa

Itoh³

et al. 2008

International Journal of Impact Engineering

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Outcomes and Prognostic Factors for Recurrence After High-Dose Proton Beam Therapy for Centrally and Peripherally Located Stage I Non–Small-Cell Lung Cancer

Kanemoto

Okumura

Ishikawa

et al. 2014

Clinical Lung Cancer

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Effects of Strain Rate on Tensile Behavior of Reactive Powder Concrete

Fujikake

Senga

Ueda³

et al. 2006

ACT

113

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Reactive Powder Concrete (RPC) reinforced with short steel fibers is characterized by ultra-high strength and high fracture toughness. Because of its excellent properties, RPC may be suitable as an advanced material for reinforced concrete structures subjected to impact loading. Thus, the objective of this study was to find out the effects of strain rates on tensile behaviors of RPC specimens subjected to rapid loading. The influence of the loading rates on failure modes, tensile stress-elongation curves and tensile stress-crack opening curves was investigated. Furthermore, based on the test results, a rate-dependent bridging law expressing the relation between tensile stress and crack opening was proposed.

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Tomonori Ohno

Study on Impact Response of Reactive Powder Concrete Beam and Its Analytical Model

Proton Beam Therapy Combined With Concurrent Chemotherapy for Esophageal Cancer

Damage evaluation of concrete plates by high-velocity impact

Outcomes and Prognostic Factors for Recurrence After High-Dose Proton Beam Therapy for Centrally and Peripherally Located Stage I Non–Small-Cell Lung Cancer

Effects of Strain Rate on Tensile Behavior of Reactive Powder Concrete

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