Advances in the Study of Magnesium Alloys and Their Use in Bone Implant Material

Magnesium and magnesium alloys have great application potential in the field of orthopaedics. Compared with traditional inorganic nonmetallic materials and medical polymer materials, magnesium alloys have many advantages, such as better strength, toughness, fatigue resistance, and easy processing. Its mechanical properties are suitable and controllable. It can meet the same elastic modulus, cell compatibility, and biodegradability as human cortical bone. There are also some drawbacks for biodegradability, as magnesium and its alloys, with their high degradation rate, can cause insufficient integrity of the mechanical properties. This paper summarises the research on magnesium and its magnesium alloy materials in the field of bone implantation, looking at what magnesium and its magnesium alloys are, the history of magnesium alloys in bone implant materials, the manufacturing of magnesium alloys, the mechanical properties of magnesium alloys, the bio-compatibility and clinical applications of magnesium alloys, the shortcomings, and the progress of research in recent years

The impact of water on gas storage in organic-rich rocks

To achieve CO2 storage in organic-rich rocks such as coal and shale, the influence of H2O generated by organic matter and co-occurring CH4 and N2 cannot be neglected. Based on the molecular model of coal and kerogen established using Materials Studio, and verification of CH4 isothermal adsorption from 20 to 100 oC, the competitive adsorption between CH4、CO2、N2 and H2O is discussed. Both the coal and shale kerogen molecular models show similar relative adsorption capacities, namely H2O > CO2 > CH4 > N2. Competitive adsorption is more obvious in small pores with a greater apparent inhibiting effect of H2O on the gases. The adsorption of CO2, CH4 and N2 decreases to zero at 75 ℃ in the kerogen model. A positive correlation is shown between the charge transfer and the adsorption capacity, and the adsorption onto carboxyl group occurs indicate that H2O has the highest adsorption preference. The oxygen-containing functional group is the dominant adsorption site for H2O, with the carboxyl group being the best adsorption site. The hydroxyl group is the optimal site for all gases, while all lower than H2O. The adsorption heat released are of H2O>CO2 >CH4 >N2 sequences, which is consistent with the change in the amount adsorbed

The Effect of Acceleration on Continuous Variable Quantum Key Distribution with Discrete Modulation

The influence of gravity on quantum key distribution cannot be ignored in practical space communication, and this paper provides a thorough analysis of the effectiveness of discrete modulated states. By calculating the acceleration in both inertial and non-inertial reference systems with expectation values of the computational Heisenberg field respectively, the gain coefficient is obtained. Based on this parameter, an improved protocol with a high key rate over a transmission distance of 390 km is proposed, enabling the practical application of quantum key distribution techniques. Furthermore, the results obtained can be extended to the eight-state schemes. This paper not only extends the range of discrete modulation states, but also enhances the impact of relativistic quantum information

Advances in the Study of Magnesium Alloys and Their Use in Bone Implant Material

Magnesium and magnesium alloys have great application potential in the field of orthopaedics. Compared with traditional inorganic nonmetallic materials and medical polymer materials, magnesium alloys have many advantages, such as better strength, toughness, fatigue resistance, and easy processing. Its mechanical properties are suitable and controllable. It can meet the same elastic modulus, cell compatibility, and biodegradability as human cortical bone. There are also some drawbacks for biodegradability, as magnesium and its alloys, with their high degradation rate, can cause insufficient integrity of the mechanical properties. This paper summarises the research on magnesium and its magnesium alloy materials in the field of bone implantation, looking at what magnesium and its magnesium alloys are, the history of magnesium alloys in bone implant materials, the manufacturing of magnesium alloys, the mechanical properties of magnesium alloys, the bio-compatibility and clinical applications of magnesium alloys, the shortcomings, and the progress of research in recent years