Kongzhi yu Juece/Control and Decision (ISSN:1001-0920) is a monthly peer-reviewed scopus indexed journal originally founded in 1986. It is sponsored by the Ministry of Education, china and Northeastern University, china. Kongzhi yu Juece/Control and Decision (ISSN:1001-0920) has always adhered to the correct purpose of running the journal, and has been committed to gathering and disseminating excellent academic achievements, inspiring technological innovation, and promoting the development of disciplines in my country.Aiming at major national needs and international frontiers, this journal has published a large number of original and high-level research result. The journal was selected into the "China Science and Technology Journal Excellence Action Plan Project" in December 2019.In the future, it will strive to build an open innovation, collaborative integration.
The main objective in this paper is to determine the fatigue life of light rail transit in urban network through bulk specimens. It has involve regards the fatigue failure analysis in simulation to estimate the fatigue life of UIC60 rail profile as steel with using specimen of bulk in accordance standard of ASTM E466-15. The type of tensile strength machine was performed below 250 kN in order to identify the value of ultimate tensile strength (UTS). It have based on stress levels of 20%, 30%, 40%, 50%, 60%, 70% and 80% in considering normal temperature room of 37.5°C as below values on UTS.
Precast, prestressed double tee beams are used and designed similarly to other prestressed elements. However, there are some circumstances that are specific to double tee beams, either because of how the beams or slab are made or because of how they are used. For special situations, double tee beam producers have developed design criteria and conducted in-house testing to verify that their approaches are valid. In fact, there is consistency between the many types of double tee beams available. The fundamental design requirements for double tee floor and roof systems are covered in this researc
Green chemistry is new leading approach used for bio-synthesis of metal nanoparticles that ultimately produce an eco-friendly, less-toxic, and non-hazardous nanoparticles. Plants are among available organisms (biological systems) that have been widely investigated by recent researchers for the production of nanoparticle, due to their ability to produce more stable nanoparticles with faster synthesis rate. Zinc oxide (ZnO) nanoparticles possess stable physical and chemical properties along with being non-toxic and cheaper material and hence, it is good candidate to be bio-synthesized and applie
A new electronic gas detection system is presented in this paper. It is particularly important to pay attention to electronic noses that employ several resistive sensors. Due to new materials (TiO2) or low-cost fabrication processes, new resistive sensors may be extremely valuable, and if these sensors are combined with traditional ones (SnO2), a novel instrument will be needed to manage high-value resistive sensors ranging from kilohms to ginghams. Modular hardware is proposed that uses an improved resistance-to-period converter, where sensors are powered by DC. Under the assumption of commer
The non-enzymatic glucose sensor has garnered significant interest in the fabrication of blood glucose sensors due to its longer lifespan compared to enzymatic biosensors, which eliminate biological enzymes in glucose detection. This study employed Aluminium (Al) as a material to fabricate a non-enzymatic electrode using conventional photolithography techniques due to its low cost and good conductivity. The fabricated Aluminium electrode demonstrated a response to glucose oxidation, as evidenced by the formation of oxidation and reduction peaks in the Cyclic Voltammetry (CV) measurement. The o