Modern weapon system is a comprehensive integration of various subsystems and technologies. The basic purpose of weapon system and application engineering is to obtain the maximum system efficiency through the optimization, coordination and effective application of the whole system and its subsystems.
The idea of modern weapon system and application engineering came into being during the First World War, and developed rapidly in the Second World War and after the war, which has a multiplier effect on the comprehensive operational effectiveness of weapon systems. The future war will be a confrontation between the warring parties, and the role of weapon systems and applied engineering will be further enhanced. The modern system analysis theory and method formed by it are also extended to other fields of national economic construction. This discipline covers the original weapon system engineering, weapon application engineering and underwater weapons discipline, forming a new discipline connotation. This discipline is closely related to systems science, military science, information and communication engineering, control science and engineering, mechanical engineering, optical engineering and other disciplines. 1. The doctoral degree should have a solid and extensive theoretical foundation and systematic and in-depth professional knowledge in the field of weapon systems and applied engineering. Firmly grasp the theories and methods of weapon system analysis, optimization and simulation, system overall design and core subsystem design, system application and technical support, deeply understand the development direction and research frontier of this discipline and major related disciplines at home and abroad, skillfully use relevant theories, computer technology and advanced experimental testing methods to engage in scientific research and product development of this discipline, and creatively infiltrate and cross this discipline and related disciplines. Have a rigorous and realistic scientific attitude and style, and have the qualities of academic leaders or technical leaders in important research projects. Able to undertake and complete major scientific research projects independently. Capable of teaching, scientific research, product development or technical management in institutions of higher learning, scientific research institutes and relevant departments of arms and services.
2. The master should have a solid theoretical foundation and in-depth professional knowledge in the field of weapon systems and applied engineering. Master the basic theories and methods of weapon system analysis, optimization and simulation, system overall design and core subsystem design, system application and technical support, be able to skillfully use relevant theories, computer technology and instruments and equipment, and independently engage in scientific research and technical development of this discipline. Master a foreign language skillfully, read the foreign language materials of this major, and understand the present situation and development direction of this subject at home and abroad. Have a rigorous scientific attitude and style. Have the ability to engage in engineering technology and product development, scientific research, teaching, engineering application and technical management in enterprises, scientific research institutes, universities and relevant departments of services and arms. 1. Subject research scope: modeling, analysis, optimization and simulation of weapon systems; The overall and core subsystem design of weapon system; Analysis, detection, identification, guidance and control of military target characteristics; Comprehensive technical application of weapons and equipment and ordnance technical support: weapon safety engineering; Reliability and maintenance engineering of weapon system: environmental effect, damage ability and operational effectiveness of weapon system; Research on countermeasure technology of weapon system: integration technology of weapon equipment and operational command.
2. Curriculum setting
(1) doctorate
Basic theory courses include modern signal processing, specialized mathematics, complex system theory, system, information and control, etc.
Specialized courses include Monograph of Weapon System Engineering, Monograph of Weapon Application Engineering, Monograph of Weapon Safety Engineering, Weapon Overall Design and Core Subsystem Design, Weapon System Optimization and Simulation, Weapon System Countermeasure Analysis and Synthesis, etc.
(2) Master's degree
Basic theory courses include advanced algebra, calculation methods, operational research, optimization methods, mathematical statistics, system engineering, signal processing, modern control theory, system simulation and simulation.
Specialized courses include weapon system principle and engineering design, weapon system application engineering, weapon system support engineering, target detection and identification technology, weapon safety engineering, introduction to weapon system design, modern testing technology, man-machine environment engineering, etc. The theory and technology of weapon launch is the theory and technology to study the controlled and uncontrolled launch, flight and terminal effect of artillery, cannon, rocket, missile and torpedo, and it is the main subject of equipment science and technology. It involves the research fields of projectile propulsion process control, flight stability and accurate homing, damage effect to targets, launch environment effect, launch control and detection, launch preparation and simulation training, launch system engineering and so on. , involving system overall design optimization, new launch principle, weapon update, etc. It plays a leading and promoting role in the research and development of weapon systems and the improvement of operational effectiveness.
This subject covers the original rocket and missile launching technology, ballistics, underwater weapons and so on, and forms a new subject connotation on this basis. This discipline is closely related to aircraft design and artillery, automatic weapons and ammunition engineering, weapon system and application engineering, aerospace science and technology, control science and technology and other disciplines. 1. Ph.D. has a solid and extensive theoretical foundation in mathematics, mechanics, engineering thermophysics, electromechanical theory and other aspects, and has systematic and in-depth professional knowledge in the main research direction of this discipline. Deeply understand the frontier and development direction of the subject, master computer technology and advanced experimental testing methods, and have the scientific research ability to engage in creative work independently. Have a rigorous and realistic scientific attitude and style, and have the qualities of academic leaders and project leaders. Able to independently undertake high-tech scientific research topics of great significance and research tasks of theoretical and engineering problems to be solved. Engaged in teaching, scientific research or technical management in institutions of higher learning, scientific research institutes and related services and arms.
2. The master's degree has a solid mathematical foundation and professional knowledge in the main research direction of this discipline. Understand the progress and trend of this discipline, and skillfully use computers and related experimental testing instruments. Have the ability to engage in scientific research or independently undertake professional and technical work. Proficient in a foreign language, and can read the foreign language materials of this major. Have a rigorous and realistic scientific attitude and style. Be able to engage in teaching and scientific work in this major or related majors in institutions of higher learning, scientific research institutes, factories and enterprises and related services and arms.
Research and engineering work. 1. Ballistics within the scope of discipline research; Launch dynamics; Ballistic theory in air and water: projectile dispersion and extended range technology: terminal ballistics; Wound ballistics; Ultra-high speed launch technology; Simulation and automatic detection of launch system: emission effect and its control technology; Launch safety and reliability technology; Overall design and analysis of launch system; Test technology of launch system; Fault diagnosis of launch system.
2. Curriculum setting
(1) doctorate
Basic theory courses include specialized mathematics, advanced vibration theory, modern fluid mechanics, new progress of modern physics, elastic-plastic mechanics and fracture mechanics.
Specialized courses include launch dynamics and vibration control, multiphase reaction mechanics, ballistic system simulation and simulation, system identification, system fault diagnosis, intelligent detection and control, transient testing technology, system reliability analysis, etc.
(2) Master's degree
Basic theory courses include mathematical equations, nonlinear ordinary differential equations, advanced algebra and mathematical statistics.
Specialized courses include multiphase fluid mechanics, gas jet mechanics, launch dynamics, modern internal ballistics, modern external ballistics, underwater ballistics, digital signal processing, noise control, modern design methods, modern control theory, transient testing technology, optimal treatment and application, system failure and reliability evaluation, and simulation technology. Artillery, automatic weapons and ammunition engineering are two disciplines under the first-level discipline of ordnance science and technology, which are formed by the merger of artillery and automatic weapons and ammunition warhead engineering. This discipline covers research fields such as artillery, automatic weapons and ammunition warhead engineering.
Study the overall engineering design and analysis of artillery, automatic weapons and ammunition, apply advanced design theory and method, system testing technology, etc. All kinds of tube-launched weapons and ammunition systems are comprehensive application disciplines of all kinds of tube-launched weapons subsystems and their supporting military disciplines, which plays an important role in promoting the development and application of weapons science and technology in China and promoting the modernization of military equipment in China.
Artillery, automatic weapons and all kinds of ammunition are the main firepower equipment of armies in various countries, and their modernization level is an important embodiment of the combat effectiveness of troops. The advanced, complex and high-performance requirements of modern combat weapon systems endow this subject with new connotation, which expands this subject from the original mechanical nature to electromechanical integration and digitalization. This subject is closely related to mechanics, electronics, control, materials, computer, ballistics and other disciplines, and is a comprehensive integration of various technologies. The research field of this subject is closely related to the national economy, and many high and new technologies can be directly used in national economic construction. 1. Doctoral degree has a solid and broad theoretical foundation and systematic and in-depth professional knowledge, is familiar with the research, development and experimental technology of this discipline, fully understands the present situation and development direction of this discipline, grasps the academic frontier, understands the development of adjacent disciplines, and has strong scientific research and innovation ability. The degree winner has the qualities of a person in charge of a scientific research project or a leader of a discipline, is competent for the development, teaching and management of scientific research projects in this discipline, and can also engage in the development and research of general electromechanical systems.
2. The master's degree has a solid theoretical foundation and systematic professional knowledge in this discipline, understands the current situation and development direction of this discipline, is proficient in a foreign language, and can read foreign language materials of this major. Degree winners have the ability and quality to undertake scientific research projects, and can be competent for the teaching, scientific research, development and management of this discipline, as well as the development and research of general electromechanical systems. 1. research scope: systematic analysis and overall design of weapons (artillery, automatic weapons, ammunition); Theory and method of weapon design; Automation and intelligence technology of weapon system: ammunition design theory; Target damage science and terminal effect; Weapon testing and testing technology; Weapon electromechanical technology; Research on ammunition theory of new concept and principle: ammunition filling and explosive application technology; Application technology of ammunition propellant; Explosives and safety technology.
2. Curriculum setting
(1) doctorate
Basic theory courses include specialized mathematics, new progress in modern physics, elastic-plastic mechanics, structural dynamics, modern fluid mechanics, fracture mechanics and so on.
Specialized courses include system simulation and physical simulation, impact dynamics, detonation theory, theory of turbulence and so on.
(2) Master's degree
Basic theory courses include advanced linear algebra, mechanical system dynamics, elastic-plastic mechanics and its application, mathematical equations and so on.
Specialized courses include weapon system analysis and research, weapon CAD technology, launch dynamics, weapon dynamic simulation technology, weapon application mechanics, weapon dynamic testing technology, modern ammunition design and progress, ultra-high pressure technology and test, warhead mechanism and end effect, electromechanical control technology, etc. Military chemistry is an applied discipline that studies the theory and technology of detection, protection and decontamination of toxic and harmful chemicals and special military chemicals based on organic chemistry, analytical chemistry, pharmacology and chemical engineering. It is the scientific and technological basis for the demonstration, development and evaluation of chemical defense equipment, and directly serves the national defense construction. At the beginning of the 20th century, due to the development of chemical industry, toxic chemicals were used on a large scale to kill effective forces in World War I, and anti-chemical technology came into being. During World War II, with the development of elemental organic chemistry, the application of highly toxic phosphorus-containing organic compounds promoted the development of corresponding detection, protection and decontamination technologies. Since 1960s, with the development of modern analytical technology and adsorption catalysis technology. With the rapid development of biotechnology and information technology, this subject has gradually developed into a comprehensive chemistry subject combined with modern high technology.
Pyrotechnics is a theory and technology based on chemical physics and photoelectric physics, which studies pyrotechnics and passive jamming materials and their release technology to achieve chemical and physical effects such as light, sound, color, smoke and heat, as well as various detonating devices and systems. During the two world wars in this century, special ammunition such as flare bombs, smoke bombs and incendiary bombs appeared, which made the pyrotechnic technology develop comprehensively and rapidly. Since the 1960s, the technology of using pyrotechnics and passive jamming materials to jam infrared, laser, microwave and other aiming devices and guided weapons has been formed, thus developing into an interdisciplinary subject of optics, electricity and machinery. This course covers the contents of original military chemistry, initiating explosive device and initiating explosive device. 1. The doctoral degree should have a solid and extensive theoretical foundation and systematic and in-depth professional knowledge, be able to deeply understand and be familiar with the present situation and development direction of military chemistry and pyrotechnics at home and abroad, and have strong scientific insight and creativity in frontier fields such as new concepts and new technologies in this discipline. The results of doctoral thesis should be creative. Master at least one foreign language, be able to read foreign language materials of this major, and have certain writing ability and international academic exchange ability. Have the quality of academic leader or project leader.
2. The master's degree has a solid theoretical foundation and systematic professional knowledge, and can understand and be familiar with the current situation and trends of military chemistry and pyrotechnics at home and abroad. Combined with the research direction, I have a strong ability to analyze and apply new technologies and methods; Have the ability to conduct scientific research or independently undertake professional and technical work. Proficient in a foreign language, and can read the foreign language materials of this major. Postgraduates in this discipline are not only suitable to be teachers in colleges and universities, but also suitable for research, design and management in scientific research units, design departments and large and medium-sized enterprises. 1. Subject research covers military organic chemistry, natural product chemistry and molecular design, chemical detection and sensitive reagents, military adsorption and catalysis technology, chemical disinfection and disinfection materials, special military chemicals, theoretical research of initiating explosive device, application technology of initiating explosive device and equipment, passive interference technology, and theory and application technology of initiating explosive device system.
2. Curriculum setting
(1) doctorate
Basic theory courses: bioorganic chemistry, new catalytic materials, combustion, etc.
Specialized courses include monographs on military chemistry, protein and polypeptide chemistry, modern initiating explosive device, simulated enzyme chemistry, anti-virus material chemistry, photoelectric countermeasure materials and technology, and initiating explosive device pharmacy.
(2) Master's degree
Basic theoretical courses include advanced organic chemistry, advanced physical chemistry, advanced analytical chemistry, heterogeneous catalytic reaction kinetics, chemical fluid mechanics, modern instrumental analysis, probability theory and mathematical statistics.
Specialized courses include military chemistry, elemental organic chemistry, chemical sensor, catalysis principle, adsorption technology principle, chemical and catalytic reaction engineering, pyrotechnic testing technology, pyrotechnic optics, infrared physics, functional materials science, pyrotechnic system theory and method, etc. Chemistry, chemical engineering and technology, optical engineering.