X. Chen scite author profile

X. Chen

5Publications

55Citation Statements Received

5Citation Statements Given

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Arizona State University

Publications

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Decoupling the role of stress and corrosion in the intergranular cracking of noble-metal alloys

et al. 2018

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Intergranular stress-corrosion cracking (IGSCC) is a form of environmentally induced crack propagation causing premature failure of elemental metals and alloys. It is believed to require the simultaneous presence of tensile stress and corrosion; however, the exact nature of this synergy has eluded experimental identification. For noble metal alloys such as Ag-Au, IGSCC is a consequence of dealloying corrosion, forming a nanoporous gold layer that is believed to have the ability to transmit cracks into grain boundaries in un-dealloyed parent phase via a pure mechanical process. Here using atomic-scale techniques and statistical characterizations for this alloy system, we show that the separate roles of stress and anodic dissolution can be decoupled and that the apparent synergy exists owing to rapid time-dependent morphology changes at the dealloyed layer/parent phase interface. We discuss the applicability of our findings to the IGSCC of important engineering Fe- and Ni-based alloys in critical applications.

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Pulse generation scheme for low-power low-complexity impulse ultra-wideband

Chen

Kiaei

2007

Electron. Lett.

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CONTROL-ID: a demonstration prototype for control-relevant identification

Rivera

Gaikwad

Chen

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CONTROL-ID: A Demonstration Prototype for Control-Relevant Identification of Process Systems

Rivera

Gaikwad

Chen

et al. 1994

IFAC Proceedings Volumes

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Enabling Software-Defined RF Convergence with a Novel Coarse-Scale Heterogeneous Processor

Bliss

Ajayi

Akoglu

et al. 2022

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X. Chen

Decoupling the role of stress and corrosion in the intergranular cracking of noble-metal alloys

Pulse generation scheme for low-power low-complexity impulse ultra-wideband

CONTROL-ID: a demonstration prototype for control-relevant identification

CONTROL-ID: A Demonstration Prototype for Control-Relevant Identification of Process Systems

Enabling Software-Defined RF Convergence with a Novel Coarse-Scale Heterogeneous Processor

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