Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Gongcheng Kexue Yu Jishu/Advanced Engineering Science (ISSN: 2096-3246) is a bi-monthly peer-reviewed international Journal. Gongcheng Kexue Yu Jishu/Advanced Engineering Science was originally formed in 1969 and the journal came under scopus by 2017 to now. The journal is published by editorial department of Journal of Sichuan University. We publish every scope of engineering, Mathematics, physics.
Submission Deadline
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Vol
58
, Issue
02
)
22 Mar 2026
Day
Hour
Min
Sec
Day
Hour
Min
Sec
Publish On
(
Vol
58
, Issue
02
)
31 Mar 2026
Scopus Indexed (2026)
Aim and Scope
Gongcheng Kexue Yu Jishu/Advanced Engineering Science (ISSN: 20963246) is a peer-reviewed journal. The journal covers all sort of engineering topic as well as mathematics and physics. the journal's scopes are in the following fields but not limited to:
Agricultural science and engineering Section:
Horticulture,
Agriculture,
Soil Science,
Agronomy,
Biology,
Economics,
Biotechnology,
Agricultural chemistry,
Soil,
development in plants,
aromatic plants,
subtropical fruits,
Green house construction,
Growth,
Horticultural therapy,
Entomology,
Medicinal,
Weed management in horticultural crops,
plant Analysis,
Tropical,
Food Engineering,
Venereal diseases,
nutrient management,
vegetables,
Ophthalmology,
Otorhinolaryngology,
Internal Medicine,
General Surgery,
Soil fertility,
Plant pathology,
Temperate vegetables,
Psychiatry,
Radiology,
Pulmonary Medicine,
Dermatology,
Organic farming,
Production technology of fruits,
Apiculture,
Plant breeding,
Molecular breeding,
Recombinant technology,
Plant tissue culture,
Ornamental horticulture,
Nursery techniques,
Seed Technology,
plantation crops,
Food science and processing,
cropping system,
Agricultural Microbiology,
environmental technology,
Microbial,
Soil and climatic factors,
Crop physiology,
Plant breeding,
Electrical Engineering and Telecommunication Section:
Electrical Engineering,
Telecommunication Engineering,
Electro-mechanical System Engineering,
Biological Biosystem Engineering,
Integrated Engineering,
Electronic Engineering,
Hardware-software co-design and interfacing,
Semiconductor chip,
Peripheral equipments,
Nanotechnology,
Advanced control theories and applications,
Machine design and optimization ,
Turbines micro-turbines,
FACTS devices ,
Insulation systems ,
Power quality ,
High voltage engineering,
Electrical actuators ,
Energy optimization ,
Electric drives ,
Electrical machines,
HVDC transmission,
Power electronics.
Computer Science Section :
Software Engineering,
Data Security ,
Computer Vision ,
Image Processing,
Cryptography,
Computer Networking,
Database system and Management,
Data mining, Big Data, Robotics ,
Parallel and distributed processing ,
Artificial Intelligence ,
Natural language processing ,
Neural Networking, Distributed Systems ,
Fuzzy logic, Advance programming,
Machine learning,
Internet & the Web,
Information Technology ,
Computer architecture,
Virtual vision and virtual simulations,
Operating systems,
Cryptosystems and data compression,
Security and privacy,
Algorithms,
Sensors and ad-hoc networks,
Graph theory,
Pattern/image recognition,
Neural networks.
Civil and architectural engineering :
Architectural Drawing,
Architectural Style,
Architectural Theory,
Biomechanics,
Building Materials,
Coastal Engineering,
Construction Engineering,
Control Engineering,
Earthquake Engineering,
Environmental Engineering,
Geotechnical Engineering,
Materials Engineering,
Municipal Or Urban Engineering,
Organic Architecture,
Sociology of Architecture,
Structural Engineering,
Surveying,
Transportation Engineering.
Mechanical and Materials Engineering :
kinematics and dynamics of rigid bodies, theory of machines and mechanisms, vibration and balancing of machine parts, stability of mechanical systems, mechanics of continuum, strength of materials, fatigue of materials, hydromechanics, aerodynamics, thermodynamics, heat transfer, thermo fluids, nanofluids, energy systems, renewable and alternative energy, engine, fuels, nanomaterial, material synthesis and characterization, principles of the micro-macro transition, elastic behavior, plastic behavior, high-temperature creep, fatigue, fracture, metals, polymers, ceramics, intermetallics.Chemical Engineering :
Chemical engineering fundamentals,
Physical, Theoretical and Computational Chemistry,
Chemical engineering educational challenges and development,
Chemical reaction engineering,
Chemical engineering equipment design and process design,
Thermodynamics,
Catalysis & reaction engineering,
Particulate systems,
Rheology,
Multifase flows,
Interfacial & colloidal phenomena,
Transport phenomena in porous/granular media,
Membranes and membrane science,
Crystallization, distillation, absorption and extraction,
Ionic liquids/electrolyte solutions.
Food Engineering :
Food science,
Food engineering,
Food microbiology,
Food packaging,
Food preservation,
Food technology,
Aseptic processing,
Food fortification,
Food rheology,
Dietary supplement,
Food safety,
Food chemistry.
Physics Section:
Astrophysics,
Atomic and molecular physics,
Biophysics,
Chemical physics,
Civil engineering,
Cluster physics,
Computational physics,
Condensed matter,
Cosmology,
Device physics,
Fluid dynamics,
Geophysics,
High energy particle physics,
Laser,
Mechanical engineering,
Medical physics,
Nanotechnology,
Nonlinear science,
Nuclear physics,
Optics,
Photonics,
Plasma and fluid physics,
Quantum physics,
Robotics,
Soft matter and polymers.
Mathematics Section:
Actuarial science,
Algebra,
Algebraic geometry,
Analysis and advanced calculus,
Approximation theory,
Boundry layer theory,
Calculus of variations,
Combinatorics,
Complex analysis,
Continuum mechanics,
Cryptography,
Demography,
Differential equations,
Differential geometry,
Dynamical systems,
Econometrics,
Fluid mechanics,
Functional analysis,
Game theory,
General topology,
Geometry,
Graph theory,
Group theory,
Industrial mathematics,
Information theory,
Integral transforms and integral equations,
Lie algebras,
Logic,
Magnetohydrodynamics,
Mathematical analysis.
Latest Journals
Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-24-07-2023-597
Abstract : In many ways, composite materials have been widely used in everyday life. However, most of the composite materials that have been successfully developed still use synthetic materials that are not environmentally friendly. In this study, it was intended to obtain environmentally friendly composite materials (GC) by utilizing unmodified and unmodified teak starch and arrowroot starch adhesives. Arrowroot starch modification was carried out using a solution of 1%, 3% and 5% Sodium Tripolyphosphate (STPP). GC material synthesis was done by mixing modified arrowroot starch and teak powder in a 50/50 (% weight) ratio and using hot press machines at 80oC, 3.0 MPa pressure for 10 minutes. An FTIR analysis clearly showed that the intensity of the phosphate (P=O) group in the wavenumber region of 1338 cm-1 for GC materials with modified teak sawdust. Based on the characterization results, it can be concluded that the modified arrowroot starch increased the values of density, strength and bending modulus and reduced the values of moisture content and thickness expansion. The highest increase in density, strength and bending modulus was experienced by GC material with arrowroot starch resin modified with STPP at a concentration of 3%, namely 7.3%, 11.9% and 30.06% respectively. The GC material also experiences the highest moisture content and thickness swelling decrease with arrowroot starch modified with STPP at a concentration of 3%, namely 21.9% and 8.0%, respectively. Although the use of modified arrowroot starch can improve the characteristics of the resulting GC material, the synthetic GC material does not fully meet the standards required by INS 03-2105-2006. Only the synthesized GC material's density value and moisture content can meet the INS 03-2105-2006 standard..
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Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-23-07-2023-596
Abstract : The Nile River is regarded as one of Egypt's most important national assets, with over 800 urban settlements located along its banks. However, urban transformations and changes in riverfront land use in these settlements are occurring rapidly and in different forms. The riverfronts have not received sufficient study and analysis of the dynamics of their land-use changes, despite being the focus of conflict between many powers. The outcome of this conflict appears through a clear disparity in land use. Therefore, this research paper is a serious step toward understanding the dynamics of change in riverfront land use (spatially and temporally) and their correlation with the population sizes of their settlements. The population size was used as an indication of the temporal development of riverfront settlements. To develop this framework, this study conducts a critical review of the literature related to the processes of changing the uses of riverfront land and then uses a quantitative method and statistical analysis after monitoring all the Nile River settlements and the use of their Nile fronts and classifying them according to population sizes to determine the correlations between these uses and the sizes of the population of their settlements to assist decision-makers and planners in proposing practical methods when conducting development processes in Nile fronts..
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Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-18-07-2023-594
Abstract : Structural reinforced concrete (RC) elements incorporating glass fibre-reinforced polymer (GFRP) bars have been claimed to exhibit notable deformability under seismic loading. In this research, an attempt has been made to evaluate the influence of retrofitting with GFRP bars on the behaviour of RC beam-column joints. To this end, eight full scale joints were fabricated and examined under cyclic loading. Eight specimens were cast, out of which two were based on control specimen and the remaining six based on GFRP bonding. The crack propagation and forceādisplacement hysteresis curves are presented as the main test outputs. Moreover, seismic parameters namely displacement ductility, absorbed energy, stiffness and equivalent damping ratio are compared and discussed. Overall, the results demonstrated that incorporating GFRP retrofitting could enhance cyclic response of joints in terms of ductility, absorbed energy and equivalent damping ratio..
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Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-14-07-2023-593
Abstract : Recently, we have many research works on the neural networks and their related issues, even for network communications and information exchange. For exchangeability of neural network frameworks, the Neural Network Exchange Format (NNEF) specification is now widely used. Due to very large size of these neural networks, their accelerations are actively explored, and can be achieved through massively parallel processing techniques. In this paper, we present a prototype implementation of C++ code generator with parallel-processing accelerations with CUDA and underlying GPUs, for the NNEF specification files. We show the feasibility and also technical issues including C++ template uses with CUDA kernels..
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Gongcheng Kexue Yu Jishu/Advanced Engineering Science
Journal ID : AES-12-07-2023-592
Abstract : In the extrusion industry, the die design process is often a trial-and-error process that involves a number of failures before reaching the required specific profile. Analysis of die failure is an important aspect of predicting the failure rate and enhancing the durability of Aluminum extrusion dies. The present study focused on the Aluminum extrusion process using semi-hollow dies of hot-work H13 steel with different shapes and sizes to determine their defect rate and percentage of failure. The extrusion speed, pressure, and friction temperatures are three major parameters in Aluminum extrusion profile defects and also in die failures. Based on the data collected from the aluminum extrusion process, analysis has revealed that Extrusion die failure can significantly impact production, product quality, and costs. Understanding the causes and effects and implementing preventive measures are essential for minimizing die failures, optimizing the production process, and ensuring consistent quality output in the extrusion industry..
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