Local pH and Its Evolution Near Mg Alloy Surfaces Exposed to Simulated Body Fluids

Lamaka, Sviatlana V.; González, Jorge Alfonso Murillo; Mei, Di; Feyerabend, Frank; Willumeit‐Römer, Regine; Zheludkevich, Mikhail L.

doi:10.1002/admi.201800169

Cited by 67 publications

(51 citation statements)

References 34 publications

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“…45 The role of Ca in different solutions is varying: in NaCl it does not have an effect, whereas under more physiological conditions it can also accelerate the degradation. 46 The important role of Ca in physiological solutions was also proven by attenuated total reflectance (ATR) Fourier-transform infrared (FTIR) spectroscopy measurements, which suggested that Ca 2+ stimulates rapid precipitation of hydroxyapatite at the interface. 47 Together with P, which is always present under physiological conditions, this can induce rapid nucleation and growth of noncrystalline Ca-P precipitates, a precursor of inorganic bone matrix.…”

Section: Cell-free Situationmentioning

confidence: 99%

The Interface Between Degradable Mg and Tissue

Willumeit‐Römer

2019

JOM

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Magnesium (Mg) and its alloys degrade under physiological conditions, which makes them interesting implant materials, especially for osteosynthesis and cardiovascular applications. However, how strong is the connection between the implant, the degradation layer, and the surrounding tissue, namely bone? Considering that microscopically the interface can be separated into the border between the metal and the degradation layer, the degradation layer itself, and the border between the degradation layer and the biological environment, it is not obvious that this zone with total thickness of several tens of microns is sufficient to keep an implant in place. However, biomechanical approaches such as push-out tests have shown that a degraded Mg pin is surprisingly well connected with the bone irrespective of the fragile appearance of the degradation layer. This paper provides an overview of what is known about the interface between degrading Mg implants, cells, and bone tissue.

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Section: Cell-free Situationmentioning

confidence: 99%

The Interface Between Degradable Mg and Tissue

Willumeit‐Römer

2019

JOM

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“…The flow rate of even below 0.01 ml/min is sufficient to maintain the concentration of the solution, while it is too low to influence the corrosion process . On the other hand, even at the flow rate of as high as 1.5 ml/min, local pH, in the Nernstian diffusion layer can be clearly distinguished from the bulk values .…”

Section: Resultsmentioning

confidence: 99%

Evaporation of Electrolyte during SVET Measurements: The Scale of the Problem and the Solutions

et al. 2019

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The objective of this work is to investigate the scale of the effect of spontaneous solution evaporation during SVET (Scanning Vibrating Electrode Technique) measurements and demonstrate how it biases the final results. When SVET maps are continuously acquired for more than several hours, the measured currents are smaller than expected. This is attributed to solvent (typically water) evaporation which leads to an increase in solution conductivity over time. If this is not considered when converting the measured potential differences into the local current densities, the SVET results display currents smaller than the true ones. Here, this effect is studied with a platinum disk electrode as source of a constant current and a model corroding system consisting of the AA2024/CFRP galvanic couple. Corrective actions are proposed to mitigate the problem, either in the experimental set‐up or as numerical correction.

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“…It seems that in the aged samples it is easy to form at the beginning of corrosion. Previous works also identified the Ca-P products in corrosion layers, [75][76][77][78] with a formation which is closely related with the presence of Ca 2+ in simulated body fluids. Following the investigation of the present alloys, it is reasonable to conclude that the formation of the present outer Ca-P layer is connected with the content of Nd inside the matrix and microstructure.…”

Section: Corrosion Proceeding Influenced By Intermetallic Microstructurementioning

confidence: 87%

“…It was reported that the calcium-phosphate layer could stabilize the surface pH value resulting in controlling Mg degradation. [78] It plays a protective role to a certain extent in reducing the deterioration from the galvanic corrosion. [70] Consequently, in the aged samples, owing to the formation of the outer Ca-P layer, the relatively compact inner corrosion layer and the dispersive distribution of nanometer precipitates inside grains, their corrosion resistance is better than the T4 sample.…”

Section: Corrosion Proceeding Influenced By Intermetallic Microstructurementioning

confidence: 99%

Effects of Intermetallic Microstructure on Degradation of Mg-5Nd Alloy

Zhang

Huang

Feyerabend

et al. 2020

Metall Mater Trans A

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The influence of intermetallic microstructure on the degradation of Mg-5Nd alloy with different heat treatments was investigated via immersion testing in DMEM + 10 pct FBS under cell culture conditions and subsequent microstructural characterizations. It was found that T4 heat-treated sample had the poorest corrosion resistance due to the lack of finely dispersed precipitates inside grains, continuous lamellar particles along grain boundaries and outer Ca-P layer, and to the formation of a loose corrosion product layer. In contrast, the aged samples exhibited a better corrosion resistance due to their presence and to the formation of a compact corrosion layer. Their degradation behavior largely depended on the intermetallic microstructure. Corrosion was initiated in the matrix around stable globular particles Mg41Nd5 at grain boundaries. In the sample aged at high temperature 245 °C, the coexistence of lamellar Mg41Nd5 particles and their nearby Nd-poor regions enhanced the corrosion. The corrosion first started in such regions. It was shown that those finely dispersed precipitates formed during aging had no influence on the corrosion initiation. However, they indeed affected the subsequent corrosion propagation with the immersion proceeding. They supplied barriers for corrosion propagation and hence were beneficial for improving the corrosion resistance. The continuously distributed lamellar Mg41Nd5 precipitates formed at grain boundaries during aging at 245 °C supplied an additional effective obstacle to corrosion propagation. This was especially beneficial for hindering the corrosion propagation at the later stage of corrosion.

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Local pH and Its Evolution Near Mg Alloy Surfaces Exposed to Simulated Body Fluids

Cited by 67 publications

References 34 publications

The Interface Between Degradable Mg and Tissue

The Interface Between Degradable Mg and Tissue

Evaporation of Electrolyte during SVET Measurements: The Scale of the Problem and the Solutions

Effects of Intermetallic Microstructure on Degradation of Mg-5Nd Alloy

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