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Open AccessArticle

Preparation and Performance of Ternesite–Ye’elimite Cement

by Yan Shen, Xi Chen, Jiang Li, Peifang Wang and Jueshi Qian

Materials 2022, 15(12), 4369; https://doi.org/10.3390/ma15124369 - 20 Jun 2022

Cited by 8 | Viewed by 3148

Ternesite–ye’elimite (TCSA) cement is a new type of environmentally advantageous binder prepared by introducing ternesite, a reactive phase, into belite calcium sulfoaluminate cement clinker. This paper reports the laboratory production of TCSA cement by the addition of minor elements to achieve the coexistence of ternesite and ye’elimite. The influence of dopants on the mineralogical composition of clinkers and the clinkering conditions for the preparation of TCSA cement clinkers were investigated by X-ray powder diffraction and scanning electron microscopy. The mechanical properties and hydration products of the cement pastes were also studied. The results indicated that the addition of CaF₂, P₂O₅ and Na₂O can promote the coexistence of ternesite and ye’elimite, and that Na₂O is the most effective candidate. TCSA cement clinkers could be successfully prepared at 1150 °C for 30 min by doping 0.3% Na₂O. The TCSA cement clinkers exhibited shorter setting times than the BCSA cement clinkers. The later strength of TCSA cement showed a significant increase compared with BCSA cement. The effect of Na₂O was different on the strength development for TCSA and BCSA cement. The dissolution of ternesite could promote the formation of ettringite. The reactivity of belite was higher in TCSA cement due to the formation of strätlingite. Full article

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11 pages, 757 KB

Open AccessArticle

Comparative Study of DDS with Different Types of Phase Accumulators

by Oleksiy Polikarovskykh, Lesia Karpova, Ihor Hula and Vasyl Melnychuk

Inventions 2019, 4(3), 35; https://doi.org/10.3390/inventions4030035 - 17 Jul 2019

Viewed by 6187

Abstract

The paper deals with the problems of delayed transfer signals in the direct digital synthesizer (DDS) phase accumulator adders. Transfer delay is one of the factors that affect the maximum output frequency of the DDS synthesizer. The main types of adders used in DDS synthesizers are described. Separately, attention was paid to the adder with a consistent transfer of the transfer signal, adders with a transmission carry signal with a fixed block length, adders with a signal transmission delay with a variable block length, and a mathematical analysis of the origin and duration of the delay of the transfer signal in them. It was found that the use of a transfer adder with a variable length of a block in the core of a direct digital synthesizer would increase the maximum output frequency by 2.4 times compared to the adder with a parallel transfer, and by 1.43 times as compared with the adder with a fixed length the block. Full article

(This article belongs to the Section Inventions and Innovation in Electrical Engineering/Energy/Communications)

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