Practice for In Field Immersion Testing of Geosynthetics

Abstract In this study, hydroxyapatite-reinforced ZK60 Mg alloybased composites were fabricated via a powder metallurgy route. The mechanical properties of these composites were studied by compressive tests and hardness tests. The in-vitro corrosion behavior was also investigated using immersion testing and electrochemical measurement. The influence of hydroxyapatite content on the mechanical properties and invitro corrosion behavior was evaluated. The microstructure and corrosion morphology were characterized by means of X-ray diffraction, optical and scanning electron microscopy. The results showed that the composite materials with 10 wt.% hydroxyapatite exhibited a better combination of mechanical strength and corrosion resistance. Compared with ZK60 alloy, the addition of 10 wt.% hydroxyapatite resulted in an increase in corrosion resistance by 38.6%.

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Immersion Testing

Corrosion: Fundamentals, Testing, and Protection ◽

10.31399/asm.hb.v13a.a0003645 ◽

2003 ◽

pp. 463-469

Keyword(s):

Immersion Testing

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Application of Fourier-Domain Post-Processing Technique for Ultrasonic Imaging with Matrix Phased Arrays in Advanced Manufacturing of Details and Machines

Materials Science Forum ◽

10.4028/www.scientific.net/msf.938.81 ◽

2018 ◽

Vol 938 ◽

pp. 81-88 ◽

Cited By ~ 1

Author(s):

Dmitry Dolmatov ◽

Yana Salchak ◽

Dmitriy Sednev ◽

Roman Pinchuk

Keyword(s):

Phased Arrays ◽

Experimental Testing ◽

Ultrasonic Imaging ◽

High Sensitivity ◽

Processing Technique ◽

Post Processing ◽

Real Component ◽

Suggested Technique ◽

Immersion Testing ◽

Control Procedures

Quality of the components in the mechanical engineering is of the utmost importance. Most of quality control procedures can be provided by advanced quality assurance methods that enable visualization of inner structure of a component within all of the occurring defects. This paper suggests an innovative post-processing technique for Full-Matrix ultrasonic imaging with Matrix phased arrays in the case of immersion testing. Evaluation of the reliability was performed by simulation via CIVA software as well as by experimental testing of a real component with given defects. The obtained results of the research demonstrated high sensitivity and accuracy of the suggested technique.

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Effect of Manganese on Discharge and Corrosion Performance of Magnesium Alloy AP65 as Anode for Seawater-Activated Battery

CORROSION ◽

10.5006/0010-9312-68.5.388 ◽

2012 ◽

Vol 68 (5) ◽

pp. 388-397 ◽

Cited By ~ 14

Author(s):

N.-G. Wang ◽

R.-C. Wang ◽

C.-Q. Peng ◽

Y. Feng

Keyword(s):

Magnesium Alloy ◽

Mass Fraction ◽

Electrochemical Measurement ◽

The Self ◽

Discharge Process ◽

Nacl Solution ◽

Corrosion Performance ◽

Corrosion Morphology ◽

Immersion Testing ◽

Discharge Potential

Magnesium alloys AP65 with and without 0.3% (mass fraction) manganese additions were prepared by melting and casting. Their discharge and corrosion behavior in 3.5% sodium chloride (NaCl) solution was investigated with electrochemical measurement, immersion testing, and corrosion morphology observation. The results show that manganese promotes the grain refinement and reduces the self corrosion rate of AP65 alloy. Magnesium alloy AP65 added with manganese provides a more negative discharge potential than that without the addition of manganese, attributed to the homogeneously distributed Al11Mn4 particles, which facilitate the self-peeling of corrosion products during the discharge process. This means that the discharge and corrosion performance of AP65 alloy can be improved by adding manganese.

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Effects of Laser Shock Peening on the Wear and Degradation Behaviors of Magnesium Alloys

Volume 2: Materials; Biomanufacturing; Properties, Applications and Systems; Sustainable Manufacturing ◽

10.1115/msec2016-8689 ◽

2016 ◽

Cited By ~ 1

Author(s):

Ruixia Zhang ◽

Xiaoning Hou ◽

Xianfeng Zhou ◽

Hongyu Gao ◽

Steven Mankoci ◽

...

Keyword(s):

Mechanical Properties ◽

Wear Resistance ◽

Body Fluid ◽

Laser Shock Peening ◽

Mg Alloy ◽

Laser Shock ◽

Before And After ◽

Immersion Testing ◽

Degradation Behaviors ◽

Shock Peening

In this study, we investigated the mechanical properties of AZ31B Mg alloy before and after laser shock peening (LSP). The hardness of the AZ31B Mg alloy increased from 57 HV to 69 HV after LSP. The yield strength increased from 128 MPa to 152 MPa. Wear resistance was significantly improved after LSP. Immersion testing showed that LSP did not significantly increase the element release and weight loss in simulated body fluid. We have demonstrated that LSP is an effective way to improve the mechanical properties of the AZ31B Mg alloy.

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Contamination of Flexible Pouches Challenged by Immersion Biotesting†

Journal of Food Protection ◽

10.4315/0362-028x-59.7.764 ◽

1996 ◽

Vol 59 (7) ◽

pp. 764-767 ◽

Cited By ~ 13

Author(s):

BARBARA A. BLAKISTONE ◽

SCOTT W. KELLER ◽

JOSEPH E. MARCY ◽

GEORGE H. LACY ◽

CAMERON R. HACKNEY ◽

...

Keyword(s):

Food Packaging ◽

Channel Length ◽

Test Methods ◽

Contamination Rate ◽

Pseudomonas Fragi ◽

Plastic Packaging ◽

Critical Defect ◽

Test Organisms ◽

Immersion Testing ◽

Packaging Industry

Immersion biotesting has long been used to challenge packages, particularly cans, for pinholes and channel leaks. Such testing for all types of plastic packaging may not be appropriate because some packages (e.g., aseptic, hot fill) are not exposed to water. As the food-packaging industry develops alternative environmental biotests there is a need to benchmark them against traditional immersion testing. The purpose of this research was to examine the threshold of critical-defect dimensions using artifically created channel leaks of 10 and 20 μm and 5- and 10-mm lengths sealed into plastic pouches which were subsequently tested by immersion at 102 and 106 CFU of motile and nonmotile Pseudomonas fragi TM849 per ml. Forty-four percent (44%) of the pouches tested became contaminated, indicating the threshold defect value is below 10 μm. Microbial ingress was significant (P < .05) for motile test organisms with a concentration of 106 CFU/ml. The interaction of concentration and time was also significant at 102 CFU/ml at 30 min exposure and 106 CFU/ml at 15 min. Channel length was not statistically significant. The markedly greater contamination rate using immersion testing versus that of aerosol testing highlights the importance of using test methods that reflect environmental exposure conditions of the packages.

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