Influence of paste thickness on the coated aggregates on properties of high-density sulphoaluminate cement concrete

An improved method for the densified mixture design algorithm and Fuller curve were used to design high-density sulphoaluminate cement concrete (HDSC). The performance of HDSC is significantly influenced by the paste thickness on the coated aggregates. Sulphoaluminate cement concrete mixtures containing aggregates coated with 3 different paste thickness of t=10μm, 20μm, and 30μm and water-binder ratios (W/B) of 0.25, 0.30 and 0.35 were prepared. The results of experiments show that paste thickness on the coated aggregates significantly influences the mechanical properties and durability of HDSC. With the increase of paste thickness, the compressive strength is increased, but the electrical resistivity is decreased, particularly at the early ages of 1 and 3 days. The sulfate corrosion resistance coefficients of HDSC are larger than 1.0, the total porosity can be less than 7%, and the micropore (i.e. with pore size less than 20nm) can be larger than 70%

Botanical characteristics, chemical components, biological activity, and potential applications of mangosteen

Garcinia mangostana L. (Mangosteen), a functional food, belongs to the Garcinaceae family and has various pharmacological effects, including anti-oxidative, anti-inflammatory, anticancer, antidiabetic, and neuroprotective effects. Mangosteen has abundant chemical constituents with powerful pharmacological effects. After searching scientific literature databases, including PubMed, Science Direct, Research Gate, Web of Science, VIP, Wanfang, and CNKI, we summarized the traditional applications, botanical features, chemical composition, and pharmacological effects of mangosteen. Further, we revealed the mechanism by which it improves health and treats disease. These findings provide a theoretical basis for mangosteen’s future clinical use and will aid doctors and researchers who investigate the biological activity and functions of food

A reliable physical unclonable function based on differential charging capacitors

Physical Unclonable Function (PUF) is an emerging security primitive for cryptography applications. However, achieving a very high reliability against the environmental variations remains a main challenge in PUF design and a key barrier for its commercialization. This paper presents a new PUF design based on the charging of a symmetric MOS capacitor pair by constant current with cross-coupled positive feedback inverters. The proposed weak PUF features high raw response reliability against variations in power supply and temperature without power-up reset noise and other issues due to the power-down and up of an array of cells. Extensive Monte-Carlo simulations have been performed using a standard 110nm CMOS process technology. The simulated results show an almost ideal uniqueness of 50.03% and superior reliability of 97.70% over a temperature range from 0 ̊C to 80 ̊C, and 96.20% with the supply voltage varies from 1.2 V to 1.8 V. The response bit can be generated at a rate of 27.78 Mbps with an average power consumption of 20.86 μW at 1.5V, and the energy consumption is only 750 fJ/bit.Ministry of Education (MOE)Accepted versionThe authors would like to acknowledge the support of the the Singapore Ministry of Education Tier 1 Grant MOE2018- T1-001-131 (RG87/18), National Natural Science Foundation of China (61601168), Natural Science Foundation of Jiangsu Province (BK20170205), and the Major Scientific Research Project of Zhejiang Lab (Grant No. 2018FD0ZX01)