Chun Cheng scite author profile

This article presents results from a series of K o -consolidated compression and extension triaxial tests on specimens from undisturbed samples of Hong Kong Marine Deposits (HKMD). To investigate the strain-rate effects, a total of seven K o -consolidated triaxial tests were conducted including four compression tests and three extension tests. After K o -consolidation, the triaxial test specimens were sheared at step-changed axial strain rates under three different confining pressures of 50 kPa, 150 kPa, and 400 kPa, respectively. The step-changed strain rates were applied in the following order: þ2%=h, þ0.2%=h, þ20%=h, À2%=h (unloading) and þ2%=h (reloading) for the four compression tests and À2%=h, À0.2%=h, À20%=h, þ2%=h (unloading) and À2%=h (reloading) for the three extension tests. The results are reported and analyzed in the paper. The results show that the strain rate effects, the stress-strain characteristics, and the effective stress paths of the specimens for tests in a compression state are different from those for tests in an extension stage. One order of magnitude increase in axial strain rate causes an average 8.6% increase in undrained shear strength for compression tests and a 12.1% increase for extension tests. It is also found that the failure mode of the specimens in compression is different from that in extension. The stress-strain behavior of specimens shows strain-softening and a clear shear band in compression tests, but strain-hardening without any clear shear band in extension tests for the same absolute value of axial strain.The territory of Hong Kong located in the south of China is very hilly. Approximately two-thirds of the territory's land is considered unsuitable for development. Due to the increasing need of land for buildings and infrastructure, a number of large-scale marine reclamation works have been constructed in Hong Kong over the last two decades. This trend will continue for the near future.

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A multi-mechanism model for cutting simulations combining visco-plastic asymmetry and phase transformation

Mahnken¹,

Wolff²,

Cheng³

2013

International Journal of Solids and Structures

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Large deflection of elastic composite circular springs under uniaxial compression

Tse

Lai

et al. 1994

International Journal of Non-Linear Mechanics

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Evaluation of different approaches for modeling phase transformations in machining simulation

Schulze

Uhlmann

Mahnken

et al. 2015

Prod. Eng. Res. Devel.

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Presently, the main mechanism for phase transformations in machining of steels is not absolutely clear and is still subject to research. This paper presents, three different approaches for modeling phase transformations during heating in machining operations. However, the main focus lies on two methods which can be classified into a stress related method and a thermal activation related method for the description of austenitization temperature. Both approaches separately showed very good agreements in the simulations compared to the experimental validation but were never compared in a simulation. The third method is a precalculated phase landscape assigning the transformation results based on a micro-mechanically motivated constitutive model to the workpiece in dependence on the temperature and strain history. The paper describes all three models in detail, and the results are also presented and discussed.

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Chun Cheng

Large deflections of elastic composite circular springs under uniaxial tension

Comparison of Strain-rate Dependent Stress-Strain Behavior fromK_o-consolidated Compression and Extension Tests on Natural Hong Kong Marine Deposits

A multi-mechanism model for cutting simulations combining visco-plastic asymmetry and phase transformation

Large deflection of elastic composite circular springs under uniaxial compression

Evaluation of different approaches for modeling phase transformations in machining simulation

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Chun Cheng

Large deflections of elastic composite circular springs under uniaxial tension

Comparison of Strain-rate Dependent Stress-Strain Behavior fromKo-consolidated Compression and Extension Tests on Natural Hong Kong Marine Deposits

A multi-mechanism model for cutting simulations combining visco-plastic asymmetry and phase transformation

Large deflection of elastic composite circular springs under uniaxial compression

Evaluation of different approaches for modeling phase transformations in machining simulation

Contact Info

Product

Resources

About

Comparison of Strain-rate Dependent Stress-Strain Behavior fromK_o-consolidated Compression and Extension Tests on Natural Hong Kong Marine Deposits